ACADEMIC REGULATIONS 2.

0 THE PROGRAMME AND GRADUATION REQUIREMENTS

(UNDER-GRADUATE COURSES) 2.1 Minimum residential requirement and maximum period for all
the programmes:

Minimum residential requirement 8 semesters

The students admitted in 2015-16 shall be governed by the relevant Maximum period for which a student can 12 semesters
rules as indicated below: remain on the college roll
Note: In case a student does not complete his/her course work
1.0 DEFINITIONS satisfactorily (5.0 OGPA out of 10) within the maximum
prescribed period he/she shall no longer be a student of the
1.1 ‘Academic Year’ or ‘Academic Session’ of the University shall university and the respective Dean of the college shall drop him
ordinarily be between July to June and shall consist of from the college roll.
two semesters.
1.2 ‘Semester’ is an academic term of normally 18-20 weeks 3.0 EXAMINATION
including examinations. There shall be a main theory and/or practical examination conducted by
the university at the end of each semester. The theory and practical
1.3 ‘Course’ means a unit of instruction or a segment of a subject
examinations shall be of three hours duration except otherwise
matter to be covered in a semester. Each course is assigned a
specified. Besides this, there will be a mid-term examination.
specific number, title and credits.
3.1 Mid-Term Examination:
1.4 ‘Credit Hour’ also written as ‘Credit’ means the numerical weight
allotted to the course, including its theory and practical parts. A mid-term examination of 20 maximum marks shall be held after
One credit will represent one hour of lecture and two to three completion of about 50% syllabus in each course. The mid-term
hours of laboratory/field practical in each week. examination shall be of one hour duration.

1.5 ‘Grade point’ is a numerical number which denotes students’ “If a student misses the mid term examination due to any legitimate
performance in a course. It is obtained by dividing the reason including deputation by the university, then he/she will be
percentage marks obtained by ten. permitted to appear in a special mid term examination before the final
examination”. Only one special mid-term examination per course shall
1.6 ‘Credit point’ is the product of credit and grade point obtained by be conducted for all eligible students under this rule.
the student in a course.
Students who are deputed by the university will have to submit
1.7 ‘SGPA’ (Semester Grade Point Average) is the average of the the information in advance to the concerned department for
credit points of a semester. awarding attendance.
1.8 ‘OGPA’ is the overall cumulative grade point average obtained 3.2 The distribution of marks for the mid-term examination, final
by the student in the courses taken in all the semesters theory examination and practical examination shall be as follows:
completed by him/her.
Final (University)
1.9 ‘Year’ means an academic session consisting of two semesters. Credit Mid-Term Examination Total
Say, first year means the first academic session of the (Marks T/P) Examination
Theory Practical
prescribed course of a degree programme. Similarly, second
year, third year, and fourth year mean second, third and fourth 1/2/3/4+1 20(T) 50 30 100
academic sessions, respectively. 0+1/2/3/4 20(P) - 80 100
1.10 ‘Equivalent percentage’ is the percentage obtained by 1/2/3/4+0 20(T) 80 - 100
multiplying grade point, SGPA, and OGPA respectively by ten. 1+/2/3/4 20(P) 30 50 100

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3.3 The distribution of marks for the final practical examination shall 3.5 Pass Requirements:
be as under
(i) Candidates are required to pass separately in final theory and/or
Practical with Maximum Marks 30 50 80 practical examinations in each course
(a) Practical record and day-to-day 5 10 15 (ii) For a pass, a candidate is required to obtain at least 40% marks in
assessment (Sessional work) each theory final examination as well as in each practical final
examination and 4.00 grade point in the course.
(b) Practical exercises (may include any 20 30 50
exercises as decided by the external (iii) The minimum OGPA required for degree is 5.00.
examiner)
(c) Viva-voce 5 10 15 3.6 Promotion to Higher Classes:
(i) The promotion to next class shall be decided only at the end of
3.4 Grading System
an academic year.
(i) A numerical grading system is followed for evaluation. Each
(ii) A student will be promoted to higher class if he/she secures an
course has a numerical weightage known as credit. The total
OGPA as mentioned in the table below.
marks obtained in each course (including its mid-term, theory
and practical parts) are converted into percentage and divided Year to which promotion Minimum OGPA
by 10 to obtain the grade point for that course. The grade point
is being Considered required for Promotion
when multiplied by the total course credit, gives credit points for
the course. Second 4.00
(ii) Semester Grade Point Average (SGPA) is simply average of the Third 4.50
credit points for a semester. The Overall Grade Point Average
(OGPA) is the average for all courses upto the current semester. Fourth 4.75

If C i and Gi are the credit and grade points for a course, then (iv) A student who has been promoted to the first Semester of a
OGPA and SGPA are given by the following formulae: class as a result of above rule, shall be automatically promoted
to the second semester of that class regardless of the result of
å C i Gi the year’s first semester examination.
SGPA = where the summation is for all courses in the semester
å Ci (v) If a student is not promoted to a higher class, he/shall become
an ex-student of the failed class and has to clear the backlog
åCiGi
OGPA = where the summation is for all courses of preceding and/ or improve his/her OGPA to be eligible for promotion.
åCi semester including the current one
(vi) Provisional Promotion :

(iii) The percentage equivalent of OGPA shall be determined by (a) The Promotion will be provisional with the permission of
multiplying OGPA by ten. Concerned Dean to higher class till the result of the
previous semester is declared.
(iv) The division of the under graduate student shall be determined
by the OGPA at the end of successful completion of program (b) Student has to register as per academic calendar, i e.
as follows: Date of registration without late fee and date of
registration with late fees would be applicable.
Division OGPA
First 6.00 and above (c) Student has to give an undertaking that on declaration of
result, if he/ she is not eligible, the registration would
Second 5.00 and above stand cancelled automatically.

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 (d) Student should have a minimum OGPA as per existing (d) There will be a common examination for regular students
UG rules. and for those who have been offered courses
for improvement.
(e) Per-requisite courses, if any, have to be cleared prior to
the regular courses. (e) Students will not be issued PDC till the result of the
courses offered for improvement is declared.
3.7 Clearing of Backlogs and Repeating of Courses for (f) The repeated course shall be marked as “Repeat” in the
Improvement of OGPA: revised mark-sheet.
A. Clearing of Backlog: (g) In case PDC has been issued to the student he/she will
not be eligible for improvement.
(a) All the students with backlog (whether promoted or ex-
(h) The student would be required to pay regular semester
students) shall have to appear in the examination of
fees if he/she wishes to attend the classes. Otherwise
backlog courses in the main examination of the semester
he/she shall be treated as Ex-student.
in which such courses are regularly offered. The student
will be permitted to appear in backlog examination in (i) The examination fee for courses offered for improvement
failed part only whether it is theory or practical or both. will be Rs. 1000.00 (Rupees one thousand only) per
He/she shall not be required to attend regular classes for paper irrespective whether it is a regular course or a
such courses. special paper.
(b) Midterm marks obtained by a student will not be carried (j) The student has to submit an undertaking that the marks
over for backlog examination and proportionate marks obtained in the examinations taken for improvement will
shall be awarded. replace the marks obtained in the original examination of
the paper(s), if he/she gets more than previous result.
(c) The university shall conduct final examination as per
current scheme of examinations. Students offered backlog (k) In case a student fails in the improvement course, he/she
courses would be required to appear in the equivalent will be awarded minimum pass marks in that paper.
course in the new programme. In case of variation in the
(l) Midterm marks in improvement courses: In such cases,
course content, student has to do self preparation.
the student will be awarded proportionate marks based
(d) If the backlog course is the result of being detained on on marks obtained in final examination.
account of shortage of attendance, the student has to
appear in both theory and practical examinations by 3.8 Special Backlog Examination:
regularly offered courses or as a contact course, if time th
A. In case student has completed 8 Semester and has
table adjustment is not possible
backlog in only one course:
B. Improvement of OGPA: (i) Special examination will be conducted earliest possible after the
(a) Student should apply to improve the OGPA within 11 days declaration of semester result i.e. September/ October of 1st
from the date of issue of mark sheet of last semester. They semester of the academic year for only that course.
should surrender the original mark sheet issued to them (ii) Student will be charged fee as prescribed by the university,
and submit the same along with application form. irrespective of whether it is a regular course or a special paper.
(b) A student would be given only one chance for (iii) Student has to apply for special examination within 11 (eleven)
improvement of OGPA. th
days of declaration of result of 8 semester, failing which his/her
(c) Student will be allowed to repeat two courses of his/her application will not be considered.
choice irrespective of grade obtained in the course (s) or (iv) If a student fails in a special paper examination, he/she would
semester, provided that the course is being offered as be allowed to reappear with regular examination of next
regular course in current semester. semester only i.e. once in a semester.

5 6
 th
B. In case a student has completed 8 semester and has got (vi) Marks awarded after re-evaluation of the paper will be considered
backlog of up to 6 courses irrespective of semester: for award of merit.
(i) Backlog examination will be conducted along with regular (vii) (a) No one shall be admitted in the next higher class and
examination of the semester. considered for any beneficial claim only on account of
submission of application of the re-evaluation of Answer
(ii) If regular examination is being conducted for a particular paper,
Book(s) in the office.
he/she would have to pay normal fee for that paper and special
fee of Rs. 1000/- per paper will be charged for the course which (b) A student becoming eligible for admission on account of
are not listed for conducting the examinations in that semester. result of re-evaluation may be admitted in next higher class
without late fee. He will be required to pay full fees for the
(iii) If a student does not clear one or more backlog course, he/she
year within 7 days of declaration of the result. Attendance in
will have to appear as Ex-student along with regular
such case shall be counted from the date of admission.
examination in the next semester and fee will be charged at
regular rate, if the courses are listed for conducting the 3.10 Moderation of Results:
examination in that semester, otherwise, special fee of The result committee shall also act as Moderation Committee to
Rs. 1000/- will be charged review the results for the normal distribution of marks, the percentage
C. Other rules like maximum number of semesters, minimum of pass and failure. Any moderation suggested in a paper shall be
passing marks, etc will be applicable as per rules. uniformly applied to all the students registered in that paper, with the
approval of the Vice Chancellor. Any moderation effected should not
3.9 Re-evaluation for answer book: be more than 10 % of maximum marks in a paper. However, if after
moderation or otherwise, if a student is failing only by one mark in a
(i) (a) Re-evaluation is permissible only in Theory paper of paper, Controller of Examinations may award one grace mark to pass
semester’s final examination. the student in that paper.
(b) Re-evaluation is not permissible in the Answer book
of unfair means case (s) 4.0 GENERAL RULES PERTAINING TO EXAMINATIONS
(ii) The candidate may apply for re-evaluation within 11 days of the 4.1 A student who has been deputed by College/University
issue of the mark sheet on the prescribed form through Head of authorities to represent at a national/international meet/
the institution depositing required fee and original mark-sheet. championship/tournament/extra curricular activities, does not
Incomplete and late submitted application shall not be considered. appear in the final examination due to such participation, may
be permitted to take missing paper(s) at next main examination,
(iii) The re-evaluation fee per paper shall be as prescribed and will not when such course(s) are regularly offered as a special case.
be refundable on any pretext. He/she, however, will be required to seek prior permission from
(iv) Re-evaluation shall be done by an examiner of the subject to be the Vice-Chancellor.
appointed by the Vice Chancellor. 4.2 No special examination shall be held for students who miss the
(v) If the marks obtained after re-evaluation increase / decrease within examination on account of police custody, court attendance or
20% of the maximum marks prescribed for the paper, the same will fail to attend for other reason, whatsoever.
be taken as marks obtained after re-evolution. However, if the 4.3 Examinations will not be postponed due to failure of electricity.
marks awarded by the re-evaluation increase /decrease by more
than 20% of maximum marks prescribed for the paper then the 4.4 The boycotted and walked out papers shall not be recounted.
answer book will be referred to the second re-evaluation and the This authority rests only with the Chancellor of the university.
average of two closest awarded marks (the middle award in case
the three awards if uniformly spread) shall be taken as the marks 5.0 PRACTICAL WORK EXPERIENCE REQUIREMENTS
obtained after re-evaluation and shall be awarded. However, a After successful completion of all the courses including practical
student who was declared Pass prior to re-evaluation and fails after trainings with minimum OGPA of 5.0, a student will become eligible for
re-evaluation, shall be awarded minimum pass marks. the degree.

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Details of practical training (Training in factory, workshop, mine, 6.2 A student who is short of attendance in one or more courses will be
engineering works/design, office etc.) which students are to undertake detained form appearing in the final semester examination of all
in different degree programmes are given below: such course(s) and will be awarded zero grade point. Such
Branch of Engineering Duration Year courses shall be denoted by letter ‘‘DE’’ in the mark sheet.
(a) Agriculture* 30 + 30 = 60 days At the end of II 6.3 En-mass absence shall be treated as absent in the attendance
& III year
record of the students and will be charged a fine of Rs. 2000/-
(b) Mechanical 30 + 30 = 60 days - do -
on en-mass cutting of the classes for more than 3 days.
(c) Mining** 30 + 30 = 60 days - do -
(d) Electrical 30 + 30 = 60 days - do - 6.4 If a student absents continuously for 7 working days in a
semester in any subject, his/her registration in the semester will
(e) Computer Science & Engg. 30 + 30 = 60 days - do -
be cancelled and parents informed accordingly. Such students
(f) Electronics & Communication 30 + 30 = 60 days - do -
will be provided an option for re-admission in the
(g) Information Technology 30 + 30 = 60 days - do-
course/programme within 7 days of the cancellation of their
(h) Civil Engineering 30 + 30 = 60 days - do- registration by paying a fee of Rs. 500/-.
* In addition to the above 2 months training programme, the
6.5 If a student who has been admitted to the 1st semester of a
agricultural engineering graduates have to undergo experiential
learning or Hands-on training (4 month ) in the second semester programme and fails to attend the classes continuously for a
of final year BE.(Ag.). period of 30 days without the permission of the Dean of the
college, the name of such a student will be removed from the
In order to take policy decision and to solve the operational and
administrative bottleneck, if any, there shall be a college level college roll. No petition is permitted in this case. He/she may
committee consisting of the followings. The committee will guide in have to seek re-admission as a fresh candidate.
selection of cafeteria courses and experiential learning/project. 6.6 If a regular student of the college in subsequent semester fails
Senior most Head of the Department - Convenor to register on schedule time or fails to attend the class after
Heads of concerned Department - Member registration continuously for 30 days without the permission of
Training Officer - Member the Dean of the college, the student will be removed from the
Class Advisor of IV year - Member college roll and parents informed accordingly. A student so
Procedure for evaluating the students on all the above practical trainings removed may apply to the Dean within 15 days of his/her
will be followed as prescribed. removal for reconsideration for re-registration in the next
academic session, giving valid and strong reasons for failing to
** The Mining Engineering students shall have to undergo 12 days
take permission. His removal may be revoked, provided that,
mining camp at the end of I semester of II year and 12 days survey
camp at the end of I semester of III year, in addition to 60 days his/her advisor is satisfied with the performance of the student
practical training. and the same is approved by the Dean. The period of removal
shall be counted towards the number of semester, though no
6.0 ATTENDANCE REQUIREMENTS grade/marks would be awarded for this semester.

6.1 The student shall be permitted to appear in the university main

examination only if a minimum attendance of 75% is maintained 7.0 ADVISORY SYSTEM
separately in theory and practical in each course from the date of
registration in that course. However, in NCC/NSS/NSO the Student will be required to report to the respective class advisors for
minimum attendance requirement would be 65%. In case of getting registration form and examination form for the purpose of
sickness or any other valid reasons, the vice-chancellor may registration. Class advisors will also be responsible for distribution of
condone the attendance to an extent of 10%. marksheet obtained from the university.

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8.0 SYMBOLS AND THEIR MEANING As the project is assigned in the first semester of the final year
Following symbols would be used to designate the status of the student: and the student works on it during both the semesters the
assessment of the project shall be done in both the semesters.
Symbol Significance The internal viva-voce of first semester and both the seminars
F Fail shall be assessed by the Project Committee. However the
DE Detained marks shall be counted in the second semester only. The
UM Unfairmeans distribution of marks shall be as follows :
R Repeat Particulars I Semester II Semester Total
Note - All such courses which are cleared by repeating the same or Day-to-day assessment 15 20 35
repeated for improvement of OGPA to bring it to the minimum by the major advisor
required level shall be marked by letter ‘R’ in the transcript. Seminar 10 15 25
9.0 WITHDRAWAL FROM SEMESTER Viva-voce 10 30 40
(Internal) (External)
(a) A student shall be permitted to withdraw from a semester only
two times in the degree programme, on the grounds of ill-health TOTAL 35 65 100
and personal exigencies subject to the condition that the (c) For seminar, wherever prescribed as a course of study, there shall
reasons for withdrawal are convincing. For this the student has
to submit a written request at least one week prior to the be a board of examiners consisting of the Head of the Department
commencement of the main examination of the semester from as chairman and two teachers of the department.
which the student wants to withdraw. 11.0 CHANGE OF BRANCH OF STUDY IN SECOND YEAR B.TECH.
(b) A student who has withdrawn from a semester has to join the The students, in the second year, can avail one opportunity to change
same semester during next year. their branch of study on merit basis in accordance with rules framed by
(c) The period lost due to withdrawal (one year for one withdrawal) the university from time to time.
shall not be counted towards maximum permissible period for 12.0 ADMISSION OF DIPLOMA STUDENTS IN SECOND YEAR
which a student can remain on the college roll.
B.TECH.
10.0 EXAMINATION OF PRACTICAL TRAINING, PROJECT AND The diploma holders from the Board of Technical Education, Rajasthan
SEMINAR
with 10+2 qualification can seek direct admission in second year B.Tech.
(a) For the examination of practical training (including industry The number of seats, admission procedure, educational and other
visit, mining camp, survey camp, etc.) there will be an internal requirement would be as specified by the Government and/or approved
board appointed by the Dean. The board will comprise of by the university from time to time.
concerned Head of the Department as chairman and one or
two teachers of the concerned department(s) as members. 13.0 GRADUATION REQUIREMENT AND AWARD OF DIVISION
The marks will be awarded on the basis of work report,
practical record, quiz. viva-voce, etc. and added to the marks (a) A student shall be awarded degree only if he has passed all the
list in the Final year’s examination. courses and completed other requirements prescribed for the
programme and secured an OGPA of 5.00 or above.
(b) For project viva-voce examination there shall be a Board of
examiners consisting of project committee and one/two external (b) The division of the student shall be determined by the OGPA at
examiners. The concerned Head of the Department will be the the end of successful completion of the program as follows :
Chairman of the committee. However, in Agriculture Engineering
discipline, the Chairman will be the Project Chairman. The Division OGPA
Chairman will then nominate two teachers as members. The
Board may meet in one or two meetings according to the First 6.00 and above
availability of external examiner(s). A candidate will be assessed
for the work done during semester by the Project Advisor and the Second 5.00 and above
Project Committee.
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 SCHEME OF TEACHING AND EXAMINATION II-SEMESTER
(Mechanical Engineering)
Course Credit Hours/Week Marks
Title
First Year B.Tech. (Common for All Branches) No. Th. P L T P Th. P MT
BS 121 Mathematics - II 3 0 3 0 0 80 - 20
I-SEMESTER
CE 122 Civil Engineering 1 1 1 0 2 50 30 20
Credit Hours/Week Marks
Course ME 123 Machine Drawing - I 0 1 0 0 3 0 80 20
Title
No. Th. P L T P Th. P MT ME 124 Workshop Technology 2 1 2 0 3 50 30 20
BS 111 Mathematics - I 3 0 3 0 0 80 - 20 1
NCC/NSS/NSO - - 0 0 2 - - -
ME 113 Mechanical Engg. 3 0 3 0 0 80 - 20
GROUP I
ME 114 Workshop Practice 0 1 0 0 3 - 80 20
CE 115 Engineering Drawing 0 1 0 0 3 - 80 20 BS 100C Engineering Chemistry 2 1 2 0 2 50 30 20
1
NCC/NSS/NSO - - 0 0 2 - - - EC 100 Electronics and 3 1 3 0 2 50 30 20
GROUP I Instrumentation
BS 100P Engineering Physics 2 1 2 0 2 50 30 20 CS 100 Introduction to 3 1 3 0 2 50 30 20
CE 100 Engineering Mechanics 2 1 2 0 2 50 30 20 Computer
Programming and
EE 100 Electrical Engg. - I 3 1 3 0 2 50 30 20 Data Structure
ENVS 100 Environmental Studies 2 0 2 0 0 80 – 20 BS 100E English and 1 1 1 0 2 50 30 20
Total 15 5 15 0 14 800 Communication Skill
Total Credits/Hours/Marks 20 29 800 GROUP II
GROUP II
BS 100C Engineering Chemistry 2 1 2 0 2 50 30 20 BS100P Engineering Physics 2 1 2 0 2 50 30 20
EC 100 Electronics and 3 1 3 0 2 50 30 20 CE 100 Engineering 2 1 2 0 2 50 30 20
Instrumentation Mechanics
CS 100 Introduction to 3 1 3 0 2 50 30 20 EE 100 Electrical Engineering - I 3 1 3 0 2 50 30 20
Computer
Programming and ENVS 100 Environmental Studies 2 1 2 0 2 50 30 20
Data Structure
Total 15 7 15 0 18 - - -
BS 100E English and 2 1 2 0 2 50 30 20
Communication Skill Total Credits/Hours/Marks 22 33 800
Total 16 6 16 0 16 800
Total Credits/Hours/Marks 22 32 800 1
NCC/NSS/NSO is compulsory and the student will be assessed as
1 satisfactory/ unsatisfactory at the end of IV semester.
NCC/NSS/NSO is compulsory and the student will be assessed as
satisfactory/ unsatisfactory at the end of IV semester.
2
The examination (Theory and Lab) shall be conducted internally by the college.
Note: The courses BS 100P, CE 100, EE 100, ENVS 100, BS100C, EC 100,
CS 100 and BS 100E shall be offered in both the semesters. The
students will be divided in two groups in I semester itself and shall remain
in the same group in II semester as well. However, they have to offer all
the eight courses in first year.

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 SECOND YEAR B.Tech. IV-SEMESTER

III-SEMESTER
Hours
Course Credit Marks
Title per week
No.
Hours Th. Pr. L T P Th. Pr. MT
Credit Marks
Course No. Title per week BS 221 Mathematics-IV 3 0 3 0 0 80 0 20
(EC, EE,
Th. Pr. L T P Th. Pr. MT ME, MI)
BS 211 Mathematics-III 3 0 3 0 0 80 0 20 ME 221 Mechanics of Solids-II 3 0 3 0 0 80 0 20
(All Branches)
ME 222 Engineering 3 0 3 0 0 80 0 20
ME 211 Mechanics of Solids-I 3 1 3 1 2 50 30 20 Thermodynamics
ME 223 Manufacturing 3 1 3 0 2 50 30 20
ME 212 Materials Science 2 0 2 0 0 80 0 20 Processes
ME 213 Foundry and 3 1 3 0 2 50 30 20 ME 224 Dynamics of Machines 3 0 3 0 0 80 0 20
Welding
ME 225 CAD Lab-I 0 2 0 0 4 0 80 20
Technology
ME 226 Steam Power 3 1 3 0 2 50 30 20
ME 214 Kinematics of 3 0 3 0 0 80 0 20 Engineering
Machines
NSS/NCC/NSO2 - - 0 0 2 - - -
ME 215 Machine Drawing-II 0 1 0 0 3 0 80 20 Total 18 4 18 0 10 - - -
EE 213 Electrical 2 1 2 0 2 50 30 20 Total Credits/Hours/ Marks 22 28 700
(AE, ME, MI) Engineering-II
2
NSS/NCC/NSO is compulsory and the student will be assessed as
NSS/NCC/NSO2 - - 0 0 2 - - -
satisfactory/ unsatisfactory at the end of IV semester.
Total 16 4 16 1 11 - - -

Total Credits/Hours/ Marks 20 28 700 Note: Students have to undergo a practical training of 30 days at the
end of IV semester during summer break for which the
T - Tutorials do not carry any credit assessment will be made at the beginning of the next semester.

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 THIRD YEAR B.Tech. VI- SEMESTER

V-SEMESTER Hours
Course Credit Marks
Title per week
No.
Th. Pr. L T P Th. Pr. MT
Course Hours ME 321 Heat Transfer 3 1 3 0 2 50 30 20
Credit Marks
No. Title per week
ME 322 Fluid Machines and 3 1 3 0 2 50 30 20
Th. Pr. L T P Th. Pr. MT Systems

ME 323 Industrial Inspection 3 1 3 0 2 50 30 20

ME 311 Mechanical 3 1 3 0 2 50 30 20
and Quality Control
Vibrations
ME 324 Refrigeration and Air 3 1 3 0 2 50 30 20
ME 312 Fluid Mechanics 3 1 3 0 2 50 30 20 Conditioning

ME 313 Machine Tools 3 1 3 0 2 50 30 20 ME 325 Machine Design-II 3 0 3 1 0 80 0 20

ME 326 Industrial Engineering-II 2 1 2 0 2 50 30 20
ME 314 IC Engines 3 1 3 0 2 50 30 20
ME 327 Computer Applications 0 1 0 0 2 0 80 20
ME 315 Machine Design-I 3 0 3 1 0 80 0 20 in Mechanical
Engineering
ME 316 Industrial 2 0 2 0 0 80 0 20
Engineering-I Total 17 6 17 1 12 - - -
Total Credits/Hours/ Marks 23 30 700
ME 317 CAD Lab-II 0 2 0 0 4 0 80 20

Total 17 6 17 1 12 - - - T - Tutorials do not carry any credit

Total Credits/Hours/ Marks 23 30 700

Note: Students have to undergo a practical training of 30 days at the
end of VI semester for which assessment will be made at the
T - Tutorials do not carry any credit
beginning of the next semester.

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 FOURTH YEAR B.Tech. VIII-SEMESTER

VII-SEMESTER Hours
Course Credit Marks
Title per week
No.
Th. Pr. L T P Th. Pr. MT
Hours ME 421 Gas Dynamics and 3 0 3 0 0 80 0 20
Course Credit Marks
Title per week Turbines
No.
Th. Pr. L T P Th. Pr. MT ME 422 Operation Research 3 0 3 0 0 80 0 20

ME 411 CAD/CAM 3 1 3 0 2 50 30 20 ME 423 Elective-II 3 0 3 0 0 80 0 20

ME 424 Elective-III 3 0 3 0 0 80 0 20
ME 412 Instrumentation & 3 1 3 0 2 50 30 20
Control ME 428 Automobile 3 0 3 0 0 80 0 20
Engineering
ME 413 Production Engineering 3 0 3 0 0 80 0 20 1
ME 425 Project 0 8 0 0 12 0 100 0
ME 414 Power Plant 2 0 2 0 0 80 0 20 ME 426 Practical Training & 0 4 0 0 0 0 100 0
Engineering Industrial Visit
ME 415 Design Engineering 3 1 3 0 2 50 30 20 ME 427 Seminar 0 2 0 0 4 0 100 0
ME 416 Elective-I 3 0 3 0 0 80 0 20 Total 15 14 15 0 16 - - -
1 Total Credits/Hours/ Marks 29 31 800
ME 425 Project 0 - 0 0 4 - - -
2
Total 17 3 17 0 10 - - - The marks of the practical trainings conducted during summer breaks (at the
end of IV and VI semester) will be considered in VIII semester out of 90
Total Credits/Hours/ Marks 20 27 700 marks. The industrial visit will be assessed out of 10 marks. If the tour does
not undergo, the trainings will be assessed out of 100 marks.
1
The topic for the project (ME425) will be allotted in the VII semester
but assessed in both the semesters. The total credits will however be ELECTIVE-II ELECTIVE-III
counted in the VIII semester. ME 423 (a) Plasticity and Metal Working ME 424 (a) Non-conventional Energy Sources
ME 423 (b) Reliability and Maintenance ME 424 (b) Advanced Refrigeration
Engineering
ME 424 (c) Cryogenic Engineering
ME 423 (c) Advanced Joining Technology
ME 424 (d) Air Conditioning System Design
ELECTIVE-I ME 423 (d) Manufacturing Automation
ME 424 (e) Computational Methods in Thermal
ME 423 (e) Tool Engineering and Fluid Engineering
ME 416(a) Finite Element Method ME 416(e) Vibration and Noise Control ME 423 (f) Plant Layout and Material ME 424 (f) Theory and Design of Fluid
handling Machinery
ME 416(b) Computer Aided Design ME 416(f) Fracture Mechanics
ME 423 (g) Production Management ME 424 (g) Tractors and Agricultural Machinery
ME 416(c) Stress Analysis and ME 416(g) Optimisation Methods in ME 423 (h) Quality Control and Reliability
Experimental Methods Engineering Design

ME 416(d) Tribology ME 416(h) Design for fatigue and Note: The students have to take one elective each out of the lists (Electives I, II &
Fracture III) given. However, the elective may not be offered if faculty expertise is not
available or a minimum of 10 students do not opt for a particular elective.
19 20
 COURSE CONTENT ME 113 MECHANICAL ENGINEERING

FIRST YEAR B.TECH. (I SEMESTER) Cr. Hrs. 3 (3 + 0)

BS 111 MATHEMATICS – I L T P
Credit 3 0 0
Cr. Hrs. 3 (3 + 0) Hours 3 0 0
Unit-I
L T P
Thermodynamics: Thermodynamic properties, closed and open systems,
Credit 3 0 0
flow and non-flow processes, gas laws, laws of thermodynamics, internal
Hours 3 0 0
energy. Application of First Law in heating and expansion of gases in
Unit-I
non-flow processes only.
Differential Calculus : Taylor's and Maclaurin's expansions. Asymptotes Second law of thermodynamics: Kelvin-Planck and Claussius
and Curvature (Cartesian Coordinates only). Curve tracing (Cartesian statements. Reversible processes, Carnot cycle, Carnot theorem.
and standard Polar Curves-Cardioids, Lemniscates of Bernoulli, Reverse Carnot cycle. Entropy, physical concept of entropy.
Limacon, Equiangular Spiral). Unit-II
Unit-II Properties of Steam: Difference between gas and vapour, change of
Differential Calculus : Partial Differentiation, Euler's Theorem on phase during constant pressure process. Generation of Steam, triple
Homogeneous Functions. Maxima & Minima of Two Independent point and critical point. Internal energy and entropy of steam. Use of
Variables. Lagrange's Method of Multipliers. Jacobians. steam tables and Mollier chart, heating and expansion of vapour in non-
flow processes.
Unit-III
Integral Calculus : Double Integral, Areas & Volumes by Double Unit-III
Integration. Change of Order of Integration. Triple integrals. Beta Vapour Power Cycles: Introduction to Carnot Cycle. Rankine cycle and
Function and Gamma Function (Simple Properties), Relation between modified Rankine cycle.
Beta and Gamma functions. Steam Generators : Classification of steam boilers. Cochran, Lancashire,
Unit-IV Locomotive and Babcock-Wilcox boilers. Boiler mountings and
Differential Equations : Linear Differential Equations of Higher Order with accessories.
constant coefficients. Homogeneous Linear Differential Equations with Steam Engines: Introduction to simple and compound steam engines.
constant coefficient. Unit-IV
Gas Power Cycles: Introduction. Air Standard efficiency, other engine
Text Books/References efficiencies and terms. Otto, diesel and dual cycles. Calculation of efficiency,
1. Guar, Y.N. and Koul, C.l. (2013) Engineering Mathematics, Vols. I & II, mean effective pressure and their comparison.
Jaipur Publishing House, Jaipur.
Internal Combustion Engines: Introduction, Classification, terminology
2. Babu Ram (2011) Engineering Mathematics-I, Pearson Education, India. and description of IC Engines. Four stroke and two stroke petrol, gas
3. B.V. Ramana (2012) Higher Engineering Mathematics, Tata McGraw and diesel engines. Comparison of petrol and diesel engines.
Simple carburettor.
Hill, India.
4. J.L. Bansal and H.S. Dhami (2012) Differential Equations, Vols. I & II, Text Books/References
Jaipur Publishing House, Jaipur.
1. M. L. Mathur and F. S. Mehta. Thermal Engineering, (Vol. I, SI
5. M.Ray and Chaturvedi: A Text Book of Differential Equations, Student Edition), Jain Brothers, New Delhi.
Friend & Co. Publisher, Agra. 2. R. K. Purohit : Foundation of Mechanical Engineering; Scientific
6. Rao V. Dukkipati (2012) Engineering Mathematics, New Age Publishers (INDIA), Jodhpur.
International (P) Ltd., New Delhi. 3. P.K. Nag : Engineering Thermodynamics, TMH.
21 22
 ME 114 WORKSHOP PRACTICE BS 100P ENGINEERING PHYSICS
Cr. Hrs. 1 (0 + 1) Cr. Hrs. 3 (2 + 1)
L T P
Credit 0 0 1 L T P
Hours 0 0 3 Credit 2 0 1
Carpentry Shop: Acquaintance with types of wood, tools and their uses. Hours 2 0 2
Simple exercises involving basic operations like sawing, planning,
chiselling, etc. Preparation of simple joints, cross half lap joint, dovetail Unit-I
joint, bridle joint, tennon and mortise joint. Electric Field: Line integral of electric field, Potential difference, Field as
Smithy Shop: Acquaintance with types of tools and their uses. Simple gradient of potential, Divergence of a vector function, Differential form of
exercises involving basic operations like bending, drawing, punching, Gauss’s law, Laplacian, Laplace equations, Curl of a vector function.
shaping, upsetting, and riveting. Gauss’s divergence theorem.
Fitting Shop: Acquaintance with tools, measuring and marking tools, Magnetic Field: Curl and Divergence of a magnetic field, Magnetic
precision measuring tools and their uses. Simple exercises involving scalar and vector potential.
basic operations like sawing, chipping, filling, drilling, reaming, threading Unit-II
with taps and dies.
Varying Field: Faraday’s law-integral and differential form, Self and
Sheet Metal and Plumbing Shop: Demonstration of basic tools, pipe mutual inductance, Neumann’s equation, Charge and discharge of a
fittings and operations. capacitor through register, Growth and decay of current in LR circuit,
Energy stored in electric and magnetic field, Displacement
Texts/References
current, Maxwell’s equations.
1. S. K. Hajra Choudhury and AK Hajra Choudhury. Elements of
Workshop Technology (Vol. I), Media Promoters & Publishers Pvt. Unit-III
Ltd., Bombay. Laser: Coherence, Einstein’s coefficient, Spontaneous and stimulated
emission, Population inversion, Laser gain (pumping), Spectral
narrowing in laser, Coherence length, Ruby and He-Ne laser.
CE 115 ENGINEERING DRAWING
Interference: Division of amplitude, colour of thin films, Newton’s ring,
Cr. Hrs. 1 (0 + 1) Febry-Perot interferometer-principle, operation, determination of wave
L T P length and difference in wave length.
Credit 0 0 1
Hours 0 0 3 Unit-IV
Introduction and letter writing. Construction and use of plain, diagonal Diffraction: Double slit Fraunhofer diffraction pattern, Fraunhofer diffraction
and vernier scale. Methods of drawing ellipse, parabola and hyperbola. by a plane transmission grating, Formation of spectra.
Methods of drawing cycloids, spirals. Orthographic projection and
projection of points. Polarization: Analysis of linearly, circularly and elliptically polarized light
(Half wave and quarter wave plates), Optical activity, specific rotations,
Projection of lines, projection of planes, projection of solids. Introduction Laurent’s half shade and its use for determination of specific rotation of
of prism, pyramid, cylinder and cone.
sugar solution.
Section of solids, introduction of intersection of surfaces. Development
of plane and curved surface. Isometric projection.
Practicals
1. To find refractive index and dispersive power of material of prism
Text/Reference
by spectrometer.
1. N.D. Bhatt. Elementary Engg. Drawing, Rupalee publication, Anand.
2. Lakshmi Narayan and Vaishwanar. A Text Book of Practical 2. To find wave length of light by Newton’s ring.
Geometry, Jain Brother, New Delhi. 3. To find wave length of light by diffraction grating.
3. R.B. Gupta. A Text Book of Engineering Drawing, Satry 4. To find specific rotation of sugar solution by polarimeter.
Prakashan, New Delhi.
4. Fundamentals of Technical Drawing, Parkinson. 5. To find wave length of light by Fresnel Biprism.
23 24
6. To find frequency of A.C. mains. Unit-II
7. To determine dielectric constant of liquid using series Friction: Introduction, Critical angle of friction, Friction on horizontal planes,
resonance method. Friction on inclined planes, Wedge and block, Screw jacks, Rolling friction.
8. To study charge and discharge of condenser through a resistor Machines: Introduction, Effects of friction, Loss of work, Reversible and
(C.R. Circuit). irreversible machine, Law of machine, Wheel and axle, Differential
9. To study LCR resonant circuit, resonance, quality factor and wheel and axle, Pulley block, Screw jack, Single and double purchase
sharpness in (i) series circuit (ii) parallel circuit. crab, Worm and Worm wheel, System of pulleys.
Frames: Statically determinate plane frames, Method of joints, Method
of sections, Graphical method.
Text Books/References
1. K.K. Tiwari. (1995). Electricity and Magnetism, S. Chand and (B) DYNAMICS
Company, New Delhi. Unit-III
2. N. Subrahmanyam and Brijlal. (1993). A Text Book of Optics, Rectilinear Motion, Motion under gravity, Projectiles equation of the
path, Maximum height attained, Time of flight, Horizontal range. Angle
S. Chand and Company, New Delhi.
of projection, Projectile from a given height, Projectile on an inclined
3. Ahmed and Lal. (1966). Electricity, Magnetism and Electronics, plane, Problems.
Unitech House, Lucknow.
Work, Power and Energy: Work, Power, Work done by torque, Energy,
4. D.S. Mathur. (1993). Mechanics, S. Chand and Company, New Delhi. Law of conservation.
5. Gupta and Kumar. (1995). Practical Physics, Pragati Prakashan, Unit-IV
Meerut. Centripetal and centrifugal forces, Laws of motion: Newton’s Law of
motion and their explanation, Collision of elastic bodies; Impulse and
impulsive force, Principle of conservation of momentum, Loss of kinetic
energy during impact.
CE 100 ENGINEERING MECHANICS Practicals
1. Verification of law of polygon of forces.
Cr. Hrs. 3 (2 + 1) 2. Verification of principle of moment in case of compound level.
3. Verification of principle of moment in case of bell crack level.
L T P 4. Determination of reaction in case simply supported beam with or
Credit 2 0 1 without overhang.
Hours 2 0 2 5. To determine coefficient of friction between different surfaces on
horizontal plane.
(A) STATICS 6. To determine coefficient of friction between different surfaces in
Unit-I inclined plane.
7. Study of different wheel and Axle.
Introduction of condition of equilibrium: Force, system of force, 8. Study of single purchase crab.
coplanar forces. 9. Study of worm and worm wheel.
10. Study of Weston’s pulley block.
Moment and couples: Moment and parallel forces, Couples, General
conditions of equilibrium 11. Determination of mechanical advantage, velocity ratio and
efficiency of single purchase crab.
Practical Applications: Levers, Cracked levers, Steel yards. Sagging 12. Determination of mechanical advantage, velocity ratio and
chains and toggle joints. efficiency of double purchase crab.
Centre of Gravity: Centre of parallel forces, C.G. in some simple cases, 13. Determination of mechanical advantage, velocity ratio and
C.G. of Solids. efficiency of first system of pulley.
14. Determination of mechanical advantage, velocity ratio and
Moment of Inertia: Moment of inertia, Radius of gyration and
efficiency of second system of pulleys.
perpendicular axis. Determination of moment of inertia of simple
15. Determination of mechanical advantage, velocity ratio and
sections. Mass of moment of inertia.
efficiency of third system of pulleys Flywheel.
25 26
Text Books/References Text Books/References
1. I.B. Prasad. Engineering Mechanics, Khanna Publisher, New Delhi. 1. B. L. Therja. Electrical Technology, S. Chand
2. R.S. Khurmi. Applied Mechanics, S. Chand & Company Ltd., New Delhi 2. M.E.Van Valkenberg. Network analysis, PHI
3. S.B. Junnarkar. Applied Mechanics, Charotar Publishing House, 3. Soni and Gupta. Introduction to Electrical Network Theory,
New Delhi. Dhanpat Rai Publisher
4. Saluja. Applied Mechanics, Satya Prakashan, New Delhi. 4. R.A. Gupta and Nikhal Gupta. (2002). Fundamentals of electrical
& Electronics Engineering, JPH, Ist Edition,
5. H.P. Tiwari. (2002). Electrical & Electronics Engineering, College
Book Centre, Jaipur.
EE 100 ELECTRICAL ENGINEERING – I 6. J.B. Gupta. (2002). Fundamentals of Electrical & Electronics.
S.K. Kataria and Sons. Dehli.
Cr. Hrs. 4 (3 + 1)

L T P ENVS 100 ENVIRONMENTAL STUDIES

Credit 3 0 1 Cr. Hrs. 3 (2 + 1)
Hours 3 0 2
L T P
Unit-I Credit 2 0 1
D.C. Networks: Kirchoff’s law, node voltage and mesh current methods, Hours 2 0 2
delta-star and star delta transformation, source conversion; solution of Unit–I
DC circuits by network theorems: Thevenin's, Norton’s, superposition,
Reciprocity and Maximum Power Transfer theorem. The Multidisciplinary nature of environmental studies:

Unit-II Definition, scope and need for public awareness. Environmental

problems and their consequences
Single Phase A.C.Ciruits : Single Phase EMF generation, average and
effective values of sinusoidal and linear periodic wave forms, instantaneous Natural Resources:
and average power, power factor, reactive & apparent power, solution of R- Renewable and non-renewable resources
L-C, series, parallel, series-parallel circuits, complex representation of Natural resources and associated problems
impedances, phasor diagram, series and parallel resonance.
a) Forest resources: Use over-exploitation, deforestation, and case
Unit-III studies. Timber extraction, mining, dams and their effects on
forests and tribal people.
Three Phase A.C., Circuits : Three phase EMF generation, delta and
star-connection, line and phase quantities, solution of the 3- phase b) Water resources: Use and over-utilization of surface and
balanced circuits, Phasor diagram, measurement of power in three ground water, floods, drought, conflicts over water, dams,
phase balanced circuits. benefits and problems.
c) Mineral resources: Use and exploitation, environmental effects of
Transformer: Faraday's laws of Electromagnetic induction, construction and extracting and using mineral resources, case studies.
principle operation of single phase transformer, EMF equation, voltage and d) Food resources: World food problems, changes caused by
current relationship and Phasor diagram for ideal transformer. agriculture and overgrazing, effects of modern agriculture,
fertilizer- pesticide problems, water logging, salinity, case studies.
Unit-IV
Electrical Measuring Instruments : Introduction; type of measuring e) Energy resources: Growing energy needs, renewable and non-
renewable energy sources, use of alternate energy sources.
Instruments, Deflecting controlling & Damping Torque, D.C. PMMC
Case studies.
instruments, shunts and multipliers, Moving iron ammeters and
voltmeter, Dynamometers wattmeter, Induction type energy meter. f) Land resources: Land and a resource, land degradation, man
induced landslides, soil erosion and desertification.
Practicals :
Role of an individual in conservation of natural resources, Equitable use
Based on theory resources for sustainable lifestyles.
27 28
 Unit-II holocaust. Case studies, Wasteland reclamation, Consumerism and
Ecosystems waste products, Environment Protection Act, Air (Prevention and
Concept of an ecosystem, Structure and function of an ecosystem, Control of Pollution) Act, Water (Prevention and control of Pollution) Act,
Producers, consumers and decomposers, Energy flow in the Wildlife Protection Act, Forest Conservation Act, Issues involved in
ecosystem, Ecological succession, Food chains, food webs and enforcement of environmental legislation, Public awareness.
ecological pyramids, Introduction, types, characteristic features, Human Population and the Environment
structure and function of the following ecosystem.
a. Forest ecosystem Population growth, variation among nations, Population explosion- Family
Welfare Programme, Environment and human health, Human Rights,
b. Grassland ecosystem
Value Education, HIV/AIDS, Women and Child Welfare, Role of
c. Desert ecosystem Information Technology in Environment and human health, Case Studies.
d. Aquatic ecosystems (ponds, streams, lakes, rovers, oceans, estuaries)
Practicals
Biodiversity and its conservation Visit to river, forest, hill, mountain, local polluted plant, pond ecosystem
Introduction – Definition: genetic, species and ecosystem diversity,
Biogeographically classification of India, Value of biodiversity: Text Books/References
Consumptive use, productive use, social, ethical, and aesthetic and 1. K. C. Agarwal. (2001). Environmental Biology, Nidi Publications, Bikaner.
option values, Biodiversity at global, National and local levels, India as a 2. B. L. Chaudhary and Jitendra Pandey. (2005). Environmental
mega-diversity nation, Hot spots of biodiversity, Threats to biodiversity: Studies, Apex Publishing House, Udaipur.
habitat loss, poaching of wildlife, man-wildlife conflicts, Endangered and 3. H Jhadav & V. M. Bhosale. Environmental Protection & Laws,
endemic species of India, Conservation of biodiversity: In-situ and Ex- Himalaya Pub. House, Delhi
situ conservation of biodiversity. 4. M. N. Rao and A. K. Datta. Waste Water Treatment. Oxford & IBH
Unit-III Publ. Co. Pvt. Ltd.
5. B. K. Sharma. Environmental Chemistry. Goel Publishing House, Meerut
Environmental Pollution
6. Pratap Singh, N. S. Rathore and A. N. Mathur. (2004).
Definition, Causes, effects and control measures of: - Environmental Studies, Himanshu Publications, Udaipur.
Air pollution 7. R. K. Trivedi and P. K. Goel. Introduction to Air Pollution, Techno
Water pollution Science Publications.
Soil pollution
Marine pollution
Noise pollution
Thermal pollution BS 100C ENGINEERING CHEMISTRY
Nuclear hazards Cr. Hrs. 3 (2 + 1)
Solid waste Management: Causes, effects and control measures of
L T P
urban and industrial wastes, Role of an individual in prevention of
Credit 2 0 1
pollution, Pollution case studies, Disaster management: floods,
Hours 2 0 2
earthquake, cyclone and landslides.
Unit-I
Unit-IV
Sources of water, common impurities, requisites of drinking water in
Social Issues and the Environment - From Unsustainable to Sustainable municipal water supply. Purification of water, sterilization, break point
development, Urban problems related to energy, Water conservation, chlorination. Hardness, determination of hardness by Complexometric
rain water harvesting, watershed management, Resettlement and (EDTA) method, degree of hardness, Boiler troubles, carry over
rehabilitation of people: its problems and concerns, Case studies, corrosion, Sludge and scale formation. Caustic embrittlement, cause of
Environmental ethics: Issues and possible solutions, Climate change, boiler troubles and their prevention.
global warming, acid rain, ozone layer depletion, nuclear accidents and
29 30
 Unit-II 3. B.K. Sharma. Engg. Chemistry (General), Krishna Prakashan
Media (P) Ltd., Merrut.
Classification of fuels, solid fuels, Proximate and Ultimate analysis of
4. S.S. Dara. A Text Book of Engineering Chemistry, S. Chand &
coal, significance of constituents, theoretical method for calculation of
Co., New Delhi.
Gross and net calorific values. Liquid fuels- Petroleum origin, Refining of
Petroleum, knocking, octane number, anti knocking agents. Flue gas 5. M.M. Uppal. A Text Book of Engineering Chemistry, Khanna
analysis by Orsat Apparatus, Calculations based on combustion. Publishers, New Delhi.
6. S.S. Dara. A Text Book on Experiments and Calculations in Engg.
Unit-III Chemistry. S. Chand & Co., New Delhi.
7. Ameta and Yasmin. Practical Engineering Chemistry, Himanshu
Corrosion : Definition and its significance, Dry and Wet theories of Publications, New Delhi.
corrosion, Cathodic & Anodic protection of corrosion, types of corrosion,
factors affecting corrosion.
New Engineering Materials: Introduction, Properties and Applications of
Super Condcutors, Organic electronic materials, Fullerenes. EC 100 ELECTRONICS AND INSTRUMENTATION

Unit-IV Cr. Hrs. 4 (3 + 1)

Chemical Kinetics: Order and Molecularity of reaction, first and second L T P

order reaction, Derivation of equations for first and second order reaction, Credit 3 0 1
determination of order of reaction, Energy of activation and Arrhenius Hours 3 0 2
equations, Numerical of first and second order reactions.
Unit-I
Engineering Chemistry Practical Passive Components: Construction and characteristics of carbon
composition , wire wound and film resistors. Potentiometer, color codes
1. Determination of viscosity of a liquid. and rating of resistors. Characteristics and rating of capacitors for
2. Estimation of free chlorine in a water sample. electronics circuits.
3. Determination of temporary and permanent hardness by Semi conductor: Basic electrical characteristics of semi conductors.
EDTA method. Theory of p-n junction. Characteristics and ratings of junction
4. Determination of Copper Sulphate iodometrically. diodes.basics of zener diode, photo diode and LED.
5. Estimation of Potassium dichromate iodometrically. Unit-II
6. Determination of purity of Ferrous Ammonium Sulphate (Mohr's Bipolar Junction Transistor: npn and pnp transistors,, Various
Salt) using Potassium Permanganate. configurations (CB, CC,CE) of BJT. Transistor biasing (Fixed, self,
7. Estimation of available chlorine in Bleaching Powder sample. potential dividers) Basic classification of amplifier (Voltage and power
8. Analysis of Brass. amplifier). Basic concept of Class A, B , AB and C amplifiers.
9. Determination of Strength of Ferrous Ammonium Sulphate (FAS)
using Potassium Ferricyanide as an external indicator. Unit-III
Generation of waveforms: Concept of positive and negative feedback.
10. Analysis of Common Salt. Introduction of oscillators like R-C , L-C and Crystal oscillators.
Power supply: Circuit configuration and analysis of Half wave , Full
Text Books/References wave and Bridge rectifier .Basic concept of regulation, Zener diode
1. Jain and Jain. Engineering Chemistry, Dhanpat Rai Publishing voltage regulator.,Transistor serier regulator.
Company(P) Ltd., New Delhi.
2. Jain and Gupta. A Text Book of Engineering Chemistry, Jaipur Unit-IV
Transducers: Definition, classification : Active and passive transducer,
Publishing House, Jaipur.
primary and secondary transducers, Analog and digital transducers.
Measurement of displacement, temperature, velocity, force and
31 32
pressure using potentiometer, resistance thermometer, thermocouples, Deletion in Linear arrays, Bubble Sort, Linear & Binary search;
bourden tube, LVDT, strain gauge and techogenerator. Introduction to linked list – Representation of linked list in memory,
Traversing, Searching, Insertion & Deletion in a linked list.

Practicals Practicals
Based on theory Based on Theory

Text Books/References Text Books/References

1. Millman and Halkias. Integrated elecronics: Mc Graw Hill
2. W.D Cooper. Electronics Instrumentation and Measurement : PHI 1. E. Balagurusamy. “Programming in ANSI C”, Tata McGraw Hill.
3. M.L.Gupta. Electrical Engineering Materials 2. Kernighan and Ritchie. “The C Programming language”, Printice Hall
4. Malvino. Principles of Electronics
5. Jhon D. Ryder. Electronics Fundamentals 3. P.M. Jat. “Programming with C”, Apex Publishing House, Jaipur.
4. Dharm Singh. “Fundamentals of Compute Organization”, Paragon
International Publishers, New Delhi.
5. P.K. Sinha & P. Sinha. “Computer Fundamentals”, BPB Publication.
CS 100 INTRODUCTION TO COMPUTER PROGRAMMING 6. Seymour Lipschutz. “Data Structure”, Schaum’s outline series,
AND DATA STRUCTURE McGraw Hill.
Cr. Hrs. 4 (3 + 1)

L T P
Credit 3 0 1
Hours 3 0 2 BS 100E ENLISH AND COMMUNICATION SKILLS
Unit–I
Computer Fundamentals: History of Computers; Organization of
Computers: input unit, output unit, Storage Unit, Arithmetic Logic Unit, Cr. Hrs. 3 (2 + 1)
Central Processing Unit; CPU Operation; Memory Subsystem: RAM,
ROM, Cache Memory & memory Hierarchy; Instruction Format and L T P
Instruction Execution Cycle; Number System & Codes: Binary, Decimal, Credit 2 0 1
Octal & Hexadecimal Number System, Conversion from one number Hours 2 0 2
system to another, sign magnitude, 1’s Complement & 2’s Complement
representation of numbers; Numerical & Character codes: BCD, Excess Unit-I
– 3, Gray, ASCII & EBCDIC Codes.
Grammar and Usage : Tense, Concord, Preposition, Common
Unit-II Grammatical Errors, Phrasal Verbs, Idioms, Words often misused,
Basics of Programming in C: Constants, Variables and Data Types, Synthesis of sentences, Transformation of Sentences (Simple,
Operators and Expressions, Input and Output operations, Decision Compound, Complex, Voice, Speech). Analysis of sentences.
making & Branching: if-else, switch statement; Decision making and
looping; Arrays. Unit-II
Unit-III
Character Arrays & strings, User defined function, Structures & Unions, Comprehension-Unseen passage.
Pointer Management, Dynamic Memory allocation & linked lists. Composition : Business Letters, E-mail, Memos, Circular, Notice,
Curriculum Vitae and Covering Letter, Writing of Technical Report,
Unit–IV Essay Writing.
Introduction to Data Structures : Introduction to Linear Arrays &
Representation of Linear Array in Memory, Traversing, Insertion &
33 34
 Unit-III FIRST YEAR B.TECH. (II SEMESTER)
Phonetic Symbols and Transcription, Word Stress. Meaning and
Characteristics of Seminar, Conference, Symposium and Work-Shop. BS 121 MATHEMATICS – II
Interview – Meaning, Types, Do's and Don'ts of Interviews.
Cr. Hrs. 3 (3 + 0)
Unit-IV
L T P
Communication Skills : Meaning and Process of Communication, Basic
Credit 3 0 0
Forms of Communication, Verbal and Non-Verbal Communication, Hours 3 0 0
Communication Barriers, Principles of Effective Communication. Unit-I

Language Lab Practical Vectors Calculus : Scalar and Vector field. Differentiation of vector
functions, Gradient, Divergence, Curl and Differential Operator.
Globerana Software : Listening skills, Fundamental language skills, Integration of vector functions, Line, Surface and volume Integrals.
Communication skills, Vocabulary, Phonetics, Conversation. Green's Theorem in a Plane, Gauss' and Stoke's Theorem (without
proof) and their Applications.
Group discussion on current topics, Oral presentations, Writing skills, Unit-II
Exercises on pronunciation.
Differential Equations : Second Order Ordinary Differential Equations
with Variables Coefficients. Exact Forms. Part of Complimentary
Text Books/References
Function is known. Change of Dependent Variable. Change of
1. Thomson and Martinet. (1997). A Practical English Grammar Independent Variable, Normal Forms. Method of Variation of Parameter.
Exercise Book, Vol. I and II. O.U.P. Publication.
Unit-III
2. Michal Swan. (1995). Practical English Grammar, O.U.P. Publication. Partial Differential Equations : Formation of partial differential equations.
3. David Green. (1990). Contemporary English Grammar Structure Partial Differential Equations of First Order, Lagrange's Form, Standard
Forms Higher order linear partial differential equations with constant
Composition, Macmillan Publication.
coefficients.
4. S. Allen. (1997). Living English Structure, Orient Longmans. Unit-IV

5. Daniel Jones. Drills and Tests in English Sound, ELBS. Matrices: Rank of a matrix, Inverse of a matrix by elementary
transformations. Consistency and Solution of simultaneous linear
6. Hornby, (1990). Advanced Learners Dictionary, O.U.P. Publication. equations. Eigen values and Eigen vectors, Cayley-Hamilton theorem
(without proof). Diagonalization of matrix.
7. Krishan Mohan. Speaking English Effectively, Macmillan Publication.
8. Audio-Video Tapes prepared by the British Council, New Delhi Text Books/References
and Central Institute of English and Foreign Language, 1. Guar, Y.N. and Koul, C.l. (2013) Engineering Mathematics, Vols. I & II,
Hyderabad to be used in a Language Laboratory. Jaipur Publishing House, Jaipur.
2. Babu Ram: Engineering Mathematics-I, Pearson Education, India (2011).
9. A. Adivi Reddy. Extension Education, Sree Lakshmi Press,
3. B.V. Ramana (2012) Higher Engineering Mathematics, Tata McGraw
Bapatla (A.P.). Hill, India.
10. G.L. Ray. (2005). Extension Communication and Management, 4. J.L. Bansal and H.S. Dhami (2012) Differential Equations, Vols. I & II,
Kalyani Publishers. Jaipur Publishing House, Jaipur.
5. M.Ray and Chaturvedi: A Text Book of Differential Equations, Student
Friend & Co. Publisher, Agra.
6. Rao V. Dukkipati (2012) Engineering Mathematics, New Age
International (P) Ltd., New Delhi.
35 36
 CE 122 CIVIL ENGINEERING 5. Study of prismatic and surveying compass and taking bearings.
Cr. Hrs. 2 (1 + 1) 6. Study of Dumpy level, temporary adjustment and R.L. calculations.
7. Study of Tilting level, temporary adjustment and R.L. calculations.
L T P 8. Simply and differential leveling operation, record in level book,
Credit 1 0 1 practice for staff reading line of collimation and Rise and fall
Hours 1 0 2 method calculations.
(A) SURVEYING AND LEVELING 9. L-section and cross sectioning, fly leveling operation.
Unit-I 10. Plotting of working profile.
Principle and purpose of plane surveying.
Text Books/References
Chain Surveying : Instrument for chaining, Direct & indirect ranging.
1. S.C. Rangwala. Engineering Materials, Charotar Book Stall, Anand.
Methods of chain along plane & sloping ground, Base line, check line,
Tie line, Offset, Chain angle & recording in field book. 2. B.C. Punmiya. Surveying & Field Work (Vol. I), Laxmi publications,
New Delhi.
Compass Surveying : True & Magnetic meridian, whole circle bearing &
quadrantal bearing system, construction & use of Prismatic & Surveyor
Compass, Local attraction. ME 123 MACHINE DRAWING – I
Unit-II
Level and leveling : Definition of various terms used in leveling. Types Cr. Hrs. 1 (0 + 1)
of Bench mark and their uses. Construction and use of Dumpy and L T P
Tilting levels, Leveling staves. Temporary adjustment of Dumpy level. Credit 0 0 1
Simple, differential leveling, fly leveling, longitudinal and cross Hours 0 0 3
sectioning, plotting of profile leveling. Determination of level by line of
collimation and rise and fall method, Arithmetical checks. Level book Introduction, conventional representation of different materials used in
and record keeping, leveling difficulties and errors in leveling. machine drawing, Introduction to BIS codes.
Orthographic Projection: First and third angle methods of projection.
(B) BUILDING MATERIAL
Preparation of working drawing from models and isometric views.
Unit-III
Drawing of missing views.
Stones: Different types, properties of good building stones, common
testing of stones, Dressing of stones and use of stones in construction. Dimensioning: Different methods of dimensioning.
Bricks: Types, raw materials, identification, composition. Properties and Sectional Views: Concept of sectioning. Revolved and oblique section.
uses of ordinary bricks, fire resistant and chemical resistant bricks. Sectional drawing of simple machine parts
Limes: Definition, sources of lime, slaking of lime, ISI classification of lime. Riveted and Welded Joints: Types of rivet heads and riveted joints.
Unit-IV Processes for producing leak proof joints. Symbols for different types of
Cement: Chemical composition, types of cement, properties, uses and welded joints.
tests on cement. Screw Fastenings: Nomenclature, thread profiles, multistart threads, left
Mortars: Proportioning, properties of ingredients and use of lime, and right hand threads. Square headed and hexagonal nuts and bolts.
cement and gauge mortars. Conventional representation of threads. Different types of lock nuts,
Cement Concrete: Ingredients, common proportions, properties of studs, machine screws, cap screws and wood screws. Foundation bolts.
fresh hardened concrete,Water cement ratio, curing and consolidation
of concrete. Different types of joints: Knuckle joint, cotter joint and universal joint.
Practicals Text Books/References
1. Study of accessories used in measurement of distances.
2. Ranging Direct and indirect and use of chain and tape. 1. N. D. Bhatt. Machine Drawing, Charotar Book Stall, Anand.
3. Chining along sloping ground. 2. V. Laxminarayan and ML Mathur. A Text Book of Machine
4. Chain surveying, field book recording and taking offsets for Drawing, Jain Brothers, New Delhi.
location details. 3. P. S. Gill. Machine Drawing: S. K. Kataria & Sons, New Delhi.
37 38
 ME 124 WORKSHOP TECHNOLOGY SECOND YEAR B.TECH. (III SEMESTER)
Cr. Hrs. 3 (2 + 1)

L T P BS 211 (All Branches) MATHEMATICS – III

Credit 2 0 1
Hours 2 0 3
Cr. Hrs. 3 (3 + 0)
Unit-I
Welding: Introduction to types of welding; Principle of Electric arc L T P
welding, welding tools and safety devices, welding positions, welding Credit 3 0 0
joints, types of welds, Resistance welding, Oxyacetylene gas welding, Hours 3 0 0
types of flames, Soldering and Brazing.

Unit-II Unit-I
Lathes: Constructional details of centre lathe. Main operations and tools Interpolation: Finite differences, various difference operators and their
used on centre lathes.
relationships, factorial notation. Interpolation with equal intervals;
Shaper: Types of shapers. Constructional details of standard shaper,
Newton’s forward and backward interpolation formulae, Lagrange’s
shaper tools and main operations.
interpolation formula for unequal intervals.
Unit-III
Drilling Machines: Types of drilling machines. Constructional details of Unit-II
pillar type and radial drilling machines. Main operations. Twist drills, drill
angles and sizes. Gauss forward and backward interpolation formulae, Stirling’s and
Bessel’s central difference interpolation formulae.
Forming : Basic descriptions and applications of hot and cold working
processes, forging, bending, shearing, drawing and forming operations. Numerical Differentiation: Numerical differentiation based on
Newton’s forward and backward, Gauss forward and backward
Unit-IV interpolation formulae.
Foundry & Casting Practice : Introduction, types of pattterns, mouldings,
moulding Materials, cores, moulding tools and equipments. Moulding Unit-III
sands, properties of moulding sands. Casting defects.
Numerical Integration: Numerical integration by Trapezoidal,
Casting methods : Permanent mould casting, investment casting. Simpson’s rule.
Numerical Solutions of Ordinary Differential Equations: Picard’s method,
Practicals
Taylor’s series method, Euler’s method, modified Euler’s method,
Practical exercises on welding, pattern making, foundry and machining
operations. Runge-Kutta methods.

Unit-IV
Text Books/References Laplace Transform: Laplace transforms of elementary functions; Basic
1. Mathur, Mehta and Tiwari : Elements of Mechanical Engineering, properties of Laplace transform; Initial value theorem, final value
Jain Brothers, New Delhi. theorem and convolution property of Laplace transform; Inverse Laplace
2. S.K. Hajra Choudhury and A.K. Hajra Choudhury. Elements of transforms. Applications of Laplace transform to solve ordinary
Workshop Technology (Vol. I and II), Media promoters & differential equations.
Publishers Pvt. Ltd., Bombay.

39 40
Text Books/References Unit-III
1. H.C. Saxena. Text Book of Finite Differences and Numerical Beams under Flexural Loads: Bending moment and shear force,
Analysis, S. Chand and Co. relation between load, shear force, and bending moment. Bending
2. M.K. Jain, S.R.K. Iyengar and R.K. Jain. Numerical Methods for moment and shear force diagrams for simply supported, cantilever,
Scientific and Engineering computation, New Age International (P) Ltd. fixed and overhang beams under static loading of different types viz.
3. N.P. Bali and Manish Goyal. A Text book of Engineering point loads, uniformly distributed loads, linearly varying loads, and
Mathematics, Laxmi Publication Pvt. Ltd., New Delhi (VII Edition). couples. Pure bending. Theory of simple bending of initially straight
beams. Flexural stresses in beams. Built up and composite beams.
4. S.P. Goyal and A.K. Goyal. Integral Transforms, Jaipur Publishing
House, Jaipur. Shear stresses in beams of rectangular, circular and I-section. Shear
formula, effect of shear strain. Bending of curved bars.

Unit-IV
Torsion: Torsion of solid and hollow circular shafts. Non-uniform torsion.
ME 211 MECHANICS OF SOLIDS-I Statically indeterminate torsional members. Torsion in composite shafts
and thin walled tubes. Combined bending and torsion, effect of end
Cr. Hrs. 4 (3 + 1)
thrust. Keys and couplings.
L T P Columns: Buckling and stability, critical load. Euler’s theory for initially
Credit 3 0 1 straight column with different end conditions, equivalent length,
Hours 3 1 2 limitation of Euler's formula. Rankine's formula. Columns under
eccentric loading. Secant, Perry's and Indian Standard formulae.

Unit-I
Fundamentals: Stress and strain, engineering stress and strain, true
Practicals
stress and strain. Saint-Venant's principle. Stress-strain diagrams,
mechanical properties of materials, elasticity and plasticity. Shear stress Tension test on UTM and determining mechanical properties.
and strain, pure shear, complementary shear. Linear elasticity and Compression test. Charpy test. Izod test. Hardness testing.
Hooke's law. Poisson's ratio, volumetric strain, bulk modulus of Performance of torsion test, bending test.
elasticity. Elastic constants and relation between elastic moduli. Stress
and strain in axially loaded members. Temperature and prestrain eff-
ects, statically indeterminate problems. Composite bars. Dynamic
Text Books/References
loading. Strain energy.
nd
Unit-II 1. James M. Gere and Stephen P. Timoshenko. 2 Edition. CBS
Analysis of Stress and Strain: Stress at a point, stress components, Publishers & Distributors, Delhi.
stresses on inclined planes. Plane stress and strain. Mohr's circle 2. B. C. Punmia. (1988). Strength of Material and Mechanics of
th
representation of plane stress and strain. Principal stresses and strains, Structures (Vol. I). 8 Edition Standard Publishers Distributors.
maximum shear stresses. Hooke's law for plane stress, strain energy for
3. S. H. Crandall, N. C. Dahl and S.J. lardner. An Introduction to
plane stress. Application to components under combined loading, thin Mechanics of Solids, TMH.
spherical and cylindrical shells, shafts under bending. Triaxial and
spherical state of stress. Generalised Hooke's law. 4. E.P. Popov. (2000). Introduction to Mechanics of Solids, PHI.
Stresses in thin cylindrical and spherical shells subjected to internal
and external pressures. Thick cylinders, compound cylinders, stresses
due to rotation.
41 42
 ME 212 MATERIALS SCIENCE ME 213 FOUNDRY AND WELDING TECHNOLOGY

Cr. Hrs. 2 (2 + 0)
Cr. Hrs. 4 (3 + 1)
L T P
Credit 2 0 0 L T P
Hours 2 0 0 Credit 3 0 1
Hours 3 0 2
Unit-I
Unit-I
Engineering Materials: Effects of alloying elements in steel. Low alloy
steels, stainless steel, magnetic steels, tool steels, materials for high Foundry: Classification of casting processes. Patterns- types, materials,
and low temperature service. Brasses and Bronzes. Aluminium base methods of construction and allowances. Core prints and core boxes.
alloys. Bearing Materials. Engineering Plastics. Colour coding for patterns and core boxes. Moulding materials. Types
and properties of moulding sands, sand additives, sand preparation,
Crystalline Nature of solids: Crystal structure, space lattice and
testing of moulding sands. Sand moulding processes. Special moulding
constants, Miller indices, allotropy. Imperfection in crystals, point and
line defects, grain boundary and its effect on properties. processes viz. carbon dioxide moulding, shell moulding, ferro-silicon
moulding, dicalcium moulding, cement-sand moulding, foam moulding,
Unit-II
hot and cold box moulding methods, plaster moulding, ceramic
Plastic Deformation of Metals: Mechanism of plastic deformation, role of moulding. Core materials, core sands and binders, types of cores, core
dislocation, slip and twining. Work hardening, theories of
making, core testing.
recrystallisation and grain growth. Elementary treatment of creep,
fatigue and fracture. Methods of studying macro and microstructure. Foundry Mechanisation: Moulding and core making machines, patterns
for machine moulding, sand preparation and material handling systems.
Unit-III Cupola furnace, electric arc and induction furnaces.
Phase Transformation in Alloys: Mechanism of solidification in pure Unit-II
metals, free energy, critical size of nucleus. General principles of phase Solidification of casting and flow properties of liquid metals. Design
transformation in alloys, phase rule and equilibrium diagrams, relationship principles of gating and risering systems, different types of gates and
with structure and properties. Equilibrium diagrams of common binary
risers, riser location. Use of padding and chills, exothermic and
systems. Equilibrium diagram of iron-carbon alloys, allotropic forms of iron
insulating sleeves applications.
and various forms of carbon in iron-carbon alloys.
Principle of casting design. Cleaning and finishing of castings, casting
Unit-IV
defects and methods of casting inspection.
Heat Treatment of Steels and Cast Irons: Phase transformations in
steel, S-curves, ageing. Detailed study of various heat treatment Other Casting Processes: Permanent mould casting, investment casting,
processes- hardening, tempering, annealing, precipitation, and surface centrifugal and semi-centrifugal casting methods, centrifuging, continuous
hardening. Chemical heat treatment of steel, carburising and nitriding. casting, die casting, die casting machines.
Hardenability. Heat treatment of cast irons. Heat treatment furnaces.
Unit-III
Text Books/References
Welding: Classification of welding processes, metallurgy of weld.
1. V. Raghvan. Physical Metallurgy. Principles and Practice, PHI.
Oxyacetylene gas welding, equipment and tools used, types of flames,
2. Rajan et al. Heat Transfer. Principles and Technology, PHI. types of joint, various position welding. Oxyacetylene torch cutting of
3. Y. Lakhtin. Engineering Physical Metallurgy, MIR Publishers. metals. Principle of arc welding, AC and DC arc welding machines and
43 44
tools, arc characteristics and control. Manual metal arc welding ME 214 KINEMATICS OF MACHINES
electrodes, classification and applications. Other arc welding methods
like carbon arc, metal inert gas (MIG), tungsten inert gas (TIG), atomic
Cr. Hrs. 3 (3 + 0)
hydrogen, plasma, submerged, flux-cored, and electro slag arc welding.
L T P
Unit-IV Credit 3 0 0
Other welding and related methods: Resistance welding. Thermal Hours 3 0 0
spraying, thermit welding, pressure welding, solid state welding
methods. Brazing and soldering. Unit-I
Newer welding methods: Electron beam welding, laser beam welding. Mechanisms: Kinematic pairs, kinematic chains, and mechanisms,
limits and disguise of pairs, equivalent linkages. Mobility, Grübler's and
Welding defects and remedies. Destructive and non-destructive testing
Kutzbach's criteria. Four bar chain, slider crank chain, and double
methods for welded joints.
slider crank chain and their inversions. Various mechanisms viz.
Pantograph, straight line mechanisms, steering mechanisms, Hooke's
joint, Geneva mechanism.
Practicals
Pattern making, moulding and casting exercises involving cores and Kinematic Analysis of Plane Mechanisms: Instantaneous centres,
considering allowances. Study of cupola and induction furnaces. Aronhold-Kennedy's theorem, angular velocity ratio theorem, velocity
Experiments on foundry sand testing like moisture, green strength, etc. analysis using instant centres. Velocity and acceleration using graphical
Exercises/demonstration on advanced metal arc (TIG, MIG, etc.), method, Coriolis component of acceleration. Algebraic method for velocity
oxyacetylene welding and cutting, resistance welding and metal spraying. and acceleration analysis of four bar chain and slider crank chain.

Introductory concepts of complex algebra and vectorial methods of

analysis, loop closure equation and numerical solutions using
Text Books/References computers (No numerical problems).
1. SK Hajra Choudhury and AK Hajra Choudhury. Elements of
Workshop Technology, Vol. I, Media Promoters & Publishers Pvt.
Unit-II
Ltd., Bombay.
2. JS Campbell. Principles of Manufacturing Materials and Kinematic Synthesis of Planar Mechanisms: Steps and classes of
Processes, TMH. synthesis. Dimensional synthesis, precision points, structural error,
Chebychev spacing. Freudestein’s methods of synthesis and application
3. Richard L. Little. Welding and Welding Technology, TMH Co. Ltd., to simple function generation problems for four-bar chain.
New Delhi.
Cams: Classification of cams and followers. Radial cam nomenclature.
4. R. K. Purohit. Mechanical Engineering, Scientific Publishers, Jodhpur.
Analysis of basic follower motions viz. uniform velocity, simple
harmonic, uniform acceleration and retardation, and cycloidal motions.
Synthesis of cam profile using graphical approach for roller, flat faced,
and knife edged followers. Analysis of follower motion for tangent came
with roller follower and circular arc cam with flat faced follower.

45 46
 Unit-III ME 215 MACHINE DRAWING – II

Gear: Law of gearing, velocity of sliding between teeth in mesh. Involute Cr. Hrs. 1 (0 + 1)
and cycloidal profile for gear teeth and their characteristics. L T P
Interchangeable gears, tooth systems. Spur gears, spur rack, arc and Credit 0 0 1
path of contact, contact ratio. Interference and undercutting, minimum Hours 0 0 3
number of teeth to avoid interference. Parallel axis helical gears. Tooth
Pipes and Pipe joints: Standard conventional symbols for pipe joints and
proportions, equivalent spur gear. Herringbone gears. Crossed axis fittings, piping diagrams.
helical (spiral) gears, velocity ratio and efficiency. Straight bevel gears, Bearing: Ball, roller, and needle bearings.
tooth proportions, velocity ratio, equivalent spur gear, other types of bevel
Valves: Stop, gate, globe, check, buterfly and needle type valves,
gears. Worm and worm gear, nomenclature, velocity ratio and efficiency. safety valves.
Gear Trains: Simple, compound, reverted, and epicyclic trains. Gear Limits, fits, tolerances, conventional symbols, surface finish, etc.
train applications, gear boxes and differentials. Determining velocity Familiarisation with various BIS and other codes currently in vogue.
ratio by numerical and tabular methods. Preparation of assembly and production drawings indicating tolerances,
surface finish, etc. in detail of simple machine components and assemblies
like couplings, clutches, gear assemblies, tool post, reciprocating engine
Unit-IV components, viz. piston, connecting rod, cross head, etc.
Drives with Flexible Connectors: Types of belts and belt drives, Slip and
creep. Centrifugal tension, condition for maximum power, initial tension. Text Books/References
V belt and rope drives. Chain drives, types of power transmission 1. N. D. Bhatt. Machine Drawing, Charotar Book Stall, Anand.
chains, velocity ratio. 2. V. Laxminarayan and ML Mathur. A Text Book of Machine
Drawing, Jain Brothers, New Delhi.
Brakes and Dynamometers: Block brake, band brake, band and block 3. P. S. Gill. Machine Drawing: S. K. Kataria & Sons, New Delhi.
brake. Braking action, Braking system of automobiles. Absorption and
transmission type dynamometers.

EE 213 (AE, ME, MI) ELECTRICAL ENGINEERING – II

Text Books/References
Cr. Hrs. 3 (2 +1)
1. P. L. Ballaney. Theory of Machines, Khanna Publishers, Delhi. L T P
Credit 2 0 1
2. Joseph E. Shigley and John J. Uicker, Jr. Theory of Machines and
Hours 2 0 2
Mechanisms (International Edition), McGraw Hill Inc.
3. R. S. Khurmi and J. K. Gupta. Theory of Machines, Eurasia Unit-I
Publishing House (Pvt.) Ltd., New Delhi. D.C. Machines: Characteristics curves of d.c. generators and motors,
application of motors for different uses, starting and speed control of motors.
4. H. H. Mabie and C. F. Reinholtz. Mechanisms and Dynamics of
Machinery. John Wiley & Sons.
Unit-II
Transformers: Phasor diagram and equivalent circuits, regulation
efficiency and their determination. Open circuit, short circuit and
Sumpner’s test.

47 48
 Unit-III SECOND YEAR B.TECH. (IV SEMESTER)
Induction Motors: Polyphase induction motors – starters, equivalent
circuit, effect of rotor resistance, toruqe-slip curves, speed control by
rotor resistance, pole changing and cascading, use in industry. Single BS 221 (EC, EE, ME, MI) MATHEMATICS – IV
phase induction motor – starting methods.
Cr. Hrs. 3 (3 + 0)
Unit-IV L T P
Alternators: Elementary idea of armature winding. Calculation of Credit 3 0 0
induced e.m.f., factors affecting generating e.m.f. Open circuit, short Hours 3 0 0
circuit and load characteristics. Voltage regulation and its determination
by synchronous impedance methods. Synchronising. Unit-I
Fourier Series: Fourier series, even and odd functions; Half range series;
Synchronous Motors: Methods of starting. Power angle characteristics Change of interval; Exponential form of Fourier series; Harmonic analysis.
of cylindrical rotor machine, operation of synchronous motor as a
condenser and as a reactor. Applications in industries. Unit-II
Roots of Nonlinear (Algebraic and Transcendental) Equations: Bisection
method, False position method, Newton Raphson method;
Practicals Convergence of False position and Newton Raphson method. Complex
roots of polynomials by Bairstow’s method.
Lab practicals will be as per the theory syllabus.
Unit-III
Partial Differential Equations: Classifications of partial differential
Text Books/References equations; Method of separation of variables to solve Heat equation,
Wave equation and Laplace’s equations.
1. Nagrath and Kothari. Electrical Machines,
2. Ashfaq Hussain. Fundamentals of Electrical Engineering, Unit-IV
Statistics: Correlation and regression; Principle of least square method
and curve fitting.
Probability Distribution Functions: Random variable; Mathematical
expectations; Moment generating functions; Discrete and continuous
distribution functions; Binomial, Poisson and Normal distributions.

Text Books/References
1. J.L. Bansal and H.S. Dhami. (2005). Differential Equations
(Vols.-II), Jaipur Publishing House, Jaipur.
2. N.P. Bali and Manish Goya. A Text book of Engineering
Mathematics (VII Edition), Laxmi Publication Pvt. Ltd., New Delhi.
3. S.C. Gupta and V.K. Kapoor. Mathematical Statistics, Sultan
Chand & Sons, New Delhi.
49 50
 ME 221 MECHANICS OF SOLIDS – II ME 222 ENGINEERING THERMODYNAMICS
Cr. Hrs. 3 (3 + 0)
Cr. Hrs. 3 (3 + 0)
L T P
L T P Credit 3 0 0
Credit 3 0 0 Hours 3 0 0
Hours 3 0 0 Unit-I
Introduction: Microscopic and macroscopic points of view, limits of
Unit-I Thermodynamics. Homogeneous and heterogeneous systems,
Deflection of Beams: Differential equations of deflection curve, sign thermodynamic properties and state, heat and work.
convention. Moment curvature relation. Transverse deflection of beams Zeroth Law of Thermodynamics: Thermodynamic equilibrium,
under static loading. successive integration methods, conjugate beam thermodynamic and international practical temperature scales.
method, superposition method, area-moment method, methods using
First Law of Thermodynamics: Application to non-steady flow
discontinuity functions. Deflection of simple non prismatic beams. Strain
processes. Comparison of SFEE and Bernoulli’s equation. Variable
energy in bending.
specific heat, processes involving variable specific heat, energy charts.
Unit-II
Deflection of Statically Indeterminate Beams: Statical indeterminacy. Unit-II
Superposition, moment-area, and successive integration methods. Second Law of Thermodynamics: Equivalence of Kelvin-Planck and
Continuous beams, use of three-moment equations. Claussius statements. Reversible and irreversible cycle. Carnot cycle.
Springs: Close coiled helical spring subject to axial load and couple. Corollaries of second law and entropy, Claussius inequality, principle of
Open coiled helical spring subjected to axial pull and torque. Springs in increase of entropy. Availability, irreversibility and efficiency. Second
series and parallel. Thin flat spiral spring. Leaf springs, quarter elliptical law analysis of systems.
springs. Stresses and defections in leaf springs. Thermodynamic Relations: Differential relationship for systems of
constant composition. Helmoltz and Gibbs function. Variable specific
Unit-III
heat. Joule-Kelvin coefficient, Clausius-Clapeyrnon equation.
Members Subjected to Combined Loads: Short struts subjected to
eccentric loads, shafts subjected to combined bending and twisting loads, Unit-III
equivalent twisting moments and equivalent bending moments. Members Properties of Pure Substances: Ideal gas, PVT surfaces, equation of state,
subjected to combined axial, bending and torsional loads. Vander Wal’s equation. Beatic-Bridge equation and other equations of
Theories of Elastic Failure: The necessity for theory, different theories, state. Virial coefficients. Law of corresponding states, use of generalized
significance and comparison. compressibility charts. Development of table for thermodynamic properties.
Unit-IV Phase diagrams. Pressure, volume, temperature, entropy, enthalpy-
Energy Methods: Principal of virtual work, reciprocal theorems, unit load entropy, pressure-enthalpy - entropy pressure enthalpy diagrams.
method. Strain energy and complementary strain energy. Strain energy Representation of processes in various phase diagrams.
due to axial, bending and torsional load. Castigliano's theorems. Unit-IV
Application of energy methods for determination of deflections of simple Mixture of Gases and Vapours: Vapour mixture. Mixture of ideal gases,
structural members and structures, defection of beam due to shear. Dalton’s law, Amagat-Ledue law, Gibb’s Law. Irreversible mixing
process for ideal gases, mixture of ideal gases and vapour.
Text Books/References Gravitational and volumetric analysis.
1.
nd
James M. Gere and Stephen P. Timoshenko: 2 Edition. CBS Chemical Equilibrium: Thermodynamics of combustion, internal energy
Publishers & Distributors,Delhi. and enthalpy of formation, first and second law analysis.
2. B. C. Punmia. (1988). Strength of Material and Mechanics of Text Books/References
th
Structures (Vol. I). 8 Edition Standard Publishers Distributers. 1. P. K. Nag. Engineering Thermodynamics, TMH.
3. S. H. Crandall, N. C. Dahl and S.J. lardner. (2000). An Introduction to 2. C. P. Arora. Engineering Thermodynamics, TMH.
Mechanics of Solids, TMH. 3. E. Rathakrishnan. Fundamentals of Engineering Thermodynamics, PHI.
4. Y. Cenegel and M. Boles. Thermodynamics : An Engineering
5. E.P. Popov. Introduction to Mechanics of Solids, PHI. Approach, McGraw Hill.
51 52
 ME 223 MANUFACTURING PROCESSES Text Books/References
1. J.S. Campbell. Principles of Manufacturing Materials and
Cr. Hrs. 4 (3 + 1) Processes, Tata McGraw-Hill Company Ltd, New Delhi.
2. P.C. Sharma. A Text Book of Production Technology, S. Chand &
L T P Co., New Delhi.
Credit 3 0 1
4. S.K. Hajra Choudhury and A.K. Hajra Choudhury. Elements of
Hours 3 0 2
Workshop Technology, Vol. I. Media Promoters & Publishers Pvt.
Ltd., Bombay.
Unit-I 5. Pandey and Shan. Modern machining Process, TMH.
Metal Working: Hot and cold rolling, continuous rolling. Drop forging, 6. Amitabha Bhattacharyya. New Technology, Published by the
drop hammers, dies for drop forging, upset and press forging, forging Institution of Engineers, India
presses, forging rolls, forging defects. Hot and cold extrusion including
impact extrusion and extrusion cold forging. Seamless tubes
manufacturing processes, swaging. Wire, bar and tube drawing.
ME 224 DYNAMICS OF MACHINES
Unit-II
Sheet Metal Working: Classification of processes. Process capabilities, Cr. Hrs. 3 (3 + 0)
process planning and elements of tooling of shearing (blanking, piercing,
trimming, shaving, notching), drawing and forming processes. Sheet metal L T P
presses. Punch and die sets. Compound, progressive, and combination Credit 3 0 0
dies. Drop hammer forming, Guerin process, bulging, stretch forming, Hours 3 0 0
spinning and explosive forming. High velocity forming of metals. Unit-I
Static Force Analysis: Conditions for equilibrium, free body diagrams.
Unit-III Static force analysis of simple four-bar linkages, slider crank
mechanisms, cam-follower systems, and gear systems with graphical
Powder Metallurgy: Introduction, production of powder, manufacturing of and analytical methods. Consideration of friction.
parts by powder metallurgy and their applications. Dynamic Force Analysis: Inertia force and torque, D' Alembert's
Moulding and extrusion of plastic, forming and drawing of plastic sheets. principle, principle of superposition. Graphical and analytical dynamic
force analysis of four bar mechanism and slider crack mechanism.
Production of screw threads, rolling, milling, and uses of dies. Shaking forces and moments. Dynamically equivalent systems,
Production of gears, milling, shaping, and hobbing, finishing of gears. application to single cylinder reciprocating engines. Gas force, bearing
loads, shaft torque, shaking forces and moments determination.
Unit-IV
Unit-II
Abrasive Machining: Types and classification. Surface, cylindrical, and Flywheel: Turning moment diagrams, coefficient of fluctuation of speed
centreless grinding. Tool and cutter grinders. Grinding wheels, and energy, mass of flywheel, flywheel applications.
abrasives, bonding processes, selection of grinding wheels. Honing, Gyroscopic Forces: Precessional motion, gyroscopic couple. Effect on
lapping, and superfinishing methods, polishing and buffing. stability of ships and aeroplanes, effect on four wheeled and two
wheeled vehicles negotiating a curve, gyroscopic stabilisation of ships.
Unconventional Machining Methods: Abrasive jet, electric discharge,
electrochemical, ultrasonic, electron beam, plasma arc and laser beam Unit-III
machining. Electrolytic grinding, chemical milling. Friction and lubrication: Dry friction, static and dynamic friction. Friction
on inclined plane, friction of pivots and collars, single and multiple disc
Practicals clutches. Friction circle of turning pair and friction axis of a link. Rolling
friction, antifriction bearings. Viscous and greasy friction. Film
Demonstration/exercises related to forging and sheet metal working.
lubrication, Tower’s experiment, Brone Reynold’s theory, Sommerfeld
Exercises/study on grinding machines. Exercises/study on
diagrams. Hydrostatic lubrication.
non-traditional machining processes.
53 54
Governor: Types of governors. Analysis of Watt, Porter, Proell and ME 226 STEAM POWER ENGINEERING
spring loaded governors. Effect of friction, controlling force curves,
sensitiveness, stability, hunting, isochronism, and effort of governor. Cr. Hrs. 4 (3 + 1)
Inertia governors.
L T P
Unit-IV
Credit 3 0 1
Balancing: Static and dynamic unbalance. Balancing of rotating masses
Hours 3 0 2
in one and different planes, analytical and graphical methods. Balancing
of reciprocating engines, primary and secondary inertia forces. partial
primary balancing of locomotives, variation of tractive effort, swaying Unit-I
couple, hammer blow. Balancing of coupled locomotives. Balancing of
multicylinder inline and radial engines, direct and reversed crank Steam Generators: Natural circulation and forced circulation high
method, balancing of V engines. Balancing machines. pressure boilers viz. Lamont, Loeffler, and Benson boilers. Introduction
to super critical pressure boilers. Testing of boiler. Heat balance sheet,
problems involving combustion.
Text Books/References
1. Joseph E. Shigley and John J. Uicker, Jr. Theory of Machines and Boiler Draught: Boiler draught. Natural draught, height of chimney. Artificial
Mechanisms, McGraw Hill Inc. draught, fans. Equivalent evaporation, efficiency and heat balance.
2. P. L. Ballaney. Theory of Machines, Khanna Publishers, Delhi. Unit-II
3. R. S. Khurmi and J. K. Gupta. Theory of Machines, Eurasia
Publishing House (Pvt.) Ltd., New Delhi. Vapour Power Cycles: Rankine cycle, effect of thermodynamic variables
4. H. H. Mabie and C. F. Reinholtz. Mechanisms and Dynamics of on its efficiency. Reheat cycle. Regenerative cycle, efficiency, disposal
Machinery. John Wiley & Sons. of bled steam, condensate. Regenerative water extraction cycle. Binary
5. Amitabha Ghosh and A. K. Mallik. Theory of Mechanisms and vapour cycle. Steam for heating and process work, back pressure
Machines, Affiliated East West Press Pvt. Ltd., Delhi. turbine, pass out or extraction turbine, mixed pressure turbine. Second
law analysis of steam power plant.
Unit-III
Condensers: Elements of condensing plant, advantages. Jet, surface,
ME 225 CAD LAB – I and evaporative condensers. Air in condenser and methods of
extraction. Vacuum and condenser efficiency, cooling water
Cr. Hrs. 2 (0 + 2) requirement, capacity of air pump.

L T P Steam Nozzles: Type of nozzles, steam flow through nozzles,

Credit 0 0 2 application of SFEE, critical pressure, throat and exit areas for optimum
Hours 0 0 4 discharge, friction effect. Super saturation phenomenon, effect of
variation of back pressure. Theory of steam injectors.
Introduction to Computer Aided Drafting using popular softwares like
AutoCad. Drawing entities. Drawing, modifying, viewing, printing, and Unit-IV
dimensioning commands. Drawing aids, coordinate systems, layers, Steam Turbines: Types and classification. Impulse and reaction
hatching, etc. Blocks. Simple 2-D drawing and dimensioning exercises. turbines. Flow of steam through turbine, blade sections and height.
Velocity diagrams, application of SFEE. Diagram, stage and other
Text Books/References efficiencies, condition for maximum efficiency. Methods of reducing rotor
1. AutoCad. Reference Manual speed for turbines. Reheating and bleeding of turbines, reheat factor.
2. George Omura. Mastering AutoCad. Turbine characteristics and performance. Methods of governing,
emergency governors.

55 56
Turbine Construction Details: Steam turbine components description. THIRD YEAR B.TECH. (V – SEMESTER)
Nozzles, rotors, blades and their attachment, turbine glands, couplings.
Balancing of axial thrust.

ME 311 MECHANICAL VIBRATIONS

Practicals Cr. Hrs. 4 (3 + 1)
1. Study of high pressure boilers.
L T P
2. Study of steam turbines. Credit 3 0 1
3. To determine dryness fraction of steam. Hours 3 0 2

4. Study of condensers.
Unit-I
5. Test on steam nozzle. To obtain P-T relationship for saturated
steam by Mercet boiler. Vibrations: Types of vibrations. Degrees of freedom, continuous and
lumped systems, natural frequency, resonance. Simple harmonic
6. To conduct boiler trial test and obtain its efficiency. motion, vectorial and complex number representation. Fourier series
7. Volumetric analysis of dry flue gases by Orsat apparatus. and harmonic analysis.

8. To determine calorific value of coal by Bomb calorimeter. Undamped Free Vibrations: Formulation of equations of motion for
single degree of freedom system by Newton's law, D'Alembert's
principle, and by energy approach. Solutions for given initial
conditions for simple systems. Free flexural and torsional vibrations.
Text Books/References Equivalent stiffness.
1. ML Mathur and FS Mehta. Thermal Engineering, (Vol. I & II, SI
Edition), Jain Brothers, New Delhi. Unit-II
2. R. Joel. Basic Engineering Thermodynamics: Pearson Education. Damped Free Vibrations: Types of damping, free damped vibrations of
3. G. Rogers and Y. Mayhew. Engineering Thermodynamics Work single dof system with viscous damping. Damping coefficient and factor.
and Heat Transfer, Pearson Education. Overdamped, critically damped, and underdamped systems.
Logarithmic decrement. Viscous dampers. Frequency and rate of decay
4. R. K. Purohit. Mechanical Engineering (SI Units), Scientific of amplitude with Coulomb damping.
Publishers, Jodhpur. Forced Vibrations: Forced vibrations with constant harmonic excitation,
transient and steady state solutions. Magnification factor and phase
difference. Forced vibrations with rotating unbalance, reciprocating
unbalance, and with motion excitation of support. Non harmonic
excitation. Vibration isolation and transmissibility, material for vibration
isolation. Principles of vibration measuring instruments.
Unit-III
Multi Degrees of freedom Systems: Introduction to concepts of coupling
of equations of motion, principal modes, orthogonality of modes, mode
shapes, modal matrix. Free vibrations of simple two degrees of freedom
rectilinear and torsional systems. Undamped vibration absorbers.
Approximate and numerical method for multi degrees of freedom
systems- Rayleigh's method, Dunkerley's method, and Holzers's method.
Application to simple systems. Geared systems.
57 58
 Unit-IV Governing Equations of Fluid Flow: Flow classifications, stream, streak and
path lines. Generalised continuity equation, Euler's equation of motion,
Continuous Systems: Discrete vs. continuous systems. Free vibrations
Bernoulli's equation, momentum equation, angular momentum equation,
of strings, longitudinal and transverse vibrations of beams, torsional
and their application to fixed and moving blades, vanes, jets, etc.
vibrations of shafts.
Flow Measurement: Free orifice, jet, vena contracta. Orifice in pipes.
Critical Speeds of Shafts: Whirling of shafts, critical speed of light shaft
Mouthpiece, venturimeter, notches and weirs.
having single rotor with and without damping, critical speeds of shaft
with two rotors. Secondary critical speed.
Unit-II
Ideal Flow: Irrotational flow, velocity potential, Laplace's equation, stream
Practicals function. Flow net, vortex and circulation. Potential flow solution for two
dimensional problems, superposition, half body, Rankine body, circular
Experimental verification of gyroscopic effect, Experiment on Governors,
cylinder and circular cylinder with circulation. Tormado Method of images,
Balancing experiment, Whirling of shafts, Experiments on single and
additional methods for obtaining potential flow solution.
multiple degrees of freedom systems.
Viscous Flow: Equation of motion for viscous fluid, Navier Stokes
equations. Laminar and turbulent flow, Reynold’s experiment. Simple
Text Books/References solution of Navier Stokes equations for laminar flow between parallel
1. G. K. Grover. Mechanical Vibrations, Nem Chand & Bros., Roorkee. plates, circular and annular tubes. Hagen-Poiseuille flow, plane
Poiseuille flow and Couttee flow. Turbulent flow, mixing length
2. Francis S. Tse, Iwan E. Morse and Rolland T. Hinkle. Mechanical hypothesis applied to pipe flow, velocity distribution in smooth and
Vibrations, CBS Publishers & Distributors, Delhi. rough pipes.
3. Leonard Merovitch. Elements of Vibrations Analysis (International
Unit-III
Edition), McGraw Hill Inc, Singapore.
Flow Through Pipes: Head loss and friction in rough and smooth pipes,
4. W. T. Thomson. Theory of Vibrations and Applications, Prentice Hall. Darcy-Weisbach equation, variation of friction factor with Reynold’s
number, Prandtl number. Universal pipe friction flows, Colebrook
formula. Loss of head due to sudden enlargements, contraction,
entrance, exit, obstruction, bend, pipe fittings. Total energy and
Hydraulic gradient lines. Flow through pipe line, pipes in series and
ME 312 FLUID MECHANICS parallel. Transmission of power through pipes.
Dimensional Analysis and Dynamic Similitude: Buckingham’s theorem,
Cr. Hrs. 4 (3 + 1) Superfluous and omitted variables. Dimensionless ratios. Reynold, Froude,
Mach, Weber, and Euler numbers, and their applications. Similitude, model
L T P studies, undistorted model, distorted model, scale effect.
Credit 3 0 1
Hours 3 0 2
Unit-IV
Unit-I Boundary Layer: Description of boundary layer, boundary layer
thickness, boundary layer separation and control. Prandtl boundary
Introduction: Continuum concept. Viscosity, effect of temperature and layer equation and solution. laminar boundary layer, momentum
pressure. Incompressible and compressible fluids, Newtonian and Non equation for the boundary layer on flat plate in uniform free stream with
Newtonian fluids, ideal fluid. Surface tension, capillarity, vapour no pressures gradients; Approximate momentum analysis -Laminar
pressure and cavitation. boundary layer, Turbulent boundary layer, Viscous sublayer, combined
Laminar and turbulent boundary layers.
Fluid Statics: Pressure, units and scales of measurement, general Flow Round a Body: Drag, skin friction drag, pressure drag, Combined
differential equation, manometry. Fluid forces on submerged skin friction and pressure drag (profile drag),wave drag, lift induced
surfaces. Buoyant force, stability of floating and submerged bodies, drag. Flow past sphere and cylinder.
metacentric height.
59 60
Practicals Unit-III
Verification of Bernoulli's theorem. Measurement of flow through
Drilling Machines: Classification. Constructional details of sensitive,
venturimeter, orifice, notches and mouthpieces, and determining their
pillar and radial drilling machines. Work and tool holding devices. Main
coefficient of discharge. Flow through pipes and measurement of fluids.
operations. Tools, twist drill, reamer and tap.

Text Books/References Boring Machines: Classification. Horizontal and vertical boring

1. Victor L. Streeter. Fluid Mechanics, McGraw Hill Book Co., Singapore. machines. Precision boring machines, jig boring machines. Principal
2. R. K. Rajaput. Fluid Mechanics and Machines, S. Chand & Co. operations, boring tools, work holding devices.
3. R. K. Bansal. Fluid Mechanics and Machines, Broaching Machines and tools.
4. Irving Shames. Mechanics of Fluids, McGraw Hill.
5. R.K. Purohit. Fundamentals of Fluid Mechanics, Scientific
Publishers, Jodhpur. Unit-IV
Milling Machines: Types and classification. Constructional details and
principle of operation of horizontal, vertical, and universal milling machines.
Work and cutter holding devices, attachments. Milling cutters. Milling
operations and processes. Indexing methods and gear cutting.
Introduction to principles and operations of numerically controlled
ME 313 MACHINE TOOLS
machine tools, machining centre, transfer machines and methods.

Cr. Hrs. 4 (3 + 1)

L T P Practicals
Credit 3 0 1 Exercises on lathe, shaper, planer, and milling machines.
Hours 3 0 2

Unit-I
Text Books/References
Lathes: Classification. Constructional details of centre lathe and its
principal parts, accessories, attachments, and work holding devices. 1. S.K. Hajra Choudhury and A.K. Hajra Choudhury. Elements of
Main operations including taper turning and thread cutting, change gear Workshop Technology, Vol. II, Media Promoters & Publishers
calculation. Lathe tools. Pvt. Ltd., Bombay.
Batch and Mass Production Machines:. Capstan and turret lathes.
2. R.K. Jain & SC Gupta. Production Technology, Khanna
Automatic machine tools- Single and multispindle automats, their
operation and tool layout. Hydraulic tracer controlled machine tools. Publishers, New Delhi.
3. J.S. Campbell. Principles of Manufacturing Materials and
Unit-II
Processes, Tata McGraw-Hill Company Ltd, New Delhi.
Shaper: Classification. Constructional details and principal parts of standard
4. H.M.T. Publication, Production Technology, Tata McGraw Hill.
shaper, quick return and feed mechanisms, hydraulic shaper. Shaper tools,
work holding devices and main operations.
Planer Machines: Classification, principal parts of standard double
housing planer, table drive and feed mechanisms. Main operations,
tools, and work holding devices.
61 62
 ME 314 IC ENGINES Introduction to free piston, rotary combustion, dual fuel, and multi-fuel
engines. Effect of atmospheric conditions on performance of I.C.
Cr. Hrs. 4 (3 + 1) Engines. Supercharging, methods and types of super charging.

L T P Unit-IV
Credit 3 0 1
Hours 3 0 2 Engine Friction, Lubrication and Cooling: Break up of total engine
friction, effect of engine variables on engine friction. Lubrication
Unit-I systems. Lubricating oils, classification, properties and service ratings.
Oil pumps and filters. Crankcase ventilation. Areas of heat flow and
Introduction: Classification, various engine efficiencies and performance
temperature distribution, necessity of cooling. Types of cooling systems,
parameters. Basic air cycles, deviations from ideal cycles.
air and water cooling. Thermostatic control. Radiators and cooling fans.
Combustion in S.I. Engines: Ignition limits. Stages of combustion, effect
Performance and Testing: Performance parameters. Measurement of
of engine variables on flame propagation, rate of pressure rise.
speed, fuel and air consumption, brake horse power. Friction horse power
Abnormal combustion, detonation or knocking, effects and control of
measurement methods. Indicated power measurement, high speed
detonation, theories and chemistry of detonation, effect of engine indicators. Performance of SI and CI engines, heat balance sheet.
variables on detonation. Abnormal combustion.
Air Pollution: Introduction to air pollution, causes and control of air pollution.
Carburetion: Properties of air-fuel mixtures, mixture requirements for
different engine conditions. Transient mixture requirements. Elementary
carburettor, calculation of air-fuel ratio. Description of important Practicals
carburettors. Petrol injection, electronic fuel injection.
Ignition System of SI Engines: Types of basic ignition systems. Firing 1. Study of 4 stroke and 2 stroke petrol engine.
order, ignition timings, ignition advance mechanisms. Spark plugs. 2. Study of 4 stroke and 2 stroke diesel engine.
Electronic ignition system. 3. Study of various types of carburettors.
4. Study of various type of combustion chambers for SI and
Unit-II CI engines.
5. Study of ignition systems for SI engines.
Combustion in CI Engines: Stages of combustion. Air-fuel ratio in CI 6. Study of fuel injection system of CI engines.
engines. Variables affecting delay period. Diesel knock, effect of engine
7. Morse test on 4 cylinder petrol engine.
variables, control of diesel knock. Cold starting of CI engines.
8. Performance test on an automobile engine under variable speed.
Combustion Chambers: Requirements and design principles of
combustion chambers, main features of widely used combustion 9. Study of lubrication system.
chambers for SI and CI engines. 10. Study of cooling system.
11. Study of Wankel rotary engine.
Fuel injection: Heat release pattern, types of injection systems. Types of
fuel pumps, injectors, and injector nozzles. Injection timing. 12. Study of gas turbine. Exhaust gas analysis.

Unit-III
Text Books/References
Engine fuels and Combustion: Fuels for SI engines, gasoline, 1. M. L. Mathur and R. P. Sharma. A Course in Internal Combustion
requirements of ideal gasoline. Effect on engine performance. Knock Engines, Dhanpat Rai & Sons, Delhi.
rating of SI fuels, HUCR, Octane number, research and motor octane
numbers. Important properties of diesel fuel. Cetane number, diesel 2. Ganesan. IC Engines, TMH.
index, Aniline point. Fuel additives or dopes. Exhaust gas analysis. 3. J. Heywood. Internal Combustion Engine Fundamentals, McGraw Hill.
Two Stroke Engines: Introduction, valve timings. Scavenging processes
and parameters, scavenging systems, scavenging pumps.

63 64
 ME 315 MACHINE DESIGN – I ME 316 INDUSTRIAL ENGINEERING – I

Cr. Hrs. 3 (3 + 0) Cr. Hrs. 2 (2 + 0)

L T P L T P
Credit 3 0 0 Credit 2 0 0
Hours 3 1 0 Hours 2 0 0

Unit-I Unit-I
Introduction: Meaning and phases of design, design process, design Introduction: Historical development, functional areas of business and the
considerations. Engineering materials and their mechanical properties, need for integrating these through the development of business goals.
BIS designation of materials. Preferred numbers. Factor of safety,
selection of allowable stresses. Types of load and stresses, impact Organisation: Meaning of organisation, administration and
loads, theories of failure. Stress concentration, theoretical stress management. Ownership. Forms of business organisation, sole
concentration factors and charts. Stress intensity factor and fracture proprietorship, partnership, joint stock companies, cooperative societies,
toughness. Fatigue, S-N diaigram, endurance limit and modifying public enterprises.
factors, fatigue stress concentration factor, design for fatigue, fluctuating Principles of organisation, types of organisation structures. Forms of
stresses, Soderberg, Goodman and modified Goodman formulae. organisation, line, functional, line and staff, and committee. Authority and
Surface endurance shear. responsibility, delegation of authority, span of control. Organisation charts.
Design of Beams and levers.
Unit-II Unit-II
Design of Detachable Joints: Cottered joints, pinned joints and Management: Principles and elements of management. Functions of
turnbuckle. Design of bolted joints with and without preload, gasketed management, planning, organisation, staffing, directing, coordination,
joints, design under fatigue loading. Bolted joints subjected to eccentric and control. Types and levels of management, management structure.
loading. Design of nuts, types of locking devices. Scientific management, development of management thought with
Design of Curved Members: Design of crane hooks, circular rings, chain reference to the work of Taylor, Gilberth, Mayo and Kurt Lewin.
rings, chain links, etc.
Unit-III Unit-III
Design of Permanent Joints: Design of riveted joints, structural and Personnel Management: Objectives, organisation, functions and
pressure vessel (boilers) riveted joints, joints under eccentric loading. responsibilities of personnel management, relationship with other
Design of welded joints. Eccentric loading on riveted and welded joints. departments. Brief idea about motivation, morale, perception, leadership
Design of columns. attitudes, frustration, fatigue, accidents, values, opinion.
Unit-IV Man power Planning, recruitment, selection, job specification and job
Design of Shafts, keys, couplings. Design of helical and laminated qualification. Training and placement.
springs. Fatigue considerations. Wage payment System: Job evaluation, merit rating, methods of wage
payment, time wages, piece wage system, incentive schemes.
Text Books/References Industrial Relations and Labour legislation: Management union
relations, trade union movement, collective bargaining, employees
1. V. B. Bhandari. Design of Machine Elements, TMH. participation in management. Brief ideas about various labour acts.
2. Joseph Edward Shigely. Mechanical Engineering Design,
Unit-IV
McGraw Hill Book Company, Singapore.
3. R. S. Khurmi and J. K. Gupta. A Text Book of Machine Design, Elements of costing and Financial statements: Classification of costs,
Eurasia Publishing House (Pvt.) Ltd., New Delhi. direct and indirect cost, labour, material and over-head, Prime cost,
4. N. C. Pandya and C. S. Shah. Elements of Machine Design, factory cost, fixed cost, variable cost, increment cost, Allocation of over
Charotar Book Stall, Anand.
65 66
head costs. Analysis of Break even chart. Depreciation of plant, building THIRD YEAR B.TECH. (VI SEMESTER)
and facilities. Method of computing depreciation.

Text Books/References ME 321 HEAT TRANSFER

1. Banga and Sharma. Engineering Economics and Industrial
Organisation. Khanna Publishers, New Delhi. Cr. Hrs. 4 (3 + 1)
2. Kumar Surendra. Personnel Management and Industrial
Relations. Satya Prakashan, New Delhi. L T P
Credit 3 0 1
3. S. Eilon. Elements of Production Planning and Control. Universal
Book Corporation Bombay. Hours 3 0 2
4. R Lal. Essentials of Industrial Management. Bhatia Bhawan, Patna. Unit-I
5. Philippo. Personnel Management. Introduction: Modes and mechanism of heat transfer, basic laws.
6. M. Mahajan. (2000). Industrial Engineering & Production Conductivity, heat transfer coefficients.
Management. Dhanpat Rai & Co. Delhi, Conduction: General differential equation of conduction. Steady state
one dimensional conduction through plane and composite slabs,
cylinders and spheres with and without heat generation including
viscous heating, dielectric heating and linearly varying heat generation.
ME 317 CAD LAB – II Electrical analogy.

Cr. Hrs. 2 (0 + 2) Insulation: Selection of insulation material and thickness of insulation.

Factors influencing conductivity. Critical thickness of insulation.
L T P Thickness of insulation to prevent freezing/condensation in pipes.
Credit 0 0 2 Unit-II
Hours 0 0 4
Fins: General equation for fin. Heat transfer through fins of rectangular,
triangular and parabolic profile. Effectiveness and efficiency of fin, Biot
Solid modeling using popular software like Mechanical Desktop, number, optimum dimensions and arrangement of fins. Thermometer
Inventor, CATIA, Pro-Engineer, or Ideas. well, related applications of fin theory in heat transfer from pipe flow,
different temperature heat sources at ends of rods with heat generation
Drawing curves and surfaces. Extruded solids. 3-D primitives. 3-D and convection, etc.
operations like union, intersecting, etc. 3-D transformation. Making a part Unsteady State Unidirectional Conduction: Newtonian heating and
from sketch, Assembling different parts. Simple 3-D modeling exercises. cooling, response of thermocouple.

The students is expected to master modeling simple parts using any Unit-III
one of the packages as per availability. Forced Convection: Introduction, equation of laminar boundary layer on a
flat plate and in a tube, laminar forced convection on a flat plate and in a
tube. Reynold’s analogy. Dimensional analysis, empirical relationships.
Text Books/References Natural Convection: Dimensional analysis. Convection with phase
Reference Manuals of the relevant software. change, empirical relationships, description of condensing flow,
theoretical model of condensing flow. Boiling heat transfer.
Heat Exchangers: Types of heat exchangers. Log Mean Temperature
Difference (LMTD). Overall heat transfer coefficient, fouling factor.
Condensers and evaporators. Heat exchanger performance,

67 68
effectiveness and Number of Transfer Units (NTU). LMTD and NTU ME 322 FLUID MACHINES AND SYSTEMS
methods, analysis restricted to parallel and counter flow heat exchangers.
Cr. Hrs. 4 (3 + 1)

Unit-IV L T P
Credit 3 0 1
Radiation: Theories of radiant heat exchange. Absorption, transmission, Hours 3 0 2
and reflection of radiant energy. Emission, black body and
monochromatic radiation, Planck's law, total emissive power and Stefan Unit -I
Boltzman's law. Grey bodies, Kirchoff's law, Wien's law. Solid angle and
intensity of radiation, Lambert's cosine law. Radiation exchange Introduction: Application of momentum and moment of momentum
between black surfaces, geometric configuration factor and its equations to flow through hydraulic machinery, Euler’s fundamental
determination for simple geometries. Grey body radition exchange equation. Classification of machines.
between surfaces. Electrical analogy and its application to simple Hydraulic Turbines: Classification of turbines. Impulse turbine,
problems. Non luminous gas radiation. Errors in temperature constructional details, velocity triangles, power and efficiency ,
measurement due to radiation. Combined heat transfer coefficient with governing of Pelton wheels. Reactions turbines, Francis and Kaplan
radiation and convection. turbines, constructional details, velocity triangles, power and efficiency
calculation, degree of reaction, draft tube, cavitation.
Practicals Principles of Similarity: Unit and specific quantities, performance
characteristics, Selection of Water turbines. Thomas cavitation factor.
1. To measure thermal conductivity of metal bars.
2. To measure thermal conductivity of insulating powders.
Unit-II
3. To study temperature distribution along the length of fin in natural
and forced convection. Reciprocating Pumps: Reciprocating pump, theory, indicator diagram,
slip, effect of friction and acceleration, theory of air vessel.
4. Experiment on heat transfer in forced convection.
5. Experiment on heat transfer in natural convection. Rotodynamic Pumps: Classification. Centrifugal pumps, vector
diagrams, specific speed, head, power, and efficiency calculations.
6. To determine emissivity of given surface. Model testing and performance characteristics. Selection of pumps.
7. To determine Stefan-Boltzman constant and verify the law.
8. To determine rate of heat transfer, LMTD and overall heat transfer Unit-III
coefficient for parallel flow heat exchanger. Miscellaneous Fluid Machines: Gear Pumps, vane pumps, hydraulic
9. To determine rate of heat transfer, LMTD and overall heat transfer ram, jet pumps, well pumps, deep well pumps, pumps of hydraulic
coefficient for counter flow heat exchanger. pumped storage plants, air lift pump. Reversible hydraulic machines
(pump turbines), types, construction and their characteristics.
10. To study response of thermocouple.
Hydraulic Power Transmission: Hydro-kinetic system, function, methods
of control, constant and variable delivery systems, common uses of
Text Books/References hydrostatic systems. Hydro kinetic transmission systems, theory of
1. S. Domkundwar. A Course in Heat & Mass Transfer, Dhanpat Rai hydraulic couplings and torque converters, operating characteristics,
& Sons, Delhi. common uses of hydro kinetic systems.
2. J. P. Holman. Heat Transfer, McGraw Hill.
3. S.P. Sukhatme. A Text Book on Heat Transfer, Orient Longman. Unit-IV
4. Y. Cenegel. Heat Transfer - A Practical Approach, Mcgraw Hill. Experimental determination of pump characteristics, pump
characteristics curve from specific speed. Parallel and series connection

69 70
of pumps to common pipe line. Cavitation and abrasive wear of pumps. Unit-II
Non Stable operation of pump.
Metrology: Dimensional and geometrical accuracy of machined surface,
Fluidics: Common terms, writing the logic functions in the form of types of errors. Standards of measurement. Gauge blocks. Mechanical,
algebra, The basic principle and working of devices in common use, electrical, optical and pneumatic type comparators. Auto-collimators,
wall attachment, jet interaction, laminar turbulent effect, vortex effect optical interferometry, measurement of screw threads and gears.
and moving part devices. Applications. Surface roughness specification and methods of measurement

Practicals
Unit-III
Study of and obtaining various characteristic curves of Pelton, Francis, and
Quality Control: Quality improvement, need of Control, process
Kaplan turbines.
capability analysis, quality capability study. Statistical quality control;
Study of and obtaining performance curves for centrifugal and objective, applications, organization, cost aspects, theory of statistical
reciprocating pumps. tolerances.
Quality circles. Introduction to TQM; introduction to international
quality certifications.
Text Books/References
1. Victor L. Streeter. Fluid Mechanics, McGraw Hill.
2. R. K. Rajaput. Fluid Mechanics and Machines, S. Chand & Co. Unit-IV
3. R. K. Bansal Fluid Mechanics and Machines, Statistical Quality Control: General theory of control charts, group
4. Jagdish Lal. Fluid Machines control charts, control charts with variable sub-group size, moving
average and moving range charts, acceptance control charts cumulative
5. Irving Shames. Mechanics of Fluids, McGraw Hill. sum control charts and difference control charts.
6. R.K. Purohit. Fundamentals of Fluid Mechanics, Scientific
Sampling Plans: Acceptance sampling, single, multiple and sequential
Publishers, Jodhpur.
sampling plans, multi-level continuous sampling, acceptance sampling
by variables, sampling plans using different criteria, comparison of
various types of sampling plans.

ME 323 INDUSTRIAL INSPECTION AND QUALITY CONTROL

Practicals
Cr. Hrs. 4 (3 + 1)
Exercises/study on linear and angular measurements using slip gauges
L T P and sine bar.
Credit 3 0 1 Measurement of screw threads and gears. Experiments on ultrasonic
Hours 3 0 2 flaw detection and measurement. Surface roughness measurement,
comparators, etc. Drawing of control charts.
Unit-I
Interchangeable Manufacture: Deviations, limits of size, tolerances,
allowances, types of fits, hole basis and shaft basis systems, BIS Text Books/References
system of limits and fits. Design of limit gauges and gauge materials,
numerical problems. 1. E. L. Grant. Statistical Quality Control.
2. H.M.T. Publication, Production Technology, Tata McGraw Hill.
Non-destructive Testing: Radiography, magnaflux and fluorescent
3. R.K. Jain. Engineering Metrology, Khanna Publishers, New Delhi.
penetrant inspection, eddy current and ultrasonic tests
4. A. Mitra. Quality control and improvement, Pearson Education, Delhi.
Alignment testing of lathes. Acceptance testing of machine tools.

71 72
 ME 324 REFRIGERATION AND AIR CONDITIONING Practicals
1. Study of vapour compression and vapour absorption systems.
2. Study of Electrolux refrigerator.
Cr. Hrs. 4 (3 + 1)
3. Study of refrigeration accessories.
L T P 4. Study of window airconditioner.
Credit 3 0 1 5. Study and determining COP of ice plant.
Hours 3 0 2
6. Study and determining of COP of water cooler.
Unit-I 7. To determine COP of vapour compression refrigeration rig.
Refrigeration: Principles of refrigeration, ice refrigeration, freezing mixtures, 8. Study of charging of vapour compression refrigeration system.
cooling by gas, reversible expansion, evaporation. Units of refrigeration, 9. Study of leak detection devices.
coefficient of performance. Heat pump. 10. Study of domestic refrigerator.
Air Refrigeration Systems: Second law of thermodynamics applied to 11. Study of evaporative cooling system.
the refrigeration. Reversed Carnot cycle, Bell-Coleman cycle, Aircraft 12. Study and test on heat pump.
refrigeration.
Mechanical Vapour Compression Systems: Theoretical vapour
compression system, undercooling, dry and wet compression. Deviation of Text Books/References
actual cycle from ideal cycle. Volumetric efficiency of compressor and its 1. S Domkundwar and S C Arora. Refrigeration and Air Conditioning,
effect on refrigeration cycle. Flash chambers and precoolers, Compound Dhapat Rai & Sons, Delhi.
compression with intercooling, water intercooling and flash intercooling. 2. JL Threlkeld. Thermal Environmental Engineering, Prentice Hall.
Unit-II 3. Arora. Refrigeration and Air-conditioning, TMH.
Vapour Absorption Systems: Vapour absorption cycle. Simple and 4. W. Stoecker. Refrigeration and Air-conditioning, McGraw Hill.
practical vapour absorption system, Electrolux refrigerator.
Water vapour, steam jet, and thermo-electric refrigeration systems.
Low Temperature Refrigeration: Cascading and liquification of gases.
ME 325 MACHINE DESIGN – II
Unit-III Cr. Hrs. 3 (3 + 0)
Refrigerants: Desirable properties of refrigerants, comparative study of
the properties of important refrigerants. Eco-friendly refrigerants. L T P
Refrigeration Equipment: Discussion of compressors, condensers, Credit 3 0 0
evaporators, expansion devices, cooling towers. Hours 3 1 0

Unit-IV Unit-I
Design of IC Engine Components: Design of crank shaft, connecting
Psychrometry: Thermodynamic properties of moist air, perfect gas rod, piston.
relationship for approximate calculation. Adiabatic saturation process,
psychrometric chart and its use, elementary psychrometric processes. Design of clutches and brakes.
Air Conditioning: Types of airconditioning, Evaluation of comfort, Unit-II
comfort charts. Estimation of airconditioning load. Outside and inside Design of Power Transmission Elements: Rope and chain drives, flat
design conditions, condition line, sensible heat factor. Cooling and and V belt drives, Gear transmission systems using spur, helical, bevel
humidification, Apparatus Dew Point and bypass factor. Humidification and worm gears.
and dehumidification methods, air washers. Air conditioning systems, Unit-III
plant layout, controls, transmission and distribution of air. Design of screw motion mechanisms, screw jack, toggle jack, lead screw etc.
Bearings: Design of journal bearings. Selection of ball and roller bearings.

73 74
 Unit-IV Production Planning and Control: Types of production, Function of
production planning and control, planning. Pre-planning, sales forecasting,
Design of pressure vessels: Thin cylinders and spheres. Design of thick routing. scheduling, despatching and control, Gantt charts. Project planning.
cylindrical shells subjected to internal and external pressures. Introduction to network techniques, CPM and PERT, time estimates.
Compound cylinders. Design of cylinder heads and cover plates.
Design of flywheels and rotating discs. Unit-IV
Work Study: Concept of productivity, method study, motion economy,
process chart symbols. Flow diagram, operation analysis and operation
chart, SIMO charts. Work measurement, use of stop watch procedure
Text Books/References for time study data. Use of time study data with practical applications.
1. V. B. Bhandari. Design of Machine Elements, Tata McGraw Hill, Performance rating.
Value engineering: Value engineering and value analysis, product
New Delhi.
enrichment.
2. Joseph Edward Shigely. Mechanical Engineering Design,
McGraw Hill Book Company, Singapore.
Practicals
3. R. S. Khurmi and J. K. Gupta. A Text Book of Machine Design,
Stop watch time study- determining standard time. Performance rating.
Eurasia Publishing House (Pvt.) Ltd., New Delhi. Bolt and washer assembly experiment. Pegging board experiment.
4. N. C. Pandya and C. S. Shah. Elements of Machine Design,
Charotar Book Stall, Anand.
Text Books/References
1. Memoria and Agarwal. Business Organisation
2. Buffa. Operations management. John Wiley, New York.
3. R.M. Barnes. Time and Motion Study, Asia Publication.
4. Starr & Miller. Inventory Control - Theory & Practice. Prentice
ME 326 INDUSTRIAL ENGINEERING – II Hall India.
Cr. Hrs. 3 (2 + 1)

L T P
Credit 2 0 1
Hours 2 0 2 ME 327 COMPUTER APPLICATIONS IN MECHANICAL
ENGINEERING
Unit-I
Plant Location: Major factors, influencing the location of an industry and Cr. Hrs. 1 (0 + 1)
choice of site.
Plant Layout: Principles of plant layout, use of travel charts. Flow Pattern, L T P
Process Layout and Product Layout and combination, Line balancing. Credit 0 0 1
Hours 0 0 2
Unit-II
Materials Management: Field and scope of material management.
Material Planning and programme. Types of inventories. Inventory Writing Programmes in C and/or MATLAB for numerical solutions of
control. Vendor development, rating, standardisation and coding. problems related to mechanical engineering. Use of statistical
Procedure for purchase and storage. packages, data presentation packages, etc.
Materials Handling: Functions, engineering and economic factors,
relationship to plant layout. Selection, operation and maintenance of
material handling equipment. Types of equipment Text Books/References

Unit-III Reference Manuals of the relevant software.

Plant Maintenance: Maintenance polices, preventive, Breakdown
and corrective.
75 76
 FOURTH YEAR B.TECH. (VII SEMESTER) Texts/References
1. Steven Harrington. Computer Graphics- A Programming Approach,
McGraw Hill.
ME 411 CAD/CAM
2. D.F. Rogers and A. Adams. Mathematical Elements for Computer
Cr. Hrs. 4 (3 + 1) Graphics, McGraw Hill Inc., New York.
L T P 3. I.D. Faux and M.J. Pratt. Computational Geometry for Design.
Credit 3 0 1 4. M. P. Groover and E.W. Zimmers: CAD/CAM- Computer Aided
Hours 3 0 2 Design and Manufacturing, PHI, New Delhi.
Unit-I
5. Surendra Kumar and A.K. Jha: Technology of Computer Aided
Design process, application of computers for design, benefits of CAD. Design and Manufacturing CAD/CAM, Dhanpat Rai & Sons, Delhi.
CAD system components.
Computer graphics: Software configuration of a graphics systems,
function of a graphic package, constructing the geometry,
transformations. Wire frame versus solid modelling.
Introduction to numerical control, basic components of NC system. ME 412 INSTRUMENTATION AND CONTROL
Numerical control, computer numerical control and direct numerical
control. Mechanical design of CNC machine tools. MCU configuration. Cr. Hrs. 4 (3 + 1)
Unit-II
NC coordinate system, Tooling for CNC. Motion control systems, drives, L T P
encoders, etc.. Point to point, straight cut and contouring mode. Credit 3 0 1
Adaptive control machining systems. Hours 3 0 2
Part programming: Fundamentals, punched tape in NC, tape coding and
format. Manual part programming using G & M codes for – drilling, Unit-I
milling and turning; computer assisted part programming- APT language Measurement: Generalised measurement system, instrument
structure; simple exercises. classification, standards of measurement, calibration.
Unit-III Static and Dynamic Characteristics: Static performance parameters.
Impedance loading and matching. Types of errors and uncertainties,
Group technology: Part families, part classification and coding systems, propagation of uncertainties, statistical treatment of uncertainties,
group technology machine cells, benefits of group technology. single sample and multi sample data, goodness of fit, dynamic
Flexible manufacturing systems: Introduction, components of FMS, response. Compensation.
application work stations. Computer control and functions –planning,
Transducer and Signal Conditioning Elements: Various Primary and
scheduling and control of FMS.
secondary transducers. Digital transducers. Introduction to signal
Unit-IV conditioning elements.
Robot technology: Robot physical configurations, basic robot motions, Terminating Devices: Analog electric meter indicators, electronic
actuators, end effectors and robot sensors. Robot programming, work counters, digital multimeters, cathode ray oscilloscope, oscillographs,
cell design, control and interlocks, galvanometric type and servo type potentiometric recorders, x-y
Computer-integrated manufacturing: Types of manufacturing systems, plotters, single point and multi-point recorders.
machine tools and related equipment, material handling system,
benefits of CIMS. Unit-II
Strain and Stress Measurement: Resistance strain gauges, backing
materials, bonding materials and methods, gauge factor, gauge
Practicals configuration, strain gauge bridge circuits, temperature compensation,
Use of popular analysis and simulation packages (for example ANSYS, calibration, semiconductor (piezo-electric) strain gauge. Indicating
CATIA, etc.) for engineering analysis related to mechanical engineering. device. Use of strain gauges on rotating shafts. Strain gauge rosettes.
Use/Demonstration of CNC programming and simulation software. The Force and Torque Measurement: Hydraulic and pneumatic load cells.
students will be required to undertake a couple of minor projects in Strain gauge and piezo-electric based load cells. Separation of force
analysis and design using computers. components, calibration. Torque transducers.

77 78
Pressure Measurement: Bourdon type gauge, Low and high pressure ME 413 PRODUCTION ENGINEERING
measurement, Mcleod gauge, thermal conductivity gauge, ionisation
Cr. Hrs. 3 (3 + 0)
gauge, strain gauge, pressure cells. Dynamic pressure measurement.
Calibration and testing.
L T P
Credit 3 0 0
Unit-III Hours 3 0 0
Temperature Measurement: Bimetallic, pressure, metal resistance
thermometers. Thermisters, thermo-electric thermometering. Unit-I
Thermocouple, laws of thermocouple, calibration. Error compensation.
High speed temperature measurement. Pyrometry, optical pyrometers. Mechanics of Metal Cutting: Geometry of single point and multi point
Displacement Measurement: Transducers for displacement cutting tools, tool signature systems. Orthogonal and oblique cutting.
measurement, LVDT, resistance strain gauge. Angular velocity Mechanism and geometry of chip formation, types of chips. Forces on
measurement, photocell method, Stroboscope.
chips. Velocity, stress, strain and strain rate, power, and energy
Vibration Measurement: General theory of seismic instruments. Vibration
pick-ups, accelerometers, transducers for vibration pickups and relationships in orthogonal cutting. Theories on metal cutting. Friction
accelerometers, calibration. Frequency measurement, FFT analyser. and thermal aspects, measurement of cutting force and chip-tool
interface temperature. Mechanics of multipoint cutting tools viz. milling,
Unit-IV drilling and broaching tools.
Flow Measurement: Positive displacement and obstruction meters,
measurement by drag effects. Hot wire and magnetic flow meters. Flow
visualisation methods - Schileren technique, pressure probes. Unit-II
Miscellaneous Measurement: Water level measurement. Acoustic Theory of Machinability: Evaluation of machinability, tool life, tool
measurement, sound level meter.
failure. Mechanisms of tools wear, effect of cutting parameters,
Control Systems: Concept of open and closed loop system. Feedback.
Servomechanisms and servosystems. Representation of control surface finish. Economics of machining, optimum cutting speed.
systems, block diagrams. Hydraulic, electric, and pneumatic systems. Cutting tool materials and their characteristics, chip breakers, cutting
Concept of stability. fluids and their applications.
Unit-III
Practicals
Metal Working Analysis: Fundamentals of theory of plasticity, flow
Experiment on temperature measurement using thermocouple and
calibration. Temperature measurement using RTD and thermisters. conditions, plane strain criterion, friction in metal working. Elementary
Water level measurement using capacitive transducer, strain analysis of wire drawing, tube drawing, rod and strip drawing. Theory of
measurement, characteristics of LVDT, vibration measurement, forging. Elementary theory of rolling, Nadai's theory of rolling, rolling
pressure gauge calibration, force measurement. power requirement calculation.

Text Books/References Unit-IV

Tool Design: Design Principles of forging and sub-setting dies, elements
1. B.C. Nakra and K. K. Chaudhry. Instrumentation Measurement
of design of sheet metal press tools and dies. Design of single point
and Analysis, Tata McGraw Hill Publishing Co. Ltd., New Delhi.
cutting tools, form tools, and milling cutters.
2. D. S. Kumar. Mechanical Measurements and Control,
Metropolitan, New Delhi. Jigs and Fixtures: Introduction, design considerations and materials.
3. Thomas G Beckwith, N. Lewis Buck, and Roy D Marangoni. Principles of location. Clamping and locating devices. Drilling jigs and
Mechanical Measurements, Narosa Publishing House, New Delhi. bushes. Classification and types of milling fixtures.

4. K. Ogate. Modern Control Engineering, Prentice Hall of India. Safety Engineering: Safety devices in production shops, safety codes.

79 80
Text Books/References Unit-III
1. PC Pandey and CK Singh. Standard Publishers Distributors, Delhi. Gas Turbine Power Plants: Components of gas turbine power plant,
2. R.K. Jain & SC Gupta. Production Technology, Khanna open cycle and closed cycle plants, choice of working fluid,
Publishers, New Delhi. arrangement of plant components. Combined gas and steam power
3. H.M.T. Publication, Production Technology, Tata McGraw Hill. plant. Comparison with diesel and steam power plants.
4. R.V. Rao. Metal Cutting and Machine Tools, S.K. Kataria & Nuclear Power Plants: Elementary concepts of physics of energy
Sons, Delhi. generation by nuclear fission. Nuclear reactor types and classification,
boiling water reactor, gas cooled reactor, analysis of steam-gas system,
organic cooled moderate reactors, liquid metal cooled reactors. Liquid
fuel reactors, breeders and fast reactors. Radiation shielding, radio-
active waste disposal, safety aspects. Selection of site. Nuclear fuel
ME 414 POWER PLANT ENGINEERING
production and handling.
Cr. Hrs. 2 (2 + 0)
Unit-IV
L T P
Unconventional Methods of Power Generation: Introduction to solar
Credit 2 0 0
energy and its utilisation, solar cells, thermo-electric and thermionic
Hours 2 0 0
devices, fuel cells, magnetohydrodynamic energy conversion,
Unit-I geothermal, tidal and wind power plants.
Power Plant Economics: Plant costs. Influence of interest rate,
Introduction: Introduction to generation of electrical power, sources of
depreciation, operating costs on the selection of equipment.
energy, comparative merits, principal types of power plants. Review of
Incremental cost. Comparison of operating costs of thermal, hydel and
growth of power and development of different types of power plants in
India, future possibilities. nuclear power plants. Different systems of tariff. Load prediction and
curves. Influence of load factor, capacity factor, utilization factor and
Hydro Electric Power Plants: Site selection, classification, different types
diversity factor on plant location and selection of unit sizes.
of hydro electric power plants and their field of use. General layout of
storage type of plant. Primemovers, selection of turbine.

Unit-II Text Books/References

1. S. Domkundwar and S. C. Arora. A course in power plant
Steam Power Plants: Selection of site, general layout of plant. Supply,
engineering, Dhanpat Rai & Sons, Delhi.
storage and handling of coal. Coal feeding and burning methods,
related equipment, pulverised fuel systems and furnaces. Ash handling 2. P.K. Nag. Power Plant Engineering – Steam & Nuclear, TMH.
and dust collectors. Draught systems, condensers, spray ponds and 3. Skrotzki. Power Station Engineering & Economy, McGraw Hill.
cooling towers, feed water treatment. Steam pipe materials, types of
joints and fittings, expansion joints and pipe lagging. Commissioning
and testing of power plants.
Diesel Power Plants: Fields of use, components of diesel electric power
plant, types of diesel engines used, performance of diesel electric power
plant, comparison with steam power plants.
81 82
 ME 415 DESIGN ENGINEERING ELECTIVE - I
Cr. Hrs. 4 (3 + 1)
L T P ME 416 (a) FINITE ELEMENT METHOD
Credit 3 0 1
Hours 3 0 2 Cr. Hrs. 3 (3 + 0)
Unit-I
Introduction to Design Engineering: Morphology of design, need L T P
analysis, specification of a problem. Problem formulation and problem Credit 3 0 0
analysis, design process and design cycle, creative design and Hours 3 0 0
introduction to decision making. Analysis of the product, Unit-I
standardization, simplification. Basic design considerations. Review of matrix algebra, theory of elasticity, stress-strain relations,
Design for Production: Producibility requirements in the design of strain-temperature relations, plane stress, plane strain, axisymmetric case.
machine components. Design for forging, casting, machining ease and Introduction to FEM with direct or stiffness formulation for bar problem.
powder metallurgical parts. Element stiffness matrix, assembly, imposition of boundary conditions,
Unit-II solution of global system, stress and support reaction computation.
Strength, stiffness and rigidity considerations in product design. Computation details, storage schemes for global matrices. Solution of
Design Optimisation: Search for alternative solution and optimization equations in static analysis. Gauss elimination, Cholesky's factorisation.
aspects in design, qualitative discussions of various optimisation techniques. Unit-II
Unit-III Principle of stationary (or minimum) potential energy, principle of virtual
Human factors in engineering design: Aesthetic and ergonomic work. Rayleigh-Ritz method. Galerkin method. Variational formulation of
considerations. Design of controls and displays. FEM. Piecewise polynomial interpolation. Shape functions, degree of
0 1
continuity. Shape functions for C and C elements. Lagrangian and
Value Engineering: Nature and measurement of value, maximum value, Hermite interpolations. General displacement based formulation for
normal degree of value, importance of value, the value analysis job structural problems. Consistent element nodal loads. Equilibrium and
plan. Steps to problem solving and value analysis, value analysis tests, compatibility in FE model. Convergence requirements.
material and process selection in value engineering. Finite element formulation for one dimensional bar and heat transfer
problems. Linear and quadratic elements. Natural coordinates,
Unit-IV isoparametric formulation.
Economic Factors Influencing Design: Product value. Design for safety,
reliability and environmental considerations. Economic analysis, profit and Unit-III
competitiveness, break-even analysis. Economics of a new product design. Finite element formulation of one dimensional beam problem from
minimum potential energy and Galerkin approach. Beam element.
Modern Approaches to Product Design: Concurrent Design, Quality Coordinate transformations, truss and frame elements. Application to
Function Deployment (QFD).
simple beam, truss and frame problems.
Practicals Unit-IV
Creative Design Project: A comprehensive design of a machine/device Finite element formulation for two dimensional structural and heat
to perform a given task and/or a computer aided design of a machine or transfer problems – minimum potential energy and Galerkin
machine component to be done as a project during the semester.
approaches. Natural (area) coordinates. Linear triangular element for
structural (CST element) and heat transfer problems. Plane bilinear
Text Books/References
element. Isoparametric plane bilinear and triangular elements.
1. Chitale and Gupta. Product Design and Manufacturing, Prentice Numerical integration, Gauss quadrature. Jacobian matrix.. Applications
Hall of India.
to simple stress analysis and heat transfer problems (restricted to CST
2. K. T. Ulrich and S.D. Eppinger. Product Design and Development, element only).
McGraw-Hill.
83 84
Text Books/References Text Books/References
1. T. R. Chandrupatla and A. D. Belegundu. Introduction to Finite 1. D.F. Rogers and A. Adams. Mathematical Elements for Computer
Elements in Engineering, Prentice Hall of India, New Delhi. Graphics, McGraw Hill Inc., New York
2. R. D. Cook, D.S. Malkus and M.E. Plesha. Concepts and 2. I.D. Faux and M.J. Pratt. Computational Geometry for Design and
Applications of Finite Element Analysis, John Wiley & Sons. Manufacture, John Wiley & Sons, NY.
3. P. Sheshu. Text Book of Finite Element Analysis, Prentice 3. Steven Harrington. Computer Graphics- A Programming
Hall of India. Approach, McGraw Hill.
4. K.J. Bathe. Finite Element Procedure, Prentice Hall of India. 4. M. P. Groover and E.W. Zimmers. CAD/CAM- Computer Aided
Design and Manufacturing, PHI, New Delhi.
5. Surendra Kumar and A.K. Jha. Technology of Computer Aided
Design and Manufacturing CAD/CAM, Dhanpat Rai & Sons, Delhi.
ME 416 (b) COMPUTER AIDED DESIGN

Cr. Hrs. 3 (3 + 0) ME 416 (c) STRESS ANALYSIS AND EXPERIMENTAL METHODS

L T P Cr. Hrs. 3 (3 + 0)
Credit 3 0 0
Hours 3 0 0 L T P
Credit 3 0 0
Unit-I Hours 3 0 0
Design process, application of computers for design, definition of CAD, Unit-I
benefits of CAD. CAD system components. Computer hardware for Components of stress and strain, their principal values and invariants.
CAD. Display, input and output devices. Stress tensor. Stress components along arbitrary plane, state of stress
referred to principal axes. Octahedral stresses. Hydrostatic and pure shear
Unit-II states. Mohr's circles for three three-dimensional state of stress. State of
Optimisation methods in design. General techniques, exact and iterative strain at a point, strain components. Cubic dilation. Principal axes and
techniques. Optimal design of elements and systems. Applications to strains. Strain deviator and its invariants. Plane stress and strain states.
design of forging, shafts, gears, etc. Role of optimisation techniques and Stress-strain relations for linearly elastic solids, generalised Hooke's law,
finite element method in CAD. relation between elastic constants. Differential equations of equilibrium,
boundary conditions, compatibility conditions. Equations of equilibrium in
Unit-III cylindrical coordinates, axisymmetric and plane stress.
Computer Graphics: Graphics primitives, display file, frame buffer, Unit-II
display control, display processors. Line generation, graphics software. Airy's stress function. Simple 2-D problems, bending, torsion, and
Points and lines, DDA and Bresenham’s line algorithms, antialiasing axisymmetric problems.
lines. Polygons, filling of polygons. Bresenham’s algorithm for drawing Complex variable approach, complex representation of stresses,
circle and ellipse. Text primitive. Other primitives. Windowing and displacements and applied boundary loads. Different methods of solution
clipping, viewport. Homogeneous coordinates. Transformations. of 2-D problems for infinite plates with simply connected regions.
Unit-III
Unit -IV Experimental methods of stress analysis. Brittle coating method, crack
Planar and space curves design. Analytical and synthetic approaches. patterns produced by direct loading, refrigeration method, releasing
Parametric and implicit equations. B-spline and Beizer curves. method, effect of coating thickness and environment.
Modelling of biparametric freeform surfaces. Coons and Beizer surface Photoelasticity methods, behaviour of light, plane polarised and circular
patches. Surface manipulation techniques. polariscope, isochromatic and isoclinic fringe patterns for two dimensional
Geometric modelling techniques. Wire frames. Introduction to photoelasticity, three dimensional photoelasticity, model slicing and shear
solid modelling. difference method, birefringent coating method.
85 86
 Unit-IV ME 416 (e) VIBRATION AND NOISE CONTROL
Strain measurement method, types of gauges, electric strain gauge, Cr. Hrs. 3 (3 + 0)
strain rosette analysis, three element, delta, four element rosette, strain
gauge circuits and recording instrument. L T P
Moire fringe technique, surface strain measurements and flexural studies. Credit 3 0 0
Grid analysis. X-ray techniques and holography. Motion measurements. Hours 3 0 0
Unit-I
Vibration theory, vibration of one degree-of-freedom systems. Two and
Text Books/References multi degree of freedom systems. Transient vibrations. Vibration of
1. S. P. Timoshenko and J.N. Goodier, Theory of Elasticity, McGraw Hill. beams. Langrange's equation.
2. N.I. Mushelishvili. Some Basic Problems of Theory of Elasticity, Unit-II
Noordhoof, Netherlands. Basic noise theory, noise and vibration criteria, sound waves and their
3. L.S. Srinath. Advanced Mechanics of Solids, TMH. propagation, acoustic impedance, noise analysis, transmission of noise,
4. J.W. Dally and W.F. Riely. Experimental Stress Analysis, McGraw Hill. human response to noise.
5. G.S. Holister. Experimental Stress Analysis, Cambridge University Unit-III
Press.
Vibration and noise measuring and analysing instruments. Principle of
vibration and noise control.
ME 416 (d) TRIBOLOGY Unit-IV
Numerical treatment of vibration and noise problems. Analysis of a
Cr. Hrs. 3 (3 + 0) practical problem.
L T P
Text Books/References
Credit 3 0 0
Hours 3 0 0 1. W.T. Thomson. Theory of Vibration and Applications, Prentice Hall.
2. R.F. Steidl. An Introduction to Mechanical Vibration, John Wiley
Unit -I
and Sons.
Metrology of surfaces. nature of friction and wear processes. Coatings
for wear resistance. Theory, testing and control of corrosion. 3. L.L. Beranek. Noise Reduction, McGraw Hill.

Unit-II
Lubricants and bearing materials. Hydrodynamic lubrication. Steady
state and dynamically loaded bearing design.
ME 416 (f) FRACTURE MECHANICS
Unit-III Cr. Hrs. 3 (3 + 0)
Elastohydrodynamic lubrication, rolling element bearings and
L T P
gear lubrication.
Credit 3 0 0
Unit-IV Hours 3 0 0
Lubrication problems at certain extreme environment conditions, e.g., Unit-I
pressure, temperature and vacuum. Experimental techniques in tribology. Introduction to Griffth's surface energy and Irwin's stress intensity factor.
Stress analysis of fracture, Westegaard's and William's stress functions.

Text Books/References Unit-II

1. E.R. Braithwaite. Solids, Lubricants and Surface, Pergamon. Analytical, numerical and experimental methods of determining stress
2. F.P. Bowden and D. Tabor. Friction and Lubrication of Solids, Oxford intensity factors. Macroscopic theories in crack extension. Mixed mode
University Press. fracture mechanics, fracture mechanics based design and fracture
3. A. Cameron. Principles of Lubrications, Longmans. control plans.
87 88
 Unit-III Text Books/References
Fatigue crack growth. Elastic-plastic fracture- small scale yielding. 1. S.S. Rao. Optimisation-Theory and Applications, Wiley Eastern Ltd.
J-integral. Stationary crack tip fields. J-integral testing.
2. R.L. Fox. Optimisation Methods for Engineering Design, Addison Wesley.
Unit-IV 3. W.I. Zangwill. Non-Linear Programming, A Unified Approach,
Engineering approach to plastic fracture. Ductile fracture criterion. Prentice Hall.
J-controlled crack growth and stability.

Text Books/References
1. D. Broek. Elementary Engineering Fracture Mechanics, Noordhoff.
2. A.P. Parker. The mechanics of fracture and Fatigue, an ME 416 (h) DESIGN FOR FATIGUE AND FRACTURE
Introduction, E. and F.N. Spoon Ltd. London.
Cr. Hrs. 3 (3 + 0)
3. S.T. Rolfe and J.M. Barson. Fracture and Fatigue control in
Structures, Prentice Hall Inc., New Jersy. L T P
Credit 3 0 0
Hours 3 0 0
Unit-I
ME 416 (g) OPTIMIZATION METHODS IN ENGINEERING DESIGN Introduction to fatigue and fracture of machine elements, necessity of
designs based on fatigue and fracture.
Cr. Hrs. 3 (3 + 0) High cycle fatigue and low cycle fatigue, fatigue data representation,
parameters influencing fatigue strength and life, fatigue phenomena,
L T P various stages of fatigue process.
Credit 3 0 0
Hours 3 0 0 Unit-II
Unit-I Designs based on static properties and dynamic properties of materials,
Need for optimisation and historical development. Classification and fatigue design procedures, preventing fatigue failures.
formulation of optimisation problems, classical optimisation methods,
differential calculus, Lagrangian theory, Kuhn Tucker condition. Unit-III
Brittle fractures, modes of fracture, linear elastic fracture mechanics,
Unit-II determination of stress intensity factor, fracture toughness, testing,
Unconstrained minimisation techniques, one dimensional elastic plastic fracture mechanics.
minimisation techniques Fibonnacci, Goldern section and quadratic
interpolation methods. Unit-IV
Unit-III
Design for fracture. Fracture mechanics and fatigue crack propagation.
Multi-dimensional minimisation, Univariate, Conjugate direction, Failure analysis, investigation methods.
gradient and variable metric methods. Constrained minimisation
techniques, penalty function methods, feasible direction and gradient Text Books/References
projection methods. Introduction to geometric programming.
1. L. Sors. Fatigue Design of Machine Components, Pergamon Press.
Unit-IV 2. S. T. Rolfe and J.M. Barsom. Fracture and fatigue Control in
Structures, Prentice Hall.
Linear programming and simplex method. Examples and applications of 3. D. Broek. Elementary Engineering Fracture Mechanics, Noordhoff.
the above methods in the recent engineering design literature. 4. A.F. Madayag. Metal Fatigue- Design and Theory.

89 90
 FOURTH YEAR B.TECH. (VIII SEMESTER) Axial Flow Compressors: Description, principle of operation.
Efficiencies, workdone and torque calculation, velocity triangles. Degree
of reaction. Aerofoil blading, drag and lift coefficients. Performance
Characteristics. Centrifugal v/s axial flow compressors.
ME 421 GAS DYNAMICS AND TURBINES Unit-IV
Cr. Hrs. 3 (3 + 0) Axial Flow Gas Turbines: Impulse and reaction turbines, degree of
reaction, compounding, reheat factor. Efficiencies, workdone and torque
L T P calculation. Velocity triangles.
Credit 3 0 0 Jet and Rocket Propulsion: Ram jet, pulse jet, turbo jet, and turbo prop
Hours 3 0 0 engines. Thrust and efficiencies calculation. Thrust augmentation
methods. Classification of rockets. Description of liquid and solid
Unit-I
propellant rockets.
Elementary Gas Dynamics: Integral equation of conservation of mass,
momentum, and energy as applied to control volumes. One dimensional Text Books/References
flow equation, sonic velocity, Mach number and waves. Isentropic flow 1. P. R. Khajuria and S. P. Dubey. Gas Turbines and Propulsive
of perfect gas, stagnation properties. Isentropic flow through converging Systems, Dhanpat Rai & Sons, New Delhi.
and converging-diverging nozzles, critical pressure, choking, operation 2. M. L. Mathur and F. S. Mehta. Thermal Engineering, (Vol. I & II, SI
under varying pressure ratios. Adiabatic flow with friction in constant Edition), Jain Brothers, New Delhi.
area ducts, Fanno relations. Normal shock, formation of shockwaves, 3. E. Rathakrishnan. Gas Dynamics, PHI.
governing equations.
Unit-II
Gas Turbine Cycles: Carnot cycle, Joule cycle, Sterling cycle, Brayton
cycle, Ericsson cycle, Atkinson cycle. Closed and open cycles. Cycles with ME 422 OPERATIONS RESEARCH
regeneration, heat exchanger, intercooling and reheating. Deviation from
ideal cycle, cycles with multistage compressions, losses in actual cycles. Cr. Hrs. 3 (3 + 0)
Various efficiencies, polytropic efficiency and turbine performance.
Combustion Systems: Types of combustion chambers, combustion L T P
chamber arrangements. Combustion efficiency. Fuel injection systems. Credit 3 0 0
Hours 3 0 0
Unit-III
Positive Displacement Air Compressors: Classification of air Unit-I
compressors. Work done, thermal and volumetric efficiency, effect of Introduction: Characteristics and scope of O.R., formulations of
clearance in reciprocating air compressors. Multistage reciprocating air problem and methodology.
compressors, intercooling. Positive displacement rotary compressors,
Linear Programming: Mathematical formulation of problem, graphical
roots blower, Lysholm, screw type and vane type.
solution. Simplex and revised simplex methods, unrestricted and
Centrifugal Compressors: Euler's equation for rotating machines, bounded variables, degeneracy and cycling, perturbation methods.
general thermodynamic energy analysis. Elementary aerofoil theory. Duality. Sensitivity analysis.
Constructional details, method and theory of operation of centrifugal Unit-II
compressors. Energy transfer, velocity triangles. Slip factor, power input
factor, pressure coefficient, efficiency. Sizing of inducer section, Transportation, allocation, and assignment problems.
prewhirl. Impeller types, effect on performance. Diffuser. Losses in Queuing Theory: Queuing systems and disciplines, arrival and service
compressors, compressor characteristics. Surging and choking. rate distributions, waiting time and queue length for Poisson queues.

91 92
 Unit-III Chassis and Suspension: Loads on the frame, general considerations of
Inventory Models: Elements of costs, lead time, inventory control strength and stiffness, engine mountings, various suspension
techniques, ABC analysis. Economic lot size problems with arrangements, leaf and coil springs, shock absorber.
deterministic demand and supply rate including considerations of Unit-II
shortages and price breaks. Buffer stock, reorder level, and reorder
point. Economic run length. Transmission: Clutches, fluid flywheels, torque converters. Rolling, air
Replacement Problems and Reliability: Economics of replacement, and gradient resistance. Propulsive force required. Determination of
replacement of items that deteriorate with time or that break down overall gear ratio, specific performance.
completely with or without value of money remaining same, group Gear Box: Simple gear box, synchromesh gears, overdrive and flywheel
replacement policy. Introductory concepts of system reliability. transmission efficiency, Universal joints, types, propeller shaft,
differential type of rear and front axles.
Unit-IV
Theory of Games: Two-person zero sum games, saddle point, games Unit-III
without saddle points, dominance property, graphical methods,
formulation of game problem as LPP. Brakes: Servoaction, brake components, Bendix and Gerling system
lock-head, Hydraulic brakes, vacuum land air brakes, retarders.
Simulation: Event type simulation, generation of random phenomena,
Monte Carlo technique, simulation steps, application to queuing problems. Tyres: Pneumatic tyres, static and rolling proportions, effects of camber,
Decision Making: Decision under certainty, under risk, and under tyre characteristic diagram. Radial and tubeless tyres.
uncertainty. Decision trees.

Unit-IV
Text Books/References Steering: Steering geometry, Ackermann and Davis steering
1. Kanti Swarup, P. K. Gupta, and Man Mohan. Operations mechanisms, steering column, worm and worm wheel, cam and lever
Research, Sultan Chand & Sons, New Delhi. steering gears dops and draglink power steering.
2. S.D. Sharma. Operations Research, Kedar Nath Ram Nath & Co. Vehicle Dynamics: Longitudinal stability, dynamic stability, directional
3. H.A. Taha. Operations Research- An Introduction, PHI. stability, stability on a curve, effect of braking on the stability.
4. Hiller & Liberman. Introduction to Operation Research. Holden Day
Inc. San Francisco. Electric Car: General discussions on the suitability of electric car.

Text Books/References

ME 428 AUTOMOBILE ENGINEERING 1. R. B. Gupta. Automobile Engineering, Satya Prakashan, New Delhi.
2. Kirpal Singh. Automobile Engineering.
Cr. Hrs. 3 (3 + 0) 3. C. P. Nakra. Basic Automobile Engineering, Dhanpat Rai & Sons,
New Delhi.
L T P 4. W. H. Crouse. Automotive Mechanics, Tata McGraw Hill.
Credit 3 0 0
5. W. H. Crouse. Automotive Transmission and Power
Hours 3 0 0
Train,McGraw Hill.
Unit-I
6. W. H. Crouse. Automobile Chassis and Body, McGraw Hill.
Power Unit: Engine types, classification, cylinder heads, cylinder head
gasket, piston rings, carburettors, fuel injection equipment. Multi port
fuel injection. Temperature stress in various engine parts. Power and
torque, characteristics of power for specific road performance. Rotary
Engines and fuel cells.
93 94
 ELECTIVE - II ME 423 (b) RELIABILITY AND MAINTENANCE ENGINEERING

Cr. Hrs. 3 (3 + 0)

ME 423 (a) PLASTICITY AND METAL WORKING L T P

Credit 3 0 0
Cr. Hrs. 3 (3 + 0) Hours 3 0 0
Unit-I
L T P Reliability: Meaning, scope and objectives; reliability function and overall
Credit 3 0 0 reliability; Availability and system effectiveness. Statistical concepts for
Hours 3 0 0 reliability: Probability distributions and their use – Normal, Log normal,
Poissons,, exponential, Weibull, gamma & binomial.
Reliability of Systems: Models of reliability – series, parallel, redundant
Unit-I
& Markov model.
Principal stresses and principal axes of stress, mean stress and Unit-II
stress deviator. Failure: Classification, causes, factors influencing failures; Failure data analysis;
VonMises yield criteria, Tresca’s yield criteria. Comparison of yield Failure analysis for design. General principles of design for reliability.
criteria. Introduction to slip line theory and upper bound analysis. Risk Assessment: Definition and measurement of risk - risk analysis
Forging of discs . techniques - risk reduction resources - industrial safety and risk assessment.
Unit-II Reliability Improvement and Simulation: Design and use of simulation
models in reliability; Reliability audits.
Flow through conical converging dies, upper bound and free body
equilibrium approach. Reliability Assessment and Testing: Reliability prediction; Reliability of
mechanical and electrical systems. Reliability testing – requirement,
Unit-III
methods and standards.
Wire and rod drawing and open die extrusion. Tube sinking. Principles Unit-III
of die design. Maintenance: Maintenance information system –objectives and design;
Unit-IV implementation ; Use of computers in maintenance. Objectives and
levels of maintenance
Rolling : Theory of Rolling. Determination of rolling loads and torque.
Maintenance practices: Unplanned & planned; Preventive & scheduled;
Design of rolls and camber. Rolling of strips and plates. Thickness
condition based & reliability centered maintenance; Total Productive
measurement methods.
Maintenance; Maintenance planning and scheduling; Maintainability.

Unit-IV
Text Books/References Organisation for Maintenance: Objectives and functions; types of structures;
1. A. Ghosh and A. K. Mallik. Manufacturing Science. Manpower planning. Materials for maintenance: planning and control.
2. C. K. Singh and Balbir Singh. A Text Book of Production Economic aspects of Maintenance: Life cycle costing; costs associated
Engineering. with maintenance and optimisation. Safety and Environmental aspects
3. P. C. Sharma. A Text Book of Production Engineering, S. Chand of maintenance.
& Co., New Delhi.
4. A. Mendelson. Plasticity.
Text Books/References
1. R.C. Mishra. Reliability and Maintenance Engineering, New Age
International Pub., New Delhi.
2. L.S. Buffa. Modern Production/Operations Management, Wiley
Eastern, New Delhi
95 96
3. L.S. Shrinath. Mechanical Reliability, Affiliated East-West Press P.Ltd. ME 423(d) MANUFACTURING AUTOMATION
4. Modarres. (1993). Reliability and Risk analysis, Mara Dekker Inc.
5. John Davidson. (1988). The Reliability of Mechanical system, Cr. Hrs. 3 (3 + 0)
Institution of Mechanical Engineers, London.
6. Smith C.O. (1976). Introduction to Reliability in Design, McGraw L T P
Hill, London. Credit 3 0 0
Hours 3 0 0

Unit-I
ME 423 (c) ADVANCE JOINING TECHNOLOGY
Product cycle, manufacturing functions. Types of automation, degree of
Cr. Hrs. 3 (3 + 0) automation. Technical, economic and human factors in automation.
Technologies- Mechanical, electrical, hydraulic, pneumatic, electronic,
L T P hybrid systems. Comparative evaluation.
Credit 3 0 0
Hours 3 0 0 Unit-II
Unit-I Development of small automation systems using mechanical devices.
Analysis of heat sources for material joining. Effects of welding parameters basics of pneumatics. Synthesis of circuits. basics of hydraulics
on heat distribution, analysis of flow of heat in weld, heat zones in fusion systems, synthesis of hydraulic circuits, elements used for electrical
welding. Welding metallurgy and heat treatment of welding. circuits, synthesis, circuit optimisation techniques.
Unit-II
Modern welding processes like EBW, LBW, Diffusion bonding, Unit-III
Ultrasonic welding, etc. Brazing, soldering, adhesive bonding and solid
state bonding. Pulsed current welding processes. Illustrative examples of the above types of systems as well as hybrid
Unit-III systems used for automation of working cycles of machines, material
Stresses in welding, weldmet design for pressure vessels, heavy handling, inspection and assembly systems etc.
structures, offshore structures and submarine pipe lines. Welding of
ceremics, plastic and composites. Influence of oxides, slag and fluxes
on welding of ceramics, plastic and composites. Unit-IV
Unit-IV Industrial logic control system. Logic diagraming, Programmable
Inspection and testing of welds, inspection codes of weldmets, failure of controllers, Applications, Designing for automation, Cost-benefit analysis.
welds. Liquid penetrate inspection, magnetic particle inspection, eddy
current, ultrasonic X- ray testing and NDT of welds.
Text Books/References
Texts/References
1. A.N. Gavrilov. Automation and Mechanization of Production
1. M.M. Schwartz: Metal Joining Manual, McGraw Hill, New York. Processes in Instrument Industry, Pergamon Press, Oxford.
2. L. P. Connur: Welding Handbook (Vol. I and II), American
2. G. Pippengam. Industrial Hydraulics, MGH, New York.
Welding Society.
3. P.T. HouldCraft: Welding Process Technology, Cambridge 3. F. Kay. Pneumatics for Industry, The Machining Publ. Co., London.
University Press. 4. Asphal Ray. Robots and Manufacturing Automation,John Wiley,
4. W.J. Paton. The science and practice of welding, Prentice Hall Inc., New York.
New Jersy. 5. G. Boothroyd and C. Poli. Automatic Assemblt, Marcel Dekkar,
5. R.W. Messler. Principles of welding, John Wiley & Sons, New York. New York.
6. Raymonds Sacks. Welding: principles & practices, Chas A. Bennett
Co., Illinois.

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 ME 423(e) TOOL ENGINEERING ME 423 (f) PLANT LAYOUT AND MATERIALS HANDLING

Cr. Hrs. 3 (3 + 0) Cr. Hrs. 3 (3 + 0)

L T P L T P
Credit 3 0 0 Credit 3 0 0
Hours 3 0 0 Hours 3 0 0

Unit-I
Unit-I
Design of Forging and press Working Dies : Tool and die steels,
Site Selection: Factors affecting the site selection. Types of plant layout.
considerations. Design of drop forging dies and upsetting dies press
Process and Product Type Layout: Types of production activities, job
specifications. Design of simple blanking die, progressive die and
shop, mass production similar products and special product
compound die, Standard die sets. Design of drawing dies.
manufacturing.
Unit-II
Unit-II
Design of Metal Cutting Tools: Design of single point cutting tools ,
Factors in Plant Layout: Materials, machinery, man-power, movement,
Analysis of drilling operation and design of twist drills and reamers,
Service building safety, storage and warehouses planning and layout.
Design of a plain milling cutter, Design of a circular broach.
Process planning, material of building, determination of equipment cost.
Unit-III Layout Fundamentals: Getting the facts, flow studies. Proximity cross
charts, flexibility and layout aids-templates, tapes and production
Production of Metal Cutting Tools: Tool materials ; High carbon steel,
method, evaluation of the layout.
High speed steel, Stallite, Tungsten carbide ceramics and borazon, Plan
preparation for cutting tools, Production sequence of a carbide tipped a
single point cutting tool and a twist drill. Heat treatment of cutting tools Unit-III
and improving their cutting properties.
Installing the Layout: Procedure, plant engineering and acceptance.
Unit-IV
Jigs and Fixtures: Principles of Jigs and fixtures design, Principles of Unit-IV
location and clamping, Design of drilling, Jigs and lathe and milling Materials Handling Equipment: Conveyors, cranes, hoists, mobile
fixture, Design of Simple pneumatic Jigs and fixtures. equipment. Positioning equipment, container and support equipment.
Tooling Economics: Analysis of small tool costs, tooling economics in Problem of packing. Cost, size considerations.
combined operations, process cost comparisons.

Text Books/References
Text Books/References 1. G. K. Agarwal. Plant Layout and Material Handling, Jain Brothers,
1. P. C. Pandey and C. K. Singh. Production Engineering Sciences, New Delhi.
Standard Publishers Distributors, Delhi. 2. E. S. Buffa. Modern Production Management, Wiley Eastern.
2. P. C. Sharma. A Text Book of Production Engineering, S. Chand 3. Schmid and Puckett. Method Study, Work Measurement, Plant
& Co., New Delhi. Layout, and Material Handling.
3. G. R. Nagpal. Tool Engineering and Design, Khanna Publishers, 4. S. C. Sharma. Materials Management and Materials Handling,
New Delhi. Khanna Publishers, New Delhi.
5. Francis et. al. Facility Layout and Location: An Analytical
Approach, Prentice Hall of India.

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 ME 423 (g) PRODUCTION MANAGEMENT ME 423 (h) QUALITY CONTROL AND RELIABILITY

Cr. Hrs. 3 (3 + 0) Cr. Hrs. 3 (3 + 0)

L T P L T P
Credit 3 0 0 Credit 3 0 0
Hours 3 0 0 Hours 3 0 0

Unit-I
Unit-I Basic Concepts in Assurance Technology: Terminologies, definitions,
Modelling problems in design, operation and control of production approaches and important issues.
systems. Comparing decision rules, cost for decision. Multiproduct Product Quality Control: Acceptance sampling methods- Single, multiple and
profit volume analysis. Equipment replacement policies. sequential sampling plans. Recent developments in inspection methods.
Unit-II Unit-II
Plant location models, CRAFT layout and its limitations. Application of Process Evaluation and Control by Control Charts: Various control
linear programming in capacity planning, and machines allocation. charts including CUSUM charts and multivariate charts.
Application of congestion analysis to man-machine systems and
material handling systems. Process Evaluation and Control by Design of Experiments: Various basic
designs. Special methods like EVOP, RSM and ROBUST designs.
Unit-III
Unit-III
Search for alternatives in process planning. Balancing assembly lines. Process Capability Studies: Use of control charts, various indices,
Control of in process work inventories. two critical level inventory control. SPAN PLAN method and use of nomographs.
Unit-IV Reliability Engineering: Statistical analysis of life time data and
determination of reliability. Availability and maintainability. Development
Forecasting demands with trends and seasonal variations. Aggregate of applications of fault tree diagrams. Cause and effect diagrams,
planning. Classification and choice of acceptance sampling plans. FMECA and FRACAS.
system simulation. CPM and PERT techniques. Unit-IV
Total Quality Management: Perspective, methodologies and procedures.
Road map to TQM: Quality function deployment, ISO 9000, quality cost
Text Books/References system, KAIZEN, quality circles, quality policy deployment and models for
organisational excellence. Zero error.
1. E.S. Buffa. Modern Production Management, Wiley Eastern.
JIT, Total productivity. Maintenance and quality perspectives.
2. G.K. Groff and J.F. Muth. Operations Management, Selected
Readings, Tarporwala. Text Books/References
3. H. Bierman, W.H. Hausman and C.P. Bonini. Quantitative 1. A.J. Duncan. Quality Control and Industrial Statistics, Richard D.
Analysis for Business Decision. Irwin Inc.
4. S.E. Elmaghraby. Design of Production Systems, Reinhold. 2. A.V. Feigenbaum. Total Quality Control, McGraw Hill International
Editions.
3. S. Halpern. The Assurance Sciences, Prentice Hall India Ltd.,
New Delhi.
4. D.C. Montgomery. Design and analysis of Experiments, John
Wiley & Sons.
5. J.Juran. Quality Control Handbook, McGraw Hill Book Company.

101 102
 ELECTIVE - III ME 424 (b) ADVANCED REFRIGERATION

Cr. Hrs. 3 (3 + 0)
ME 424 (a) NON-CONVENTIONAL ENERGY SOURCES L T P
Credit 3 0 0
Cr. Hrs. 3 (3 + 0)
Hours 3 0 0
L T P Unit-I
Brayton refrigeration cycle, regenerative Brayton refrigeration.
Credit 3 0 0
Martionvsky-Dubinsky cycle, vapour compression cycle.
Hours 3 0 0
Unit-I Unit-II
Conventional and Alternative Energy Sources: Effect on environment of Multistage and cascade, air liquefaction cycles. Exergy approach for
fossil, fuels, nuclear energy and hydroelectric power. Alternative energy energy efficient design of refrigeration systems.
sources- solar, wind, geothermal, tidal and wave, biomass etc.
Wind Energy: Nature and potential, wind mill types, their merits and Unit-III
demerits, design of wind rotors and control systems. Wind farms. Theories and methods of chilling, freezing and freeze dehydration.

Unit-II Unit-IV
Solar Energy: The sun and the earth, spectral distribution of extra Microbiology of foods. Food preservation methods. Design of cold storage.
terrestrial radiations. Solar constant, depiction of solar radiation in the
atmosphere. Solar radiation at the earth surface, sun earth angle, Text Books/References
derived solar angles, solar time measurement and estimation of solar 1. ASHRAE Handbook- Fundamentals.
radiation. Instruments for measurement, radiation properties of gauge 2. J.L. Threlkeld. Thermal Enviromental Engineering, Prentice Hall Inc.
material, transmission of radiation through transparent media.
Collection of Solar Energy: Flat place collection construction, types,
working, material selection, design considerations and testing ME 424 (c) CRYOGENIC ENGINEERING
procedure. Focussing collectors types, concentration tracking
Cr. Hrs. 3 (3 + 0)
mechanism. Application of solar energy- Solar water and air heaters,
L T P
distillation, drying of materials, power generation, cookers, solar
Credit 3 0 0
refrigeration. Photo voltaic technology.
Hours 3 0 0
Unit-I
Unit-III
Historical background and applications. Gas liquefaction systems. Gas
Geothermal Energy: Geological setting, different geothermal systems, separation and gas purification systems.
utilisation of geothermal energy, its economical and environmental
comparison. Brief description of different utilisation techniques for ocean Unit-II
thermal energy, and tidal and wave energy. Cryogenic refrigeration systems. Storage and handling of cryogens.
Cryogenic insulations. Liquified natural gas.
Unit-IV
Biomass: Nature and potential, different bio conversion techniques, Unit-III
production of bio solid, liquid and gaseous fuels. Properties of materials for low temperature. Material of construction and
techniques of fabrication. Instrumentation.
Unit-IV
Text Books/References
Ultra-low temperature techniques. Applications.
1. A. N. Mathur and N. S. Rathore. New and Renewable Energy
Sources, Bohra Ganesh Publishers, Udaipur.
2. G. D. Rao. Non Conventional Energy Sources, Khanna Text Books/References
Publishers, New Delhi. 1. R. Barron. Cryogenic Systems: McGraw Hill.

103 104
 ME 424 (d) AIR CONDITIONING SYSTEM DESIGN Unit-II
Problems leading to system of linear equations. Techniques for solving
Cr. Hrs. 3 (3 + 0) system of linear equation (direct and iterative). Scaling and
nondimensionalisation.
L T P Unit-III
Credit 3 0 0 Linear and nonlinear regression techniques to correlate experimental
Hours 3 0 0 data. Numerical integration, calculation of shape factor.

Unit-I Unit-IV
Thermal and fluid problems leading to ODE. Initial, boundary and
Load Estimating: Comfort conditions, weather data, solar heat gain,
eigenvalue problems. Solutions of ODE using marching and finite
cooling and heating loads.
difference methods. Characterisation of partial differential equation,
Unit-II
numerical solutions of elliptic, parabolic and hyperbolic equations
Airconditioning Systems: Central and unitary systems, duct design and encountered in heat transfer and fluid flow.
fan selection, heating and cooling coil design.
Unit-III
Text Books/References
Cooling tower design and selection, air cleaners and scrubbers, hydonic 1. T. Cebeci and P. Bradshaw. Physical and Computational Aspects
heating and cooling systems, humidification and dehumidification of convective Heat Transfer, Springer-Verlag.
equipment, automatic control, noise reduction. Selection of materials.
2.. T. Cebeci and P. Bradshaw. Momentum Transfer in Boundary
Unit-IV Layers, McGraw Hill.
Energy conservation and airconditioning for special applications: Waste 3. S.V. Patanker. Numerical Heat Transfer and Fluid Flow, McGraw Hill.
heat, recovery, cogeneration of power and refrigeration, industrial 4. C. Hirsch. Numerical Computation of Internal and External Flows
airconditioning, textile processing, clean spaces. (Vols. 1 & 2), John Wiley & Sons.
5. C.A.J. Fletcher. Computational Techniques for Fluid Dynamics
Text Books/References (Vols. 1 & 2), Springer Verlag.
1. ASHRAE Handbook- Fundamentals.
2. ASHRAE Handbook: HVAC Systems and Equipment.

ME 424 (f) THEORY AND DESIGN OF FLUID MACHINERY

ME 424 (e) COMPUTATIONAL METHODS IN THERMAL AND Cr. Hrs. 3 (3 + 0)
FLUID ENGINEERING
L T P
Cr. Hrs. 3 (3 + 0) Credit 3 0 0
Hours 3 0 0
L T P
Credit 3 0 0 Unit-I
Hours 3 0 0 General Classification: Equations of work transfer for rotodynamic type
machinery. Operation, performance and similarity laws of rotodynamic
Unit-I type pumps, fan, blower and compressor. Cavitation in pumps.
Review of conservation equations, lumped parameter approach leading
to non-linear equations, numerical solutions of non-linear equation. Unit-II
Concept of round off error, overflow, propagation of error. Hydraulic design of centrifugal type pump and blower.

105 106
 Unit-III Unit-II
Positive Displacement type and Jet Pump Type machinery: Impulse Farm Machinery: Introduction to various farm operations. Implement
type and reaction type hydroturbines; operation, performance, similarity types, introduction to field capacity and efficiency and simple numerical
laws, governing, runaway speed. problems. Tillage objectives, primary tillage implements, desi ploughs,
mould board plough and disc plough. Secondary tillage implements –
Unit-IV disc and drag harrows.
Unit-III
Hydraulic design of impulse type and radial flow type hydroturbines.
Crop Planting equipment: Seed cum fertiliser drill, crop planters.
Calibration of seed drills and planters, numerical problems on seed drills
Text Books/References and planters. Equipment for intercultural operations.
1. S. Nagaratnam. Fluid Machines and Systems, Tata McGraw Hill Plant Protection Equipment: Sprayers : Types and construction.
Publishing Co. Dusters – types and construction. Atomising devices, factors affecting
2. V.M. Cherkassky. Pumps, Fans, Compressors, MIR Publishers. performance, calibration and numerical problems on calibration,
3. J. Matley. Fluid Movers: Pumps, Compressors, Fans and Blowers, Unit-IV
McGraw Hill Publication.
Harvesting Equipment: Principle of cutting. Mowers – types of
4. G.I. Krivchenko. Hydraulic Machines: Turbines and Pumps,
mowers, cutter bar. Mower parts, rotary mowers, construction, operation
MIR publishers.
and adjustments.
Grain Harvesting: Types and different functional units if combine,
operation, adjustment, different losses and numerical problems on losses.
Threshing: Principles of threshing, types, brief description and operation
of threshing mechanism, effect of various parameters of thresher on
ME 424 (g) TRACTORS AND AGRICULTURAL MACHINERY threshing operation, losses and numerical problems.

Cr. Hrs. 3 (3 + 0) Text Books/References

1. B. J. Lilijedahl, P.K. Turnquist, W. D. Smith and Hoki Vaketo.
L T P Tractors and their power units. John Wiley & Sons, New York.
Credit 3 0 0
Hours 3 0 0 2. F.R. Jones. Farm gas engines and tractors, MacGraw Hll Book
Co., New York.
Unit-I 3. Rai and Jain. Farm Tractor and repair.
Farm Tractors: Classification of Tractors, status of tractor and power 4. R. Bainer, E.L. Barger and R.A. Kepner. Principles of Farm
tiller industry in India. Introduction to tractor systems. Electrical system – Machinery. John Wiley & Sons, New York.
battery, starting systems and charging system. Differential, final drive 5. D. Hunt. Farm power and machinery management, Iowa State
and power take off. Hydraulic system of tractor, automatic position and University Press.
draft control system. Hitch types and standards. 6. H.P. Smith. Farm machinery and equipment, TMH Publishing
Co. Ltd., New Delhi.
Mechanics of tractor chassis, weight transfer, weight distribution and
stability, grade and non-parallel pull, turning at high speed, centre of 7. H. Singh and O.S. Bindra. Pesticides and application equipment,
Oxford & IBM Publishing Co.
gravity determination and numerical problems.
8. FAO Bulletin. (1977). Elements of agricultural machinery,
Traction: Traction mechanics and performance of traction devices. Tyre Vol. I and II.
classification, traction aids and numerical problems.

107 108