Bollard Pull Testing – MM001

Course Objective
The main objective of this training course is to familiarize the participant with the principles of thrust and bollard pull generation mechanisms, or the
characteristics of different tug types, . Finally illustrating how the vessel towing force and bollard pull are measured and the requirement necessary for such
tests
Participants
Ship Builders, Marine Surveyors,Ship Operators,Marine Consultants,Marine Superintendent,Marine Construction Engineers,Engineer Superintendent ,Chief
Engineers and Masters, Ship Engineers
Prerequisite
None
Learning Outcomes
• Assess the upper limit for a Bollard pull force
• Calculate the actual bollard force and the associated figure of merits or effectiveness
• Preparation and conducting a bollard pull test
Course Contents
 Definitions and Symbols  Static thrust (Bollard Pull) Ideal static thrust, Figure of Merit.
 Ship types  Factors affecting Bollard Pull (Hull lines Configurations, Propeller
 Ships which can provide “pull” or ships which can pull other ships immersion, Propeller Diameter , Nozzles or ducts arrangements,
(Conventional Tugs, Stern drive Tugs, Tractor Tugs, Work boats, AHTS) Propeller blade area, Propeller pitch, propulsion engine).
 Thrust generation principle (Axial Momentum theory, Axial  Bollard Pull Estimating Methods (Simulation Methods, Simulation
Momentum theory with swirl, Propeller efficiency, Propeller Methods, Bollard Pull trial measurements)
Geometry, Blade element theory, Combined momentum blade  Bollard pull test (Trial Site and Vessel Requirements,
element theory) Environmental Conditions (Wind Speed, Current), Trial Procedures
 Thrust producing devices (Human powered devices, Nature powered Preparations
devices, Machine driven propulsors)

Course Duration
5 days.
 Deepwater Riser Engineering – MM002

Course Objective
The course provides an overview of marine risers focusing on deepwater application from material selection to offshore installation.
Participants
The participants are newly qualified riser engineers (designers and analysts), experienced riser project engineers who want to expand their knowledge, Sub-
project managers (of subsea contractors including risers) and subsea supervisors / manager
Prerequisite
Background knowledge in pipeline or riser engineers and industry professionals who interface with riser engineering.
pipeline or riser engineers with 1-5 years of experience and industry professionals who interface with riser engineering.
 To provide a basic understanding of the key elements of riser engineering and the riser design process
 Be aware of key decision drivers associated with riser concept selection
 Understand the design process associated with each riser type
 Have a basic understanding of the theory of hydrodynamic and metocean loads that drive riser design
 Understand the technology limits of different riser concepts, whether water depth, vessel, temperature, pressure, fluid or other limits.
 Interface with riser designers with an understanding of their role in subsea design
Course Contents
 Overview • Hybrid riser analysis and design methods
 Fundamentals of riser engineering • TTR component design
 Design codes and regulations • Flexible riser analysis and design methods
 Top tensioned risers  Umbilicals
 Hybrid riser systems • SCR analysis and design methods
 Steel catenary risers • SCR component design
 Flexible risers • Materials selection
 Drilling risers • Fabrication, welding, and NDE
• Riser design methods overview • Installation design
• Riser system analytical tools • Group design exercise - interactive
• Functional requirements and design drivers • Deepwater riser projects and lessons learned
• Design basis development • Project histories (from invited operator representatives)
• TTR analysis and design methods
Course Duration
4 days
 Dry Docking & Underwater Repairs – MM003

Course Objective
The main objective of this training course is to learn the features and technical procedures for both the dry docking and underwater repairs in the light of IACS
members’ requirements.

Participants
The participants are dry dock engineers, Underwater Inspectors, Marine Superintendent, Engineer Superintendent, Marine Surveyors, Marine Consultants,
Chief Engineers and Masters.

Prerequisite
Background knowledge in ship construction.

Learning Outcomes
 Dry Docking Contract  Dry Docking Routine Work
 Docking/Undocking Procedures  Safety Aspects in Dry Docking
 Dry Docking Planning  Underwater Inspection Survey Program
 Dry Docking Operation
Course Contents
 Introduction to Dry Docking  Dry Docking Class Requirements (Machinery)
 Dry Docking Preparation & Readiness  Safety Aspects in Dry Docking
 Docking Evolution  Underwater Survey Inspection Procedure
 Undocking Evolution  Class Requirements for Underwater Inspection
 Dry Docking Class Requirements (Hull)  Wrap up ( Feedback/ Inquiries/Exam)

Course Duration
3 days
 Efficient Operation of Marine Diesel Engines- MM004

Course Objective
The main objective of this training course is to learn the features and technical procedures for both the diesel engine operation and major troubleshooting.
The objective of the course is to know how operate the engine efficiently.

Participants
The participants are machinery maintenance engineers, Diesel Engine operators, Marine Superintendent, Engineer Superintendent, Marine Surveyors, Marine
Consultants, Chief Engineers and Masters.

Prerequisite
Background knowledge of marine diesel engines and systems.

Learning Outcomes
 Recognize the engine troubleshooting  Engine performance calculation Procedures
 Plain and set the engine overhauls program  Periodical maintenance Routine Work
 Engine maintenance and repair Contract  Safety Aspects in engine operation and maintenance
 Monitor the engine condition and carrying on the energy balance  Install the auxiliary equipment and service systems
sheet
Course Contents
 Introduction to Diesel engine  Fuel injection systems
 Engine Performance Calculations  Starting air and cooling systems
 Diesel engine components and equipments  Scavenging and air charging systems
 Diesel engine supporting systems  Engine troubleshooting
 Fuel oil system and lubricating oil system  Engine maintenance and overhauls program

Course Duration
3 days
 Hull & Structural Survey – MM005

Course Objective
The main objective of this training course is to learn the features and technical procedures for both hull and structural survey in the light of IACS members’
requirements.

Participants
The participants are dry dock engineers, Marine Superintendent, Engineer Superintendent, Marine Surveyors, Marine Consultants, Chief Engineers and
Masters.

Prerequisite
Background knowledge of ship construction.

Learning Outcomes
 Ship types and features  Typical constructions for Bulk Carrier, Container, Ro-Ro, Tankers, etc.
 Shipyard technology and contracting.  Survey Planning and Execution
 Forces acting on ship in still water, during crossing sea water, and  Safety Aspects in Conducting Surveys
maneuvering operations.  Practical examples for selective Structural Failures and the
 Fore, Aft ends & Midship Construction corresponding repairs.

Course Contents
 Ship Types and Features  Typical Constructions for some Ships
 Shipbuilding Technology  Guidelines for Surveys Assessment (Part-A)
 Forces on Ships  Guidelines for Surveys Assessment (Part-B)
 Ship Construction (Part-A)  Structural Failure & Repairs
 Ship Construction (Part-B)  Wrap up ( Feedback/ Inquiries/Exam)

Course Duration
3 days
 Introduction to Quality Systems – MM006

Course Objective
The main objective of this training course is to enable participants to develop, implement, and prepare a Quality Management System (QMS) for certification
using process mapping and computer technology to improve the effectiveness and reduce the ongoing cost of maintaining the QMS.
Participants
It is intended to apply to a broad range of potential users, including auditors, organizations implementing quality and/or environmental management
systems, organizations needing to conduct audits of quality and/or environmental management systems for contractual reasons, and organizations involved
in auditor certification or training, in certification/registration of management systems, in accreditation or in standardization in the area of conformity
assessment.
Prerequisite
None
Learning Outcomes
Students will learn:
 How to create effective, user friendly process documentation that conforms to the requirements of QMS.
 How to develop a structured, modularized documentation system focused on business functions
 How to maximize the effectiveness of process documentation through the use of integrated Flowchart Documentation techniques
 How to construct and implement a Quality Management System that satisfies all of the requirements of the Quality System.
Course Contents
 Introduction o Management style o Inspection and testing
 Scope of application  Quality system requirements o Inspection, measuring and test
 Field of application o Management responsibilities equipment
 References o Quality system o Inspection and test status
 Definitions o Contract review o Control of nonconforming product
o Concept of quality o Document control o Corrective action
o Need for quality o Purchasing o Handling, storage, packaging and
o Quality management (QM) o Purchaser supplied product delivery
o Quality Assurance (QA) o Product identification and o Quality records
o Total Quality traceability o Internal quality audits
o Process control o Training
o Statistical techniques
Course Duration
 Basic : One day  Advanced Two days
 International Ship & Port Facility Security
Code-Basic Course – MM007

Course Objective
This course provides a regulatory overview of maritime security requirements applicable to ship, company, and port facility security officers.

Participants
Ship owners and managers; liner and passenger company personnel; crew interested in extending their career in a new direction, Officers seeking a deeper
understanding of security issues at a ship or company level, Professionals from associated or supporting sectors including P & I clubs, law firms, class
societies, law enforcement agencies, security firms and government or regulatory bodies.

Prerequisite

Background knowledge in Shipping world & trade is recommended, but not Mandatory for this course.

Learning Outcomes
 Conduct an initial comprehensive security survey, and advise levels of  Ensure adequate training has been provided to personnel.
threat.  Ensure security equipment is properly operated, tested, and
 Ensure development and maintenance of the Security Plan. calibrated.
 Undertake regular security inspections and arrange for internal audits.  Ensure company response measures meet the security level.
 Enhance security awareness and vigilance of personnel.  Ensure that administration requirements are met for approval of
assessments, plans, and amendments.

Course Contents
 Overview of ISPS Code, Parts A and B  Knowledge of current security threats and patterns
 Security assessment  Recognition of security threatening
 Security plans  security Techniques & Security equipment and systems
 Duties and responsibilities of SSO/CSO/PFSO & Security administration
 Methods of physical searches and non-intrusive inspections
 Techniques for security training
 Security drills and exercises
 Handling sensitive security-related information and communications
 Security program implementation

Course Duration

3 days
 International Ship & Port Facility Security Code-
Advanced Course – MM008
Course Objective
This course provides a regulatory overview of maritime security requirements applicable to ship, company, and port facility security officers, Its main
objective is to present state of- the-art information, techniques, and tools for the ongoing development and implementation of effective and compliant
maritime security programs.
Participants
Ship owners and managers; liner and passenger company personnel; crew interested in extending their career in a new direction, Officers seeking a deeper
understanding of security issues at a ship or company level, Professionals from associated or supporting sectors including P & I clubs, law firms, class
societies, law enforcement agencies, security firms and government or regulatory bodies.
Prerequisite
Background knowledge in Shipping world & trade is recommended, but not Mandatory for this course.
Learning Outcomes
 Conduct an initial comprehensive security survey, and advise  Ensure adequate training has been provided to personnel.
levels of threat.  Ensure security equipment is properly operated, tested, and calibrated.
 Ensure development and maintenance of the Security Plan.  Ensure company response measures meet the security level.
 Undertake regular security inspections and arrange for internal  Ensure that administration requirements are met for approval of
audits. assessments, plans, and amendments.
 Enhance security awareness and vigilance of personnel.
Course Contents
 Knowledge of Current Security Threats and Patterns
 Introduction and Regulatory Requirements (IMO & SOLAS)
 Recognition and Detection of Weapons, Dangerous Substances and
 Risk Management Basis for Maritime Security
Devices
 Security Assessments
 Recognition of security threatening
 Security Plans (Port, Port Facility, Company and Ship Plans)
 Security Training  Techniques Used to Circumvent Security Measures
 Security Training Topics (per SecƟons 13 and 18 of the ISPS Code,  Security Equipment and Systems and Their Operational Limitations
Part B)  Methods of Physical Searches and Nonintrusive Inspections
 Handling Sensitive Security-Related Information and Security-  Security Drills and Exercises, Including Assessments
Related Communications  Security Program Implementation and Internal Audit Programs
Course Duration
5 days
 Shipyard Business Development – MM009

Course Objective
The main objective of this training course is to familiarize the participant with the principles of shipyard layouts, different department and product flow within
the different sections in such a way to be effective and economic. Safety aspects within shipyards are also addressed.

Participants
The participants are Ship Builders, Marine Surveyors, Ship Operators, Marine Consultants, Marine Superintendent, Marine Construction Engineers, Engineer
Superintendent, Chief Engineers and Masters and Ship Engineers.

Prerequisite
Background knowledge in Shipping/Shipyard in Business Development or Marketing or Sales will be an added advantage.
At least some technical knowledge about the products for Shipping/Shipyard

Learning Outcomes
 Understand the different shipyard activities that contribute to final end product.
 Know the different standards for achieving health and safety
 Figure out methods of raising up the competitiveness level within an existing shipyard
 Properly manage efficient work flow within a production/repair line

Course Contents
 Introduction to shipyards.  Operational systems, Quality assurance.
 Shipyard layout, Stockyard.  Shipyard Competitiveness upgrade.
 Metal preparation.  Management and business development.
 Assembly and subassembly, Erection.
 Case study.
 Installation and outfitting.
Course Duration
3 days
 Maintenance and Repair of Diesel Fuel
Injection Systems – MM010

Course Objective
The main objective of this training course is to learn the steps and technical procedures to monitor and control the fuel injection components. The
maintenance procedures and the required test to achieve the best performance is an objective.

Participants
The participants are machinery maintenance engineers, Diesel Engine operators, Marine Superintendent, Engineer Superintendent, Marine Surveyors, Marine
Consultants, Chief Engineers and Masters, Marine and mechanical engineers.

Prerequisite
Background knowledge in Basic marine engine design and components.

Learning Outcomes
 Recognize the components of fuel injection systems  Effect of fuel injection system on Engine performance
 Recognize the engine fuel system troubleshooting  Test and measurements required for fuel injection Routine Work
 Plain and set the engine injection system overhauls program  Safety Aspects in fuel injection and engine operation
 Engine maintenance and repair Contract  Install and repair of fuel pump and injector
 Monitor the fuel injection system condition
Course Contents
 Introduction to Diesel fuel injection system  Test of injector and plunger
 Injection system and environmental impact  Maintenance, Replacement and change of fuel injection components
 Fuel injector and nozzles  Fuel preparation and treatment
 Fuel metering and control systems  Troubleshooting of fuel injection system
 Fuel pump and plunger  Monitoring and inspection of fuel injection system

Course Duration
3 days
 Maintenance and repair of marine units – MM011

Course Objective
The main objective of this training course is to learn the steps and technical procedures to maintain and repair the ships. The training course is covering the
docking procedures for most of the marine units.

Participants
The participants are ship builders, ship engineers, shipyard operators, Marine Superintendent, Engineer Superintendent, Marine Surveyors, Marine
Consultants, Marine construction engineers, Chief Engineers and Masters

Prerequisite
Background knowledge in General experience in Basic marine engine design and components.

Learning Outcomes
 Recognize the defect and damage of ship hull  Test and measurements required to check the ship hull
 Recognize the different docking methods  Recognize the ship yard facilities.
 Plain and set the ship hull maintenance and repair processes  Calculate the material, cost and arrange the work steps
 Plain and set the ship hull maintenance and repair Contract
Course Contents
 Introduction to ship building  Repairing tools and facilities
 Shipyard arrangement and facilities  Machining, cutting and welding procedures
 Types of ship damage and defect  Hull surface preparation and painting processes
 Ship hull repair and maintenance  Hull inspection tools and measurements
 Mechanical repair and maintenance  Docking and lunching calculations

Course Duration
3 days
 Maintenance of Offshore Systems – MM012

Course Objective
The main objective of this training course is to equip the participant with the necessary skills required for planning , performing and supervising maintenance
programs for offshore structures and subsea systems.

Participants
Offshore Design Engineers, Offshore construction and Maintenance engineers, Technical managers.

Prerequisite
Background knowledge in offshore systems.

Learning Outcomes
 Upon completing this course the participant should be able to:
 Assess offshore structure status regards aging and deterioration
 Device different maintenance strategies
 Plan maintenance schemes required for different parts of offshore structure
 Select the proper tools and instrument necessary for examining and surveying subsea systems and pipelines.

Course Contents
 Deterioration of offshore structures.
 Fabrication and installation stages, in-service stage.
 Maintenance strategies and types, underwater work systems.
 Tools, instruments, divers, underwater vehicles.
 Maintenance of jacket structures.
 Maintenance of the topside structures,
 Topside facilities and equipment,
 Maintenance of subsea systems and pipelines.

Course Duration
5 days
 Marine Vehicle Stability Assessment:
Basic Concepts – MM013
Course Objective
The main objective of this training course is to familiarize the participant with the different hydrostatic particulars of floating bodies. Both intact and damage
stability parameters as pertaining to marine vehicles are also addressed. Finally, the criteria and governing regulations used to assess the vessel’s stability in
both intact and damage modes are illustrated through typical example cases.
Participants
Ship Builders, Marine Surveyors, Chief Engineers and Masters,Ship Operators ,Ship Engineers - Engineer Superintendent, Marine Superintendent, Marine
Construction Engineers
Prerequisite
B.Sc. of Marine Engineering.
Learning Outcomes
 understand the basic principle of floatation, trim and stability  Interprete stability diagram and
 understand the conditions for complying with stability requirements deduce vehicle stability
Course Contents
 Introduction and basic definition, Forces and moments, Centroids  Dynamical stability, Effect of beam and freeboard on stability, Angle of
and the centre of gravity, Laws of floatation , Effect of density on loll, True mean draft, The inclining experiment, Effect of trim on tank
draft and displacement soundings.
 Transverse statical stability, Effect of free surface of liquids on  Drydocking and grounding , Second moments of areas, Liquid pressure
stability, TPC and displacement curves, Form coefficients, Numerical and thrust. Centres of pressure, Ship squat, Heel due to turning.
Integration Rules for areas and centroids. Forces on Ships  List due to bilging side compartments, The Deadweight Scale, Effect of
 Final KG , Calculating KB, BM and metacentric diagrams, List, change of density on draft and trim, List with zero metacentric height
Moments of statical stability, Trim, Stability and hydrostatic curves  The Trim and Stability book , Bending of beams, Bending of ships,
 Increase in draft due to list, Water pressure, Combined list and trim, Strength curves for ships, Bending and shear stresses, Simplified
Calculating the effect of free surface of liquids (FSE), Bilging and stability information
permeability  Intact and damage stability criteria, IMO Resolution.

Course Duration

5 days.
 Marine Vehicle Stability Assessment:
Computer Simulations – MM014
Course Objective
The main objective of this training course is to familiarize the participant with the usage of different computer packages to carry out ship stability calculations.
The course also aims at acquiring the participant the skills required to produce professional trim and stability booklet for typical vessels under different
loading conditions

Participants
Ship Builders, Marine Surveyors,Ship Operators,Marine Consultants,Marine Superintendent,Marine Construction Engineers,Engineer Superintendent -Chief
Engineers and Masters, Ship Engineers

Prerequisite
B.Sc. of Marine Engineering.
Learning Outcomes
 Model a vessel outside geometry through interactive and/or interactive mode
 Model vessel’s interior spaces, tanks, etc through interactive and/or interactive mode
 Perform complete hydrostatic, cross curves of stabilty
 Prepare different loading condition
 Assess stability in both intact and damage condition
Course Contents
 Introduction to using computers in stability calculations  Stability Criteria, Stability Report Exercise* and computer applications
 Commercial Software Packages in Naval Architecture Exercises selected from real and actual applications. These include (but
 Hull Model Making Module, Geometrical File, Hull data, not limited to): Float-over (during topside installation), load-out and
Command file, Table of offset transportation of the structure parts (decks, jackets, etc.) on the barge,
 Auto hydro Module, Interactive and Run files modes addition of permanent weights on the barge (intact & damage).
 Hydrostatic Particulars, Cross curves of stability, Maximum
Vertical Center of Gravity, Loading Conditions
Course Duration
5 days
 Maritime Security-Basic Course – MM015

Course Objective
The main objective of this course is to familiarize the participant with the principles of Maritime Security Regulatory Frameworks, Systems & response
Management, it’s Considered as an introduction to the real world of shipping and the many aspects that must be factored into a shipping line and ship's
security.

Participants
Ship owners and managers; liner and passenger company personnel; crew interested in extending their career in a new direction, Officers seeking a deeper
understanding of security issues at a ship or company level, Professionals from associated or supporting sectors including P & I clubs, law firms, class
societies, law enforcement agencies, security firms and government or regulatory bodies.

Prerequisite

Background knowledge in Shipping world & trade is recommended, but not Mandatory for this course.

Learning Outcomes
 Understand the Importance & magnificence of Security in maritime World.
 Know the different standards for achieving the minimum Security of shipping.
 To be Familiar with security systems & plans.
 To be able to Properly Asses Security Onboard & in port.
 To know how to respond to security threats & to Asses different emergency Situations.

Course Contents
 Maritime Regulatory Frameworks  Piracy and Terrorism
 Key Legal Concepts  Threat Assessment and Risk Mitigation
 Security Systems, Plans and Personnel  Response, Management and Follow Up

Course Duration

3 days
 Maritime Security-Advanced Course – MM016

Course Objective
The main objective of this course is to familiarize the participant with the principles of Maritime Security Regulatory Frameworks, Systems & response
Management, it’s Considered as an introduction to the real world of shipping and the many aspects that must be factored into a shipping line and ship's
security.

Participants
Ship owners and managers; liner and passenger company personnel; crew interested in extending their career in a new direction, Officers seeking a deeper
understanding of security issues at a ship or company level, Professionals from associated or supporting sectors including P & I clubs, law firms, class
societies, law enforcement agencies, security firms and government or regulatory bodies.

Prerequisite

Background knowledge in Shipping world & trade is recommended, but not Mandatory for this course .

Learning Outcomes
 Understand the Importance & magnificence of Security in maritime World.
 Know the different standards for achieving the minimum Security of shipping.
 To be Familiar with security systems & plans.
 To be able to Properly Asses Security Onboard & in port.
 To know how to respond to security threats & to Asses different emergency Situations.

Course Contents
 Maritime Regulatory Frameworks  Emergency preparedness, drills and exercises
 Introduction to the main threats to shipping  Piracy and Terrorism
 Key Legal Concepts  Threat Assessment and Risk Mitigation
 Security Systems & Plans  Response, Management and Follow Up
 Security Personnel & responsibilities  Security Report writing

Course Duration
5 days
 ILO MariƟme Labor ConvenƟon 2006 (MLC)-Basic Course –
MM017
Course Objective
To provide useful insight to all those involved in the implementation of the Maritime Labor Convention for all day to day operational aspects with respect to
the subject .

Participants
HR Managers, Ship Owners, Ship Masters, Manning Agents, Ship’s Masters, Ship’s Officers, Superintendents and Office Support Staff, Flag and Port State
Officials, Welfare Organization Officials, Maritime Labor Organization Officials & all Those concerned with the rights and responsibilities of seafarers.

Prerequisite

Background knowledge in Shipping world & trade is recommended, but not Mandatory for this course.

Learning Outcomes
 Understand the context in which the frameworks of regulations, responsibilities and activities, set by the MLC, have been established.
 Know the content of the MLC.
 Be able to describe the role and responsibilities of shipowners, ship managers, ships’ masters, ships’ officers, flag and port state officials, and welfare
organizations.
 Determine the steps you must take to ensure compliance.
 Understand how to play your part in achieving compliance.
 Be able to describe and put into practice the various elements of MLC management aboard and ashore.
 Have demonstrated your knowledge and understanding.

Course Contents
 practical guidance on how to undertake an inspection relating to
 Discussion on the content of the convention and its implementation
maritime labor issues
onboard
 Port State Control procedures
 Description of operational requirements
 preparing for an MLC, 2006 inspecƟon
 Reviewing DMLC (Part I and Part II) in relaƟon to the MLC, 2006
requirements
 introduction to dealing with seafarers complaints
Course Duration
3 days
 ILO MariƟme Labor ConvenƟon 2006 (MLC)-Advanced Course
– MM018
Course Objective
To provide useful insight to all those involved in the implementation of the Maritime Labor Convention for all day to day operational aspects with respect to
the subject & To provide in Depth Training for those responsible for implementing MLC.

Participants
HR Managers, Ship Owners, Ship Masters, Manning Agents, Ship’s Masters, Ship’s Officers, Superintendents and Office Support Staff, Flag and Port State
Officials, Welfare Organization Officials, Maritime Labor Organization Officials & all Those concerned with the rights and responsibilities of seafarers.

Prerequisite

Background knowledge in Shipping world & trade is recommended, but not Mandatory for this course.

Learning Outcomes
 Understand the context in which the frameworks of regulations, responsibilities and activities, set by the MLC, have been established.
 Know the content of the MLC.
 Be able to describe the role and responsibilities of shipowners, ship managers, ships’ masters, ships’ officers, flag and port state officials, and welfare
organizations.
 Determine the steps you must take to ensure compliance.
 Understand how to play your part in achieving compliance.
 Be able to describe and put into practice the various elements of MLC management aboard and ashore.
 Have demonstrated your knowledge and understanding.

Course Contents
 Links with existing regulations
 Background to MLC requirements
 Implementation issues
 Application of the ILO MLC
 Best Management Practices
 Detailed description of operational requirements
 Dealing with seafarers complaints
 Reviewing DMLC (Part I and Part II) in relaƟon to the MLC, 2006
requirements  Port State Control procedures
 Flag State Responsibilities  preparing for an MLC, 2006 inspecƟon

Course Duration
5 days
 ASSET INTEGRITY MANAGEMENT RISK
BASED INSPECTION – MM019
Course Objective
Risk Based Integrity Process is The evaluation of risk is fundamental to the process of assuring asset integrity. Even within prescriptive regulatory regimes it is
unusual to find that no leeway exists enabling professional engineers to asses, either qualitatively or quantitatively the most appropriate means and
timescale for intervention and control on the basis of risk.
Participants
The participants are Maintenance superintendents/supervisors, Maintenance, Reliability and Plant Engineers and Senior Inspectors who are managing or
planning to implement an RBI program in the hydrocarbon processing industry, chemical , fertilizer and pulp and paper industry and HSE personnel
Prerequisite
None
Learning Outcomes
 Understand the RBI process  Understand some of the key technical issues involved in RBI studies
 Understand how to establish a RBI program within your business  Understand the benefits of RBI
Course Contents
 LEVEL I  Level II  Assessment of Likelihood of Failure.
 Risk assessment And Integrity Management.  Inspection Plan Development
 1 IntroducƟon General
 Integrity Management Process & Methods.  Degradation Mechanisms and Inspection Methods
  Purposes
Management Systems  Scope of Inspection (Sample Population Size, Location and
 Compliance Requirements  Scope Extent of Inspection)
 Risk assessment analysis  Definitions  Frequency of Inspection
 Inspection Management  2 Fundamentals of RBI
 Inspection Execution
 and Risk Based Inspection (RBI)  Definition of RBI
 Analysis of Inspection Results
 Corrosion Management  Risk Assessment and Inspection.
 RBI Program Updating
 Information Management  The RBI Process  3 In Service Maintenance and UpdaƟng of RBI Plan
 Health Safety Environment  RBI Benefits.  Annual Confirmation Survey of RBI Program
 RBI Limitations.  Review of Plan Updates
 Risk-Based Prioritization.  Case Study
 The Risk Assessment Methodology.
Course Duration
2 days
 Subsea Pipeline Engineering – MM020

Course Objective
The course will provide a complete and up-to-date overview of the area of subsea pipeline engineering, taking delegates through the pre-design phase,
design, construction, installation, operation and maintenance. It will give a complete picture of the work of design engineers and pipeline construction
companies, using actual case studies from around the world to highlight the topics discussed.

Participants
The participants are engineers from oil and gas companies, construction companies, pipe and service suppliers, and regulatory authorities, who are newly
qualified, have recently moved into pipeline engineering, or hold broad responsibilities that include pipelines.
Prerequisite
None

Learning Outcomes
 Identify and critically review key features, advantages and limitations of rigid pipe, flexible pipe and bundles. Apply knowledge of their fabrication and
installation to select appropriate materials, installation methods and subsea protection.
 Plan for successful pipeline installation, pre-commissioning and de-commissioning, specifying all appropriate activities and identifying relevant risks or
design considerations.
 Perform and evaluate all stability and structural calculations that may be required during installation, repair, abandonment or decommissioning
works, based on appropriate design codes.

Course Contents
 System configuration & Route selection.  Mishaps, risk, and repair.
 Shore approaches  Case study: Design exercise.
 Materials selection  Construction
 Hydraulics and flow assurance  Spans.
 Design for strength  Welding
 Case study: Internal corrosion  Decommissioning.
 Environmental design criteria.
Course Duration
5 days
 Subsea Production Systems Engineering – MM021

Course Objective
This course provides an overview of the key processes, technologies and equipment that comprise contemporary subsea production developments. It also
provides experienced-based details of actual projects, from the drilling of the well to bringing the system into production.
Participants
The participants are project managers who want to know more about the technology they are directing, Project engineers who specialize in a specific area,
but need to know about how other technologies interface with their own, engineers from other disciplines who are moving into the subsea area, newly
qualified engineers who just coming into the offshore industry.
Prerequisite
None
Learning Outcomes
 Gain a complete overview of subsea production equipment and systems.
 Understand how subsea systems are designed, installed and operated.
 Discover the technology and processes involved in subsea engineering.
 Examine the production equipment that is placed on the seabed.
 Analyze the connections between the well and the above sea surface production hosts.
 Explore subsea engineering solutions used with fixed platforms or floating production facilities.
 Consider current developments and issues shaping subsea production around the world.
Course Contents
 Concept selection interfaces: the keys to an integrated subsea system  Reservoir, bathymetry, and geohazard considerations
 Various perspectives on the “system”  Flow assurance considerations
 The components of a subsea production system  Host facility, mooring, and metocean drivers
 Production system compatibility  Flowlines and risers
 Management of interfaces  Equipment selection - trees and jumper systems
 Field development options  Equipment selection - controls and umbilicals
 Economic and risk variations  High pressure and temperature (HP/HT) designs
 Economic decisions: different results from different operators  New technology
 Establishing field architecture  Subsea engineering practice - case studies
 Drilling, completion, and production

Course Duration
4 days
 Structural Design of Offshore Platforms – MM022

Course Objective
The main objective of this training course is to equip the participant with the necessary skills required for performing detailed design calculations for offshore
jacket platforms.

Participants
Offshore design engineers, Offshore Construction and Maintenance engineers ,Technical Managers.

Prerequisite
B.Sc. of Marine/ Mechanical Engineering

Learning Outcomes
 Know different types of offshire strucrure regarding function, site, limitations, ..etc .
 Estimate design loads and forces actng on offshore structure.
 Use design codes pertaining to offshore structures.
 Perform fatigue analysis for elements of offshore structure.

Course Contents
 Types of Offshore Structures.
 General design procedure.
 design loads and forces.
 Jacket structural design.
 Tubular joint design.
 Fatigue analysis, Design codes, Topside structures, layout and design considerations, Pile foundations.
Course Duration
5 days.
 ISO 9001 Management System Refresh for Lead
Auditor – MM023

Course Objective
The main objective of this training course is to learn the management of audit programs, the conduct of internal or external audits of quality and/or
environment management systems, as well as, on the competence and evaluation of auditors..
Participants
It is intended to apply to a broad range of potential users, including auditors, organizations implementing quality and/or environmental management systems,
organizations needing to conduct audits of quality and/or environmental management systems for contractual reasons, and organizations involved in auditor
certification or training, in certification/registration of management systems, in accreditation or in standardization in the area of conformity assessment.

Prerequisite
ISO 9001 Lead Auditor
Learning Outcomes
Provides only guidance, however, users can apply this to develop their own audit related requirements.
In addition, any other individual or organization with an interested in monitoring conformance to requirements, such as product specifications or laws and
regulations, may find the guidance in this International Standard useful.
Course Contents
 Scope  Audit activities
 Normative references o General
 Terms and definitions o Initiating the audit
o Audit o Determining the feasibility of the audit
o Audit criteria, evidence, findings, conclusion, client, team, plan, o Conducting document review and audit follow-up
scope and programme o Preparing for the on-site audit activities
o Auditee o Preparing, approving and distributing the audit report
o Auditor o Completing the audit
o Technical expert  Competence and evaluation of auditors
o competence o Education, work experience, auditor training and audit
 Principles of auditing experience
 Managing an audit programme o Maintenance and improvement of competence
o Audit programme objectives, extent, responsibilities, resources, o Auditor evaluation
procedures, implementation, records, monitoring and reviewing
Course Duration
3 days.
 ISO 9001 Management System Lead Auditor – MM024

Course Objective
The main objective of this training course is to learn the management of audit programs, the conduct of internal or external audits of quality and/or
environment management systems, as well as, on the competence and evaluation of auditors.
Participants
It is intended to apply to a broad range of potential users, including auditors, organizations implementing quality and/or environmental management
systems, organizations needing to conduct audits of quality and/or environmental management systems for contractual reasons, and organizations involved
in auditor certification or training, in certification/registration of management systems, in accreditation or in standardization in the area of conformity
assessment.
Prerequisite
None
Learning Outcomes
 Provides only guidance, however, users can apply this to develop their own audit related requirements.
 In addition, any other individual or organization with an interested in monitoring conformance to requirements, such as product specifications or laws
and regulations, may find the guidance in this International Standard useful.
Course Contents
 Scope o Audit plan oDetermining the feasibility of the audit
 Normative references o Audit scope oConducting document review
 Terms and definitions o competence oPreparing for the on-site audit activities
o Audit  Principles of auditing oPreparing, approving and distributing
o Audit criteria  Managing an audit programme the audit report
o Audit evidence o General o Completing the audit
o Audit findings o Audit programme objectives and extent o Conducting audit follow-up
o Audit conclusion o Audit programme responsibilities,  Competence and evaluation of auditors
o Audit client resources and procedures o General
o Auditee o Audit programme implementation o Personal attributes
o Auditor o Audit programme records o Knowledge and skills
o Audit team o Audit programme monitoring and o Education, work experience, auditor
o Technical expert reviewing training and audit experience
o Audit programme  Audit activities o Maintenance and improvement of
o General competence
o Initiating the audit o Auditor evaluation

Course Duration
5 days