Name : Ahmed Saleh Alabadi(10083622)
Moath nafea alanzi (77487)
Talal nahed Alsareehi (73013)
30 Building project
Introduction
A New Landmark Rises on the City Skyline
The 30 Building project represents a monumental architectural
achievement that will transform the city skyline and add a
unique touch of elegance.
30 Buildings Embodying a Civilized Dream
The 30 Building project consists of 30 towering structures that
blend modern design with luxury, becoming an architectural
masterpiece that embodies a refined, civilized dream.
Vast Spaces Enabling Endless Possibilities
The 30 Building project offers vast spaces that open up endless
possibilities, starting from offices equipped with the latest
technology, through luxurious residential units, to diverse
commercial spaces.
Strategic Location Connecting All Corners of the City
The 30 Building project enjoys a strategic location in the heart
of the city, making it easily accessible from all parts of the
region, becoming a vibrant hub pulsating with life and activity.
Commitment to the Highest Standards of Quality and Safety
Commitment to the highest standards of quality and safety forms
the cornerstone of the 30 Building project, where the latest
technologies and the finest materials are used in the construction
and finishing stages, ensuring a safe and comfortable
environment for all residents and users.
Effective Contribution to Sustainable Development
Those behind the 30 Building project recognize their
responsibility towards the environment, so the project has been
designed according to the highest sustainability standards,
including using energy-saving and water-saving technologies
and employing environmentally friendly materials.
Project diagram :-
Chronological Timeline for a 30-Building Project (Detailed)
Pre-Construction Phase
1. Project Initiation and Feasibility Study (3-6 months)
Project Definition:
o Clearly define the project scope, objectives, and goals.
o Determine the type of buildings, their usage, and the
overall project vision.
o Identify the target market and potential tenants for the
buildings.
Feasibility Analysis:
o Conduct thorough market research to assess demand
and competition.
o Analyze the project's financial viability, including
projected costs, revenues, and profitability.
o Evaluate the environmental impact and sustainability
considerations.
Stakeholder Engagement:
o Identify all project stakeholders, including investors,
developers, architects, engineers, contractors, and
government agencies.
o Establish clear communication channels and protocols
for stakeholder collaboration.
o Define roles and responsibilities for each stakeholder
to ensure effective project management.
Financing Secured:
o Secure project financing through a combination of
equity, debt, or grants.
o Negotiate financing terms and conditions with lenders
or investors.
o Establish a project budget that accurately reflects all
anticipated costs.
2. Design and Planning (6-12 months)
Design Team Assembly:
o Hire a team of experienced architects and engineers
with expertise in high-rise building design.
o Engage landscape architects, interior designers, and
other specialists as needed.
o Establish a clear design brief outlining the project's
aesthetic, functional, and technical requirements.
Detailed Design Development:
o Develop comprehensive design drawings and
specifications for each building.
o Create 3D models and visualizations to enhance
stakeholder understanding of the project.
o Ensure compliance with all applicable building codes,
standards, and regulations.
Permitting and Approvals:
o Submit design plans and specifications to relevant
government agencies for review and approval.
o Obtain necessary permits for construction activities,
including zoning, environmental, and safety permits.
o Address any concerns or objections raised by
regulatory bodies and incorporate necessary revisions.
Budget Finalization:
o Finalize the project budget based on detailed cost
estimates from contractors and subcontractors.
o Account for all potential contingencies and cost
overruns.
o Establish a project cost management plan to track and
control expenses throughout the project lifecycle.
3. Procurement and Pre-Construction Activities (3-6
months)
Material Procurement:
o Issue tenders and solicit bids from suppliers for
construction materials and equipment.
o Evaluate bids based on price, quality, delivery
timelines, and supplier reputation.
o Negotiate contracts and secure purchase orders for all
required materials.
Subcontractor Selection:
o Identify and pre-qualify experienced subcontractors
for various trades, including structural, electrical,
plumbing, and HVAC.
o Issue requests for proposals (RFPs) and solicit bids
from shortlisted subcontractors.
o Evaluate bids based on experience, pricing, safety
records, and project management capabilities.
Site Preparation:
o Establish the construction site and secure necessary
permits for site access and utilities.
o Implement safety measures and establish clear site
rules and procedures.
o Prepare the site for construction activities, including
clearing, grading, and erosion control.
Schedule and Project Management Plan:
o Develop a detailed construction schedule that outlines
all project activities, dependencies, and timelines.
o Implement project management software to track
progress, manage tasks, and identify potential risks.
o Establish clear communication channels and reporting
procedures for all project stakeholders.
Function of buildings
Shelter and Protection
The most fundamental function of a building is to provide
shelter and protection. This is the primary reason humans have
been constructing shelters for thousands of years. Buildings
shield us from harsh weather conditions, ensuring that we stay
warm and dry during rain, snow, and storms. They also protect
us from extreme temperatures, helping to maintain a
comfortable living environment.
Moreover, buildings offer security by keeping intruders out and
safeguarding our belongings. In a world where safety and
privacy are paramount, this function of a building cannot be
overstated. Modern advancements in construction materials and
techniques have made buildings more resilient and secure than
ever before
Geometry and materials of buildings:
Year Building Name Location Description Image
Krefeld, Family
1919 Haus Lange
Germany house
Lange building by Mies va
Rohe
Krefeld, Family
1920 Haus Esters
Germany house
s Esters building by Mies
Rohe
Brno,
Family
1922 Villa Tugendhat Czech
house
Republic
Villa Tugendhat building b
van der Rohe
Weissenhof Stuttgart, Housing
1923
Settlement Germany estate
senhof Settlement buildin
van der Rohe
Neue Berlin,
1926 Art gallery
Nationalgalerie Germany
Neue Nationalgalerie buil
Mies van der Rohe
Barcelona Barcelona, Exhibition
1928
Pavilion Spain pavilion
Barcelona Pavilion buildin
van der Rohe
1929 Villa La Savoye Poissy, Family
France house
La Savoye building by Mie
Rohe
German Barcelona, Exhibition
1930
Pavilion Spain pavilion
German Pavilion building
van der Rohe
Sheffield,
Family
1935 Resor House United
house
Kingdom
Resor House building by M
der Rohe
Racine,
S.C. Johnson Office
1938 United
Wax Building building
States
S.C. Johnson Wax Building
by Mies van der Rohe
860-880 Lake Chicago,
Apartment
1939 Shore Drive United
building
Apartments States
860880 Lake Shore Drive
Apartments building by M
der Rohe
1940 Crown Hall Evanston, University
United building
States
n Hall building by Mies va
Apartment New York
Apartment
1945 Building at 500 City, United
building
Park Avenue States
Apartment Building at 50
Avenue building by Mies v
Rohe
New York
Seagram Office
1950 City, United
Building building
States
Seagram Building building
van der Rohe
Plano,
Farnsworth Family
1952 United
House house
States
worth House building by M
der Rohe
Elmhurst,
McCormick Family
1955 United
House house
States
rmick House building by M
der Rohe
Neue
Berlin,
1958 Nationalgalerie Art gallery
Germany
(extension)
Nationalgalerie (extension
by Mies van der Rohe
Plano,
Farnsworth Family
1962 United
House II house
States
Farnsworth House II build
Mies van der Rohe
Neue
Berlin,
1963 Nationalgalerie Art gallery
Germany
(renovation)
Neue Nationalgalerie (ren
building by Mies van der R
1965 IBM Building Chicago, Office
United building
States
IBM Building building by M
der Rohe
Neue
Nationalgalerie Berlin,
1969 Art gallery
(second Germany
extension)
Neue Nationalgalerie (sec
Materials used in the 30 Building Project
The 30 Building Project will employ a diverse range of materials
to construct sustainable, aesthetically pleasing, and functional
structures. Let's delve into the primary material categories that
could be utilized:
1. Structural Base Materials:
Concrete: Concrete will likely be the primary material for
foundations, floor slabs, and some columns. It offers
strength, durability, and fire resistance, essential for
supporting the weight of high-rise buildings.
Steel: Steel may be used for beams, columns, and trusses in
the upper structures of the buildings. It provides high
strength and allows for wide spans without intermediate
support columns, enabling more open interior spaces.
Engineered Wood Products: Engineered wood products
like plywood and laminated veneer lumber (LVL) could be
used as structural elements in some cases, particularly for
floors and interior walls. These materials offer a more
sustainable alternative to traditional solid wood.
2. Exterior Cladding Materials:
Curtain Walls: Curtain walls provide panoramic views
and allow abundant natural light, creating bright and
inviting interior spaces. However, curtain walls require
good thermal insulation to maintain energy efficiency.
Metal Panels: Metal panels are a durable and weather-
resistant option, available in a variety of colors and finishes
to suit the overall architectural design of the project.
Brick or Stone: Using brick or stone for the building's
exterior lends a classic or contemporary aesthetic appeal. It
also enhances the thermal performance of the building by
providing additional insulation.
Precast Concrete Panels: Precast concrete panels offer
rapid and cost-effective construction. They can be pre-
formed and designed according to architectural plans,
saving time and labor at the construction site.
3. Interior Finishing Materials:
Drywall: Drywall is an economical and easy-to-install
option for interior partitions and walls. It can be painted or
covered with wallpaper to achieve the desired aesthetic.
Wood: Wood brings a warm and natural feel to interior
designs and can be used for flooring, walls, or decorative
elements.
Stone or Tile: Stone or tile flooring and walls are durable,
easy to clean, and an ideal choice for high-traffic areas like
hallways, kitchens, and bathrooms.
Sustainable Materials: Eco-friendly materials like
bamboo, cork, and recycled flooring can be incorporated to
contribute to the sustainability of the 30 Building Project.