Architectural Design II 2024/2025 PDF

Summary

This document details Architectural Design II, a course focusing on designing school buildings in Taif City, Saudi Arabia. The course covers site analysis, functional space planning, contextual design, and sustainability, tailored to the local environment. Students will develop design skills and learn to apply sustainability and contextual considerations into their projects.

Full Transcript

Architectural Design II
Course Code: 8043202-3
Architectural Engineering
Program
2024/2025
Dr. Sultan
Albogami
 Course General Information

Course Duration: 8 Weeks
Focus Area: Designing a School Building in Taif City, Saudi Arabia
Course Instructor: Dr. Sultan Albogami
Credit Hours: 6
Contact Hours: Lecture, Studio per week
 Course Overview
This course focuses on developing architectural design skills,
particularly for educational buildings such as schools, with a
special emphasis on the unique context of Taif City, Saudi
Arabia.
Students will learn to integrate environmental, cultural, and
social factors into their designs, with key topics including site
analysis, functional space planning, contextual design, and
sustainability.
The course also covers more complex spatial configurations,
addressing functional programming, structural systems, and
building materials.
A strong emphasis is placed on contextual analysis,
 Course Objectives

Develop proficiency in designing public mid-sized buildings (such as
school buildings) with multiple functional zones.
Perform a comprehensive site analysis considering topography, climate,
cultural, and urban contexts.
Integrate sustainable design strategies and the use of appropriate
materials into architectural projects.
Apply basic structural systems (walls, columns, beams, slabs) to design.
Apply architectural design principles to create spaces that support
learning and community engagement.
Refine their skills in architectural representation (plans, sections,
elevations, models, and digital tools).
Collaborate in critiques and develop design communication skills.
 Learning Outcomes

Upon successful completion of this course,
students will: Conduct thorough site analysis and apply findings to
their design projects.
Create functional spatial layouts considering user needs and
building codes.
Propose architectural solutions that integrate structural logic and
environmental systems.
Employ basic principles of passive solar design, natural ventilation,
and materials selection.
Present designs using hand drawing, digital modelling, and physical
models with technical precision.
 Course Structure

This course will be structured around studio-based
design projects, supported by lectures, site visits,
and crit sessions.
Each week focuses on a different aspect of school
building design, progressively building up to the final
design project
 Students Group

Students will be organized into three distinct groups,
with each group responsible for developing the design
for one of the designated educational stages.

Group A (Nursery and Preschool).
Group B (Primary School).
Group C (Secondary School).
Week 1: Introduction to School Building Design

Lecture Topic: Overview of school building types and their
functions
Studio Focus: Introduction to the project brief – Designing a
school for Taif City
Key Concepts
Different types of educational facilities
Overview of the functional spaces in schools
Assignment: Research on modern school designs from around
the world
Week 1: Site Analysis and Environmental
Considerations
Lecture Topic: Site analysis techniques focusing on
topography, climate, and surroundings
Studio Focus: Conduct a site analysis for the chosen school
location in Taif
Key Concepts
Climate and its effect on architectural design
Reading and analyzing topographical maps
Assignment: Complete a detailed site analysis report,
including sun paths, wind analysis, and natural features.
Week 1: Functional Programming and Space
Planning
Lecture Topic: Functional spaces in schools – classrooms, labs,
recreational areas, and administrative spaces.
Studio Focus: Create a preliminary program for the school
design, outlining space requirements.
Key Concepts
Zoning and spatial relationships in schools.
Developing user-centric design programs.
Assignment: Draft a functional program and bubble diagram
for the school.
 Week 2: Concept Development

Lecture Topic: Approaches to concept development in
architectural design
Studio Focus: Begin conceptual sketches based on site
analysis and space planning
Key Concepts
Conceptual design approaches: form, function, and environment
Integrating the site’s natural features into the design
Assignment: Present 2-3 preliminary design concepts for
review and feedback
Week 3: Contextual Design and Cultural
Sensitivity
Lecture Topic: Understanding the cultural context of Taif and
its influence on school design
Studio Focus: Refine the design concept to reflect local
cultural and environmental factors
Key Concepts
Cultural and social influences in architectural design
Use of local materials and forms in modern school buildings
Assignment: Produce sketches that integrate cultural and
environmental factors
Week 4: Sustainable Design Strategies

Lecture Topic: Sustainable design principles for educational
buildings
Studio Focus: Incorporate sustainability strategies such as
passive solar design, natural ventilation, and water
conservation into the design
Key Concepts
Passive design techniques: shading, orientation, natural cooling
Green building technologies and materials
Assignment: Prepare a sustainability drawings, outlining
strategies for the school design
Week 5: Detailed Design Development

Lecture Topic: Translating concepts into detailed design –
focus on structure, materials, and systems.
Studio Focus: Develop detailed plans, sections, and
elevations.
Key Concepts
Integration of structural systems in architectural design.
Material selection based on site, climate, and sustainability.
Assignment: Create detailed architectural drawings, including
sections and elevations.
Week 6: Mid-Review – Design Critique

Studio Focus: Present the developed design
concepts, including site plan, floor plans, and
preliminary elevations for critique.
Key Concepts
Design presentation techniques: visual and verbal
communication.
Addressing feedback constructively to improve design
solutions.
Assignment: Refine the design based on feedback
from the mid-review session.
Week 7: Semi-Final Design Development –
Presentation Drawings
Lecture Topic: Presentation techniques – from
drawings to physical and digital models.
Studio Focus: Finalize design drawings, including 3D
models.
Key Concepts
Creating compelling architectural presentations.
Using software tools for visualization.
Assignment: Prepare Semi-Final design presentation
materials.
Week 8: Final Review and Submission

Studio Focus: Final presentation and critique of the
school design project
Key Concepts
Oral presentation skills: communicating design intent
effectively.
Final design critique – addressing design strengths and
areas for improvement.
Assignment: Submit the final design project,
including all drawings, models, and reports.
 Assessment Criteria

Architecture Concept and Site Plan 10%
Master Plan 10%
Plans of School 10%
Developed Design 10%
Sustainability Principles 10%
Mid-Review Presentation 10%
Semi-Final Project submission 10%
Final Design Project (Jury and Discussion) 30%
 Recommended Reading

Neufert, ''Architect’s Data'', 4th edition
Time-saver Standards for Architectural Design
"The Third Teacher: 79 Ways You Can Use Design to Transform Teaching
and Learning" by Cannon Design, VS Furniture, and Bruce Mau Design.
"Architecture for Education: New School Designs from the Chicago
Architecture Awards" by Stephen Kieran.
"Educational Facilities: Innovations in Design" by Jonathan D. Solomon.
‫ شركة تطوير‬،‫دليل الحد األدنى لمعايير تصميم مدارس التعليم األهلي واجراءات االعتماد‬.‫للمباني‬.‫ وزارة التعليم‬،‫الدليل الشامل للمنشآت التعليمية‬.‫ وزارة البلديات والشؤون القروية‬،‫دليل تصميم مواقف السيارات‬
 Software Tools

AutoCAD/Revit: For architectural drawings and BIM.
SketchUp/3DS Max: For 3D modeling and visualization.
Adobe Photoshop/InDesign: For presentation boards and graphic
design.
 Week 1
Introduction to
School Building
Design
Dr. Sultan
Albogami
Introduction to School Building Design

Importance of Schools in Community Development
Schools are more than just educational facilities; they
serve as community hubs, often hosting events, meetings,
and activities beyond regular classes
Example: Schools in rural areas often provide spaces for
community activities, making them vital for local
development
Introduction to School Building Design

Key Aspects of School Design
Safety: Ensuring fire exits, secure entry points, and safe
circulation paths
Functionality: Classrooms, administration, and
recreational spaces must be logically organized to support
learning and reduce congestion
Flexibility: Spaces should adapt to different teaching
methods
Sustainability: Incorporate green technologies such as
solar panels or rainwater collection
Introduction to School Building Design

Overview of Global Trends
Modern school architecture
is moving toward more
open, flexible spaces that
encourage collaboration.
Example: The Ørestad
Gymnasium in Copenhagen
(Denmark) features large,
open learning spaces with
minimal traditional
classroom barriers to
encourage student
 Educational Spaces in Schools

Primary Functional Spaces
Classrooms: Designed for different student capacities
and teaching styles
Administrative Areas: Should be centrally located to
provide easy access to students and visitors
Recreational Spaces: Include outdoor playgrounds,
gymnasiums, and multi-purpose halls that foster physical
and social development
Specialized Rooms: Labs, art studios, and music rooms
that cater to specific curriculum requirements
 Educational Spaces in Schools

Flexible Learning Environments
Modern designs emphasize flexibility, allowing
rooms to transform based on curricular needs
Example: Open learning zones that accommodate
individual work, group projects, or lectures based
on the moment’s need
 Educational Spaces in Schools

Multi-functional Spaces
Spaces such as libraries and common areas can
serve different functions throughout the day.
Example: A library might be used for independent
study during school hours and as a community
resource in the evening.
 Week 1
Site Analysis and
Environmental
Considerations
Dr. Sultan
Albogami
 Introduction to Site Analysis
Definition of Site Analysis: Site
analysis is the process of
evaluating the physical,
environmental, and cultural
conditions of a location to inform
design decisions.
Importance: Understanding the
site’s topography, climate, access
points, and surrounding context
helps in creating functional,
sustainable, and contextually
appropriate designs
 Introduction to Site Analysis
Key Factors: Climate, soil
type, drainage patterns, sun
exposure, prevailing winds,
access routes, and cultural
factors all play a role in
determining how a building is
designed
Example: A school designed
for a site in a hot desert region
like Taif will require different
strategies compared to one in a
cooler, urban environment.
 Introduction to Site Analysis

Site Analysis Factors
Topography: Building on slopes or flat lands can
drastically change the design
Climate: Temperature, humidity, and prevailing winds
should influence the placement of windows, walls, and
open spaces
Vegetation: Existing trees and plants can be integrated
into the design to provide shade and enhance the natural
aesthetics
Surroundings: Noise, neighboring buildings, and
community amenities all affect the design
 Topography and Terrain in Taif

Taif’s Unique Mountainous Terrain
Building in mountainous regions poses challenges such as
potential soil erosion, difficulty in leveling the site, and
access issues
Strategies for Building on Sloped Sites
Designing terraced structures that follow the natural
contours of the land, minimizing site disturbance and
maximizing natural beauty
Example: Schools built in terraced formations can have
different building levels serving different functions, with
each level benefiting from natural light and ventilation
 Topography and Terrain in Taif

Integrating Natural Features
Natural vegetation and water features can be retained and
integrated into the design to enhance the school’s
connection to the environment and provide shaded
outdoor learning spaces
Example: An existing rock outcrop or mature tree might be
preserved as a central feature in a school courtyard,
providing natural shade and a focal point
 Climate and Weather Patterns

Climate Considerations
Taif is located in the western region of Saudi Arabia, known
for its cooler climate compared to surrounding desert
cities, and its mountainous terrain.
Passive Cooling: Designing buildings with deep overhangs,
shaded courtyards, and reflective materials to reduce heat
absorption
Example: In traditional Arabian architecture, narrow streets
and high walls create shaded outdoor spaces, which could
be mimicked in school courtyards.
 Climate and Weather Patterns
Sun path analysis to optimize
building orientation
Wind patterns and how they
influence natural ventilation
strategies
Temperature variations and their
impact on material selection and
shading.
Example: In response to the hot
climate, the school could be
oriented to avoid direct sun
exposure during the hottest parts
of the day, and design features
like wide overhangs and
 Integrating Natural Landscape
Taif’s terrain is mountainous,
providing opportunities for
terraced landscaping or using
sloped roofs to echo the
surrounding topography.
Importance of integrating the
building with the natural
landscape
Using the landscape to
enhance the school
environment: play areas,
outdoor learning spaces, and
recreational zones
Strategies for minimizing
 Landscape Integration
Using the Natural Landscape: The
design should aim to blend with
the surrounding landscape
Outdoor Learning Spaces:
Designing spaces like
amphitheaters or open classrooms
that integrate with the natural
environment promotes active
learning and connects students
with nature
Recreational Areas: Green spaces
and playgrounds can be designed
to enhance students' physical well-
being while minimizing
environmental disruption
 Cultural Context and Local Styles

Taif’s Cultural Heritage
Taif is known for its historical significance and connection to traditional
Arabian architecture
Incorporating Local Building Materials and Forms
Using locally available materials such as stone and wood helps reduce the
environmental impact and creates a design that is reflective of its region
Example: Utilizing stone walls with intricate geometric patterns, reflecting
traditional Arabian architectural motifs
Designing for Community Engagement
Schools in smaller communities often serve as multi-functional spaces that
host not only educational activities but also community events
Example: A school courtyard could serve as both a student gathering place
and a community event venue after school hours
 Site Selection and Surroundings

Criteria for Selecting a School Site
Accessibility is key for students, teachers, and visitors
Example: A school located at the intersection of two major
roads but set back with a buffer zone like a green park
Integration of School within Its Surroundings
A school’s design should not disrupt its surrounding
environment
Example: In a residential neighborhood, the school’s
height and massing should be consistent with the
surrounding houses, preserving the area’s scale and feel
 Site Selection and Surroundings

Zoning Regulations and Urban Context
Understanding local zoning laws is critical, particularly
when it comes to height restrictions, building setbacks,
and land-use regulations
Example: A school in Taif may need to adhere to specific
guidelines for building height due to cultural sensitivities
or proximity to historical sites
Environmental Constraints and Mitigation
Potential Constraints: Common environmental constraints
include noise pollution from nearby roads, air quality issues,
and traffic congestion
Mitigation Strategies: Noise barriers, strategic planting of
trees, and careful placement of classrooms away from noisy
areas are ways to mitigate these constraints
Balancing Constraints with Opportunities: Designers must
balance these constraints with opportunities, such as scenic
views, natural ventilation, and proximity to community
resources
Example: A school located near a busy road in Taif might use
sound-insulating materials in the walls and strategically place
trees or shrubs as sound buffers while also creating visually
Environmental Sustainability Considerations
Sustainable design strategies
for minimizing environmental
impact
Incorporating passive design
elements such as natural
ventilation, daylighting, and
shading devices
Efficient water management:
rainwater harvesting and
greywater recycling
Use of local, sustainable
building materials to reduce
carbon footprint
 Site Access and Circulation
Vehicular and Pedestrian Access: The
ease of access to the school site is
critical for safety and functionality
Internal Circulation: Inside the site, the
design should facilitate smooth
movement of students, staff, and
visitors
Connectivity to Surrounding Area: The
school’s location should be well-
connected to nearby roads, public
transport, and community facilities
Example: A school with easy access
from multiple roads could reduce
traffic congestion, especially during
peak pick-up and drop-off times
Conclusion and Design Implications
Summary: Recap the critical aspects of site analysis, including
topography, climate, and access, and explain how these
factors influence the final design decisions
Design Implications: Emphasize the importance of aligning
the school’s design with the site’s natural and environmental
characteristics to create a functional, sustainable, and
context-sensitive facility
Next Steps in Design: Moving forward into conceptual design,
students will begin creating preliminary sketches and massing
models based on the site analysis.
 Week 1
Functional
Programming and
Space
Dr. Planning
Sultan
Albogami
 Introduction
Brief overview of the
importance of functional spaces
in school design.
Highlight the focus on creating
spaces that support learning,
social interaction, and
community engagement.
Overview of the main types of
functional spaces covered:
classrooms, labs, recreational
areas, and administrative
spaces.
 Classrooms

Importance of classrooms as
core educational spaces
Design considerations: natural
lighting, acoustics, ventilation,
and flexibility
Classrooms should support
different teaching styles:
lecture-based, group work, and
individual learning
Example: Modular classrooms
with flexible layouts.
 Science and Technology Labs

Specialized spaces for hands-on
learning in subjects like science,
technology, and engineering.
Design considerations: safety,
storage, specialized equipment,
and adaptability for different
experiments.
Example: A multi-use science lab
that can support both chemistry
and physics lessons.
 Art and Design Studios
Spaces that foster creativity
and artistic expression.
Design considerations:
natural lighting, display
areas, flexible workstations,
and ventilation for art
materials.
Example: An open-plan art
studio with high ceilings and
ample space for both
individual and collaborative
work.
Recreational Areas – Playgrounds and Sports
Facilities
Importance of outdoor and
indoor recreational spaces for
student health and social
development.
Design considerations: safe
playground equipment,
shaded areas, and multi-use
sports facilities.
Example: A combination of
indoor gymnasiums and
outdoor sports fields.
 Cafeterias and Dining Areas

Dining spaces as social
hubs where students
gather during breaks
Design considerations:
seating capacity,
circulation, natural
lighting, and acoustics
Example: A spacious,
open-plan cafeteria with
flexible seating
arrangements and natural
 Administrative Spaces
The central hub for school
operations – principal's office,
staff rooms, and administrative
offices.
Design considerations:
centralized location, privacy,
security, and accessibility for
students and parents.
Example: A well-organized
administrative wing with clear
separation between staff and
public areas.
 Multi-Purpose Spaces
Spaces that can serve
various functions, such as
auditoriums, common areas,
and libraries.
Design considerations:
flexibility in layout,
technology integration, and
acoustics for different
events.
Example: A multi-purpose
hall that can be used for
assemblies, performances,
and community events.
 Conclusion and Next Steps
Recap of the importance of
functional spaces in
supporting learning and
development
Emphasizing how thoughtful
design enhances the
educational experience
Overview of the next steps:
moving from functional
programming to detailed
design development
 Week 1
Concept Development
Dr. Sultan
Albogami
Introduction to Concept Development
Concept development is the foundational phase of
architectural design, where ideas are structured and
visualized
Concept development isn't just about creating a
visually appealing structure; it’s about ensuring that
the design aligns with the project’s objectives, site
conditions, and functional requirements
Example:In the design of the Makoko Floating School
in Lagos, the concept was driven by environmental
and cultural factors
Introduction to Concept Development
Define Concept Development:
The initial phase in architectural
design where ideas are formed,
visualized, and structured
Importance: Concept
development in architecture
ensures that the final design is
cohesive and meets the client’s
functional, aesthetic, and
environmental requirements
Key Influences: For the Taif school
project, climate, culture, and the
topographical features of the site
will play a large role in shaping
Approaches to Concept Development
Architects can use different strategies
to develop a concept.
Top-Down Approach: This begins with
an overall vision or big idea.
Bottom-Up Approach: This approach
focuses on functionality and site-
specific constraints from the
beginning.
Hybrid Approach: Combining both
strategies can allow designers to
explore bold concepts while keeping
practicality in mind.
Example: The Guggenheim Museum
Bilbao by Frank Gehry is a clear
example of a top-down approach,
where the initial concept was to create
an iconic form that would become a
Approaches to Concept Development
Top-Down Approach: Begin with a broad vision or
conceptual idea, and refine it step-by-step by focusing on
site, client needs, and architectural elements
Bottom-Up Approach: Start by addressing functional
requirements or site-specific issues and gradually develop
the form around these
Hybrid Approach: Combine both methods—starting with a
general vision while refining details as functional and site-
specific issues arise
Example: A top-down approach might focus on creating an
iconic architectural form first, while a bottom-up approach
would start by solving practical issues like orientation and
circulation before addressing form
Conceptual Design Approaches – Form

Form in architectural design refers
to the physical shape, volume, and
structure of the building.
The form of a building can evoke
various emotions and responses.
Example: The Institute of
Management in Ahmedabad,
designed by Louis Kahn, is an
example of how form can emerge as
a response to the environment.
Conceptual Design Approaches – Form

Form: Focus on the shape, volume, and physical structure of
the building
Design Principles: Symmetry, balance, rhythm, contrast, and
hierarchy are some of the principles that guide form
School Design in Taif: The form of the school could reflect the
local architecture of Taif, using geometric patterns or
responding to the mountainous terrain.
Example: Consider designing a low-rise building to match the
natural topography of Taif, with large shaded courtyards to
handle the desert climate.
Conceptual Design Approaches – Function
Functionality ensures that the
building serves its purpose
efficiently
A functional design for the
school in Taif needs to account
for the specific needs of
students, teachers, and
administrative staff.
Example: In contrary to function,
the Vittra School in Sweden is a
modern example where the
boundaries between classrooms
and social spaces are blurred
Conceptual Design Approaches – Function
Functionality: The design must meet
the functional requirements of the
building, ensuring that spaces such as
classrooms, administrative offices,
and recreational areas are optimally
arranged.
Designing for Learning: Modern school
designs emphasize flexibility,
collaboration spaces, and access to
outdoor learning environments.
Spatial Zoning: How spaces are
organized to maximize efficiency and
meet the needs of both students and
staff.
Conceptual Design Approaches – Environment
Environmental considerations in
architectural design focus on how
the building interacts with its
natural surroundings
For the school in Taif,
environmental design should
address the climate challenge.
Example: The Masdar Institute in
Abu Dhabi integrates
environmental considerations by
using wind towers for natural
ventilation, shading devices to
reduce solar gain, and solar
panels to provide energy
Conceptual Design Approaches – Environment

Environmental Design: The relationship between the building
and its surrounding environment is crucial
Sustainability: Incorporating environmentally sustainable
strategies like passive cooling, water conservation, and
energy-efficient materials
Local Climate: In Taif’s cooler but still desert-like environment,
design approaches such as shaded courtyards, wind towers,
and solar orientation become essential
Integrating the Site’s Natural Features into the
Design
A successful design integrates
the site's natural features,
rather than working against
them.
In Taif, the site may have
distinct topographical features,
such as hills or rocky outcrops.
Example: The Fallingwater
House by Frank Lloyd Wright is
an iconic example of how a
building can integrate with its
natural environment.
Integrating the Site’s Natural Features into the
Design
Topographical Response: The design should take advantage of
natural slopes or hills for terraced structures or sunken
courtyards, reducing excavation and earthwork
Vegetation and Landscape: Use existing trees and plant
species to create shaded outdoor spaces, minimizing water
use while maintaining a green environment
Natural Materials: The use of local materials, such as stone or
brick from the Taif region, can integrate the building
aesthetically with the landscape
Conceptual Design and Cultural Context

A building should reflect the
cultural and historical context of
its location.
Taif is rich in cultural history,
and the design of the school
should reflect this.
Example: King Abdulaziz
Historical Center, Saudi Arabia,
blends traditional forms with
modern construction
techniques.
Conceptual Design and Cultural Context
Cultural Considerations: Respecting the cultural and
historical heritage of the region in the design process is
crucial.
Design Language: Using a modern interpretation of
traditional forms can result in a design that is both
functional and culturally resonant.
Cultural Identity: How the school reflects local traditions
while embracing modern educational needs.
Introduction to Functional and Circulation
Studies
Understanding how spaces within a building interact
with one another and the flow of movement within the
structure.
In a school, circulation and functional layouts are crucial
for managing student movement and ensuring that
spaces support educational activities efficiently.
Architectural Matrix and Bubble Diagrams are aid in
organizing space and circulation in school design.
 Architectural Matrix
What is an Architectural Matrix?: A
table that lists the relationships
between different functional spaces in
a building (e.g., classrooms,
cafeterias, libraries) and their level of
interaction.
Purpose: Helps architects ensure that
spaces with high interaction are
placed adjacent to one another while
reducing unnecessary travel
distances.
Usage: Helps structure key functional
areas like classrooms, administration,
recreational areas, and utilities
How to Create an Architectural Matrix

Step 1: List all the required spaces (e.g., classrooms,
cafeteria, gym, staff rooms, etc.).
Step 2: Determine the necessary interactions between these
spaces (e.g., classrooms and washrooms have high
interaction, classrooms and storage areas have low
interaction).
Step 3: Populate the matrix with interaction levels (high,
medium, low, or no interaction).
Step 4: Use this data to influence the spatial layout and
organization of the school.
 Bubble Diagrams
What is a Bubble Diagram?: A
conceptual tool used to visually
represent the relationship
between different spaces in a
building using circles or "bubbles"
to show proximity and size
relationships.
Purpose: Helps designers
understand spatial relationships in
an intuitive way before moving
into more detailed plans.
Usage: Enables designers to see
how classrooms, halls,
administrative offices, and
playgrounds can be positioned
 Steps to Create a Bubble Diagram

Step 1: Identify all key functional spaces that the building will
require (e.g., learning spaces, outdoor areas, service spaces).
Step 2: Use the Architectural Matrix to guide which spaces need
to be close to one another.
Step 3: Draw bubbles for each space, scaling them according to
their importance or size in the building.
Step 4: Connect related spaces with lines or positioning based
on required interaction.
Step 5: Adjust bubble sizes and positions as needed to optimize
circulation and space utilization.
Circulation Patterns in School Design
Why Circulation is Key: Efficient circulation ensures smooth
movement of students, staff, and visitors, preventing
overcrowding and confusion during transitions between classes,
lunch, or outdoor activities.
Types of Circulation Patterns:
Linear Circulation: Hallways and corridors that lead from one end of
the building to the other.
Radial Circulation: Centralized patterns where spaces radiate outward,
useful for common areas or central courtyards.
Grid Circulation: Intersecting hallways, allowing for more flexibility
and movement between different zones.
Importance of Clear Paths: Especially in schools, safety and
clear routes are important to guide large groups of students and
maintain order.
Integrating Circulation and Functionality
Functionality and Flow: How to ensure
that circulation paths logically connect
functional spaces. For instance,
classrooms should be near restrooms,
and the gymnasium should be accessible
without disrupting learning areas.
Zoning: Dividing the school into zones for
learning, recreation, and administrative
functions, and ensuring that circulation
paths respect these zones while
maintaining fluid movement between
them.
Example of a well-designed school with a
focus on functional zoning and efficient
circulation patterns.
Conclusion – Key Takeaways for Conceptual
Design
Recap: Review the importance of balancing form, function,
and environment in concept development for school design.
Functional and circulation studies help ensure that spaces in
the school serve their purpose efficiently while supporting
smooth movement throughout the building.
Apply these concepts in their design projects, focusing on
how to integrate the site’s natural features into their own
school designs. Starting with the creation of architectural
matrices and bubble diagrams for the school building project.
Discussion Points: What are the key challenges in designing
for Taif’s unique environment, and how can these challenges
be turned into design opportunities?
Conclusion – Key Takeaways for Conceptual
Design

https://thearchitectsdiary.com/20-elements-of-desert-ar
chitecture-an-oasis-in-india/
https://www.theplan.it/eng/award-2022-Education/nokh
a-village-school-reviving-a-traditional-way-of-building-s
anjay-puri-architects
https://sanjaypuriarchitects.com/architecture/education
/learning-curves-raipur/
https://b10.beauty/primary-school-design-concepts