IBRAHIM
2023 Society Architecture Impact
Technology + Architectural Portfolio 2024
MOHAMMED
Architectural portfolio
Building
05. 23-27. 28-32. 33-38. 39-41. 06. 07. 08. 01. 1-6. 7-11. 12-15. 16-22. 02. 03. 04.
Table of content
Course name: Integrated design Project III.
Location:Ketchene /Addis Ababa.
Project Type:Academic
Project Involvement:14 weeks of design studio.I worked in a group of 2 with my partner Tinsae Tsegahun.I was involved in all steps of the project design and documentation.
Year/semester:2017/2018,3rd year 2nd semester.
Email address of Studio Head: yohannes.afework@eiabc.edu.et
POTTERY WORKSHOP.
Compressed glulam column(C1)
01. POTTERY WORKSHOP AND EXHIBITION. >>MATERIALITY.
02. POTTERY WORKSHOP AND EXHIBITION. >>MATERIALITY.
Main entry Showroom Assembly room giz training room Molding room Molding room Molding room Servery Cafe Showroom Bike Parking 1 1 1 2 1 2 3 3 4 4 5 5 6 6 8 7 Programming Ground Floor Plan. A-A A-A B-B B-B 03. POTTERY WORKSHOP AND EXHIBITION. >>MATERIALITY.
3D impression (Birds eye view)
1 2 3 4 5 6 8 1 1 2 3 4 5 6 8 7 7 Site Plan
04. POTTERY WORKSHOP AND EXHIBITION. >>MATERIALITY.
0 136 basement -294 rammed earth w.f Giz training space rammed earth w.f B C 4 I D F 5 7 A
D2 B C D C' E A Section B-B D3 D7 D6 D13 05. POTTERY WORKSHOP AND EXHIBITION. >>MATERIALITY.
Section A-A
Structural exploded
Glulam Column Detail
B B A
D1
D2
D3 D4
06. POTTERY WORKSHOP AND EXHIBITION. >>MATERIALITY.
Course name: Structural Design+ Computational Intellegence
Project type:Academic
Location:Egypt,Giza
Project Involvement:8 weeks of design exercise with a group of 4,involved in conceptual design, structural design and computational approach to rationalizing the floor structure.
Year/semester:2023,1st year 2nd semester MSc.
School: Delft University of Technology.
Email adderss of studio head: J.D.OCallaghan@tudelft.nl
PTEMPLE OF THE RISING SUN
Temple of the Rising Sun.
7. TEMPLE OF THE RISING SUN. >>STRUCTURAL AND COMPUTAIONAL INTELLEGENCE
S 1 25000 Plan 56250 SECTION-1 57500 6300 9000 1950
Glass floor design itteration: Aestetics, structure, and standardized panels were considered
8. TEMPLE OF THE RISING SUN. >>STRUCTURAL AND COMPUTAIONAL INTELLEGENCE
V1 V4 V2 V6 V3 V5
9. TEMPLE OF THE RISING SUN. >>STRUCTURAL AND COMPUTAIONAL INTELLEGENCE
floor
4 4 4 4 5 5 5 5 4 1. 2. 2. 4. 5. 5. 3.
Glass
Assembly and Detailing
Glass Floor Panelization: clustering and offsetting the average
10. TEMPLE OF THE RISING SUN. >>STRUCTURAL AND COMPUTAIONAL INTELLEGENCE
Approach 1
Approach
2
Clustering
Steps:
1.Gaussian Mixture 1
3.Filtering intersecting panels 1
2.Offsetting avarage polygon 1
5.Offsetting average polygon 2
7.Gaussian Mixture 3
4.Gaussian Mixture 2
6.Filtering intersecting panels 2
9.Filtering intersecting panels 3
8.Offsetting avarage polygon 3
10.Offsetting avarage polygon 4
Final result of 4 different gaussian Mixtures represented in 4 different colors.
11. TEMPLE OF THE RISING SUN. >>STRUCTURAL AND COMPUTAIONAL INTELLEGENCE
Course name: Introduction to Computational Design
Project type:Academic
Location: The Netherlands , Delft
Project Involvement:8 weeks of Design with a team of 3.Taskes involved include design formulation , strategizing computational approach and scripting in grashopper.
Year/semester: 2022, 1st year ,1st semester.
School: Delft University of Technology.
Email adderss of studio head: S.Asut@tudelft.nl
PWAVE AND SHADE.
Wave and Shade.
Group 12 -Bryan Zwakkenberg 4848799, Mohammed Ibrahim Hassen 5741165, Sareh Yousefi 5759056
12. WAVE AND SHADE. >>COMPUTATIONAL DESIGN
The Flowchart-Visual programing implemented in grashopper.
Start Create a surface through 'planar surface Get corner points with 'discontinuity' Form two curves in length direction through corner points Divide curves Nr. of segments Connecting points opposite to each other Form new curve through all middle points Rotate points of outer curves around middle curve Rotation angle through series Make two polylines through points Loft polylines to a surface U-count V-count Divide domain Iso trim to form surfaces Area to get centroid of surface Scale surfaces based on iso trim surface Scale factor Scale surfaces based on other scaled surfaces Attractor point Pull point to attractor point to define distance between both Create numeric domain Remap numbers Remap numbers Value for target range Value for target range Move newly scaled surface Loft Extrude Mirror Final geometry Multiply Value for multiplication z-unit Gradient Creating twisted curves opposite from each other Legend Panelling the surface Lofting, extruding and colouring the panels Data sets Delft Neighborhoods Building Height Delft bus stops without shelter Kindergartens Schools Geo spatial data of Delft of QGIS through speckle Busstop boundary Busstop location Busstop geolocation coordinates Geo spatial data input Ladybug & Galapagos Incident radiation Epw file Sky matrix Start & end date as a period Analysis period bounding box bottom surface for incident radiation surface. Surface flipped because of the normal direction Centroid of surface as centre point for SkyDome SkyDome Number for grid size & offset distance Legend component Final bake with sun study Galapagos Mass addition Test fitness off... Through genomes.... Bench Take endpoint of inner curve Move start and end point on y and z axis Create a box through these points Make the box smaller with scale NU Create a 270 degree twist in the box Take the contours and extrude these 13. WAVE AND SHADE. >>COMPUTATIONAL DESIGN
The Flowchart - Creating twisted curve
The Flowchart - Panneling the surface The Flowchart - Lofting, extruding, and mirroring
Start Create a surface through 'planar surface Get corner points with 'discontinuity' Form two curves in length direction through corner points Divide curves Nr of segments Connecting points opposite to each other Form new curve through all middle points Rotate points of outer curves around middle curve Rotation angle through series Busstop geolocation coordinates Make two polylines through points Loft polylines to a surface U-count V-count Divide domain Iso trim to form surfaces Area to get centroid of surface Scale surfaces based on iso trim surface Scale factor Scale surfaces based on other scaled surfaces Attractor point Pull point to attractor point to define distance between both Create numeric domain Remap numbers Remap numbers Value for target range Value for target range Move newly scaled surface Loft Extrude Mirror Final geometry Multiply Value for multiplication z-unit Gradient
1 2 3 4
1 2 3 4 2 3 4 1 3 2 1 4 5 14. WAVE AND SHADE. >>COMPUTATIONAL DESIGN
Test fitness off... Through genomes.... T T 3
The Flowchart - Ladybug & Galapagos
1 & 2 3 4 1 2 3 & 4 15. WAVE AND SHADE. >>COMPUTATIONAL DESIGN
The Flowchart - Bench
Course name: Design. Location:
Project Involvement: analysis studying Tollerance and Movement, Building physics,Assembly sequencing,Fire safety,EIA and Structual performance of the facade.
Year/semester: semester of MSc.
School: Email adderss of studio head: betel.biruk@eiabc.edu.et
Project type: The Muse.
16. THE MUSE. >>TECHNOLEDGE FACADE DESIGN
3D impression Sectional view
Interior wall finish
-Insulation attached with spowanchors
17. THE MUSE. >>TECHNOLEDGE FACADE DESIGN
-Gypsum board
Diagonal HEA 220 column hangs the floor at the bottom(an in-situ connection) and is anchored to the top floor using a J bolt.
An assembly of L profiles are welded to the HEA at Point A (see figure above). At point B(see fig. above) the L-profiles are welded to a base plate and attached to the floor and welded to the HEA side.
Assembly sequence analysis.
A B 18. THE MUSE. >>TECHNOLEDGE FACADE DESIGN
x30x5 x30x5 x30x5 x8) x8 x8 x112x8 x112x8 x112x8 x114x8 x114x8 x114x8 x90x9) x90x9 x90x9 HEA 220 HEA 220 TENSIONED TENSIONED TENSIONED UNP 260 TE PANE S TTER HEA 220 cos(50) 416 4cos(40) 97 497N/m2 6 4 7 50 o 40o FOUR SUPPORTS PROVIDE A TOTAL REACTION FORCE OF TWO SUPPORTS PROVIDE A TOTAL REACTION FORCE OF 416N/m 2 FOUR SUPPORTS PROVIDE A TOTAL REACTION FORCE OF CONCRETE PANEL ULS: 2213 N/m2 SLS: 1424 N/m2 1008N/m2 1008N/m 2 50 o 40o 1016N/m L-ANGLE HEA220 1 0 16 N/ m 2 1016N/m 2 THE TOP ROLLER SUPPORT HAS A REACTION FORCE OF L-ANGLE ULS: 1508 N/m2 SLS: 1016 N/m2 501N/m 2 501N/m 2 2004N/m 2 50 o 40o FOUR SUPPORTS PROVIDE A TOTAL REACTION FORCE OF WOODEN BEAM ULS: 2980 N/m2 SLS: 2004 N/m2 Structural Verification 19. THE MUSE. >>TECHNOLEDGE FACADE DESIGN
Materiality Study GSEducationalVersio 11.
12.
9.
1.
3. 7. 8. 15. 13.
5. 2. 4. 14.
20. THE MUSE. >>TECHNOLEDGE FACADE DESIGN
Steel bolts for the connection of the concrete cladding
21. THE MUSE. >>TECHNOLEDGE FACADE DESIGN
Detailing assembly
22. THE MUSE. >>TECHNOLEDGE FACADE DESIGN
Detailing assembly
Course name: Bucky Lab
Project type:Academic
Location:Spain,Granada
Project Involvement:16 weeks of design. Working in a team of 4. The project involved design , proof of concept experiment, 1:1 detailing and a 2 weeks long prototyping in a woodworkshop,building a 1:1 prototype of the critical section of the design.
School: Delft University of Technology.
Year/semester:2022 1st year 1st semester MSc.
Email adderss of studio head: m.bilow@tudelft.nl
PClima-shade.
CLIMASHADE.
23. CLIMA-SHADE. >>Bucky Lab
Structure Envelope Bearing Socket Tapering stand
Feras Alssagaf Mohammed Ibrahim Kimmy On Elisa Van Klink View North Revisions Project 2022-12 Notes A1.1 Scale 1:5 e.g. bolts are the same look drawing CLIMASHADE ETFE LAYER FIXED ON SIDES OF THE FRAME CURVED STEEL FRAME BOX SECTION AIR VENTS FROM TOP INSULATED FOIL, REFLECTIVE ON THE INSIDE ROTATION MECHANISM PANEL MATERIAL ASSEMBLY NOT TO SCALE ETFE layer streched between the top frame Panel Material and cavity Assembly Air vents from top Metal frame Rotational Mechanism Insulated foil, reflective on the inside
Clima-shade Proof of Concept.
24. CLIMA-SHADE. >>Bucky Lab
Prototyping
INTERNAL BRACING
MOVABLE PANEL (ROTATION)
FIXED PANEL
ROTATION MECHANISM (SEE SECTION)
CYLINDRICAL
STEEL TUBE
FIXED TO THE GROUND
EXPLODED AXONOMETRIC NOT TO SCALE
FIXED PANEL ASSEMBLY BOLTED ONTO STEEL BRACKET
MOVEABLE PANEL ASSEMBLY FIXED ON CIRCULAR STEEL BASE
WHEEL MOUNTED ON STEEL BRACKET ATTACHED TO THE MOVABLE PANEL ASSEMBLY
4-BOLTED STEEL BRACKET ON MOVABLE PANEL ASSEMBLY
STEEL “U” PROFILE HOUSING WHEEL FOR MECHANIZED PANEL MOTION
CIRCULAR TUBE
FIXED PANEL LATERAL SUPPORT
BEARING MOUNTED ON U PROFILE UNDERNEATH
STEEL PROFILE MOUNTED ON CIRCULAR STEEL TUBE
BOTTOM HEAVY BASE CONCRETE
EXPLODED 1:1 PROTOTYPE NOT TO SCALE
View North Revisions Project Notes A1.1 Scale 1. e.g. 2. look
View North Revisions Project Notes A1.1 Scale 1. e.g. 2. look
A
B C D E
25. CLIMA-SHADE. >>Bucky Lab
ROTATING MECHANISM DETAIL NOT TO SCALE
E
Prototyping A B C D
2.00 2.00 1.00 5.03 0.48 4.85 2.50 4.00 4.46 6.00 2.00 1.00 3.00 0.50 0.84 1.72 3.15 2.50 8.61 5.03 10.00 5.03 0.48 4.85 2.50 4.00 4.46 5.53 6.00 0.47 3.00 0.50 0.50 0.50 6.03 23.06 32.00 3.00 1.00 25.00 4.00 23.06 0.50 2.00 0.50 6.03 21.06 23.06 32.00 3.00 1.00 25.00 4.00 23.06 2.00 21.06 1.00 25.00 45.00° 41.95 2.00 28.00 32.00 23.06 32.00 21.06 23.06 0.50 0.50 0.40 23.06 42.00 45.00° 0.80 1.09 41.95 2.00 28.00 32.00 23.06 32.00 21.06 23.06 0.50 0.50 0.80 23.06 42.00 45.00° 0.40 1.09 41.95 28.00 32.00 23.06 32.00 0.50 0.47 0.50 2.50 38.28 5.03 3.16 1.74 10.00 0.73 42.00 23.06 39.87 45.00° 2.00 23.06 32.00 0.50 0.50 26. CLIMA-SHADE. >>Bucky Lab Day
Time Night Time
Prototyping
27. CLIMA-SHADE. >>Bucky Lab
Course name: Integrated design Project I.
Project type:Academic
Location:4 kilo /Addis Ababa.
Project Involvement:14 weeks of design studio.I worked in a group of 2 with my design partner Seblewongel wondwossen.I was involved in all steps of the design and documentation.
Year/semester:2016/2017,2nd year 2nd
Email adderss of studio head: betel.biruk@eiabc.edu.et
PPath House.
PATH HOUSE.
28. PATH HOUSE. >>DETAIL CITY
Existing structure and access
Existing access pushing and separating Attaching programs Moving and pulling out Attraction points
29. PATH HOUSE. >>DETAIL CITY
Visually connecting each floor.
3D characterizing access
30. PATH HOUSE. >>DETAIL CITY
Exploded
6.10 6.30 5.20 5.60 5.80 9.00 6. 90 2.8 4 2.2 8 2.5 0 12 0 0 6.0 0 5.0 0 8.9 1 3 8 7 5.9 1 3 5.0 0 12 0 1 2U open up-1 A B 2 3 4 5 6 U N 2m 5m 10m 31. PATH HOUSE. >>DETAIL CITY
1 9 1 0 5 2 0 6 10 26 90 5 00 22 20 7 3 0 7 8 0 5 60 23 80 2 50 9 80 5 2 0 5 8 0 15 1 0 4 0 0 30 1 0 9 15 5 40 6 35 1 7 0 2.00 m 0.50 m open down--2 2 1 1 2 3 4 5 6 A B U P 32. PATH HOUSE. >>DETAIL CITY N 2m 5m 10m
Course name:Architecture for social change (Building science and building construction)
Location:Autobistera /Addis Ababa.
Project Involvement:14 weeks of design studio.I worked in a group of 4 for the first 4 weeks of design and the rest 10 weeks I worked on an architectural scale with my design partner Abenezer degu.I was involved in all steps of design and document preparation.
Year/semester:2018/2019,4th year 2nd semester.
Project type:Academic Email address of studio head:habtamu.nekatibeb @eiabc.edu.et
OPEN MARKET CORRIDOR.
33. OPEN MARKET CORRIDOR. >>ARCHITECTURE FOR SOCIAL CHANGE.
Plaza
Urban scale intervention
34. OPEN MARKET CORRIDOR. >>ARCHITECTURE FOR SOCIAL CHANGE.
Architectural scale intervention ACTIVATING LINK
WHERE TO START AND END
Pedestrian flow study
INFRASTRUCTURE
STRATEGY Plan 35. OPEN MARKET CORRIDOR. >>ARCHITECTURE FOR SOCIAL CHANGE.
A B C 36. OPEN MARKET CORRIDOR. >>ARCHITECTURE FOR SOCIAL CHANGE.
Sections Section-AA Section-bb A D C B B D G E F 1 2 3 A B C D E F G Legend 1 2 3 Legend 37. OPEN MARKET CORRIDOR. >>ARCHITECTURE FOR SOCIAL CHANGE.
3D Impressions.
38. OPEN MARKET CORRIDOR. >>ARCHITECTURE FOR SOCIAL CHANGE.
Section-cc
Project: Cooperative Bank of Oromia Transitional HQ:
Design Studio:Makers Lab(Design Studio). Location:Addis Ababa.
Project Involvement: Interior design develoment and construction supervisoion for a 2100 m2 office space.I have been involved in conceptualization stage,design development aswell as construction drawing preparation of the project.
PROFESSIONAL EXPERIENCE
03 04 Pool office Reception 01 02 Corridor Pool office 05 Ceiling work Under construction 39. COOPERATIVE BANK OF OROMIA TRANSITIONAL HQ >>DESIGN BUILD
Project: Intergovernmental Authority for Development HQ
Design Studio:Makers Lab(Design Studio).
Project Location:Djibouti.
Project Involvement:
The schematic design was done by MEZZ DESIGN BUREAU(Italy).I was involved in the preliminary and final design development which included floor plan modification, interior design,modeling,rendering and a preliminary proposal to a sustainable approach to the facade already done in preliminary stage.
Facade sections
A development of the interior of the IGAD HQ to reflect the cultural elements of the East African region and a modest approach to making a comfortable space with a functional layout and orientation.Involved in designing ,rendering and drawing preparation.
As the daily heat and humidity of Djibouti makes it difficult for opening a window for ventilation,MEZZ DESIGN BUREAU have proposed an exterior shade and an active artificial ventilation. This approach plummeted the energy consumption as the full glazing of the building increases the temperature load on the AC system.
During the preliminary phase ,we have proposed for a double facade system which optimizes the underground aquifer to cool air and circulate around the building. An approach to decrease the energy consumption of the building and a provide a sustainable ventilation system.
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m² 64 m² 70 m² DEPUTY 40 310 45 10 84 36 2 10 10 11 280 20 70 293 70 33 276 299 18 45 50 50 50 50 50 50 50 20 11 C-1 F3 Fix-2 W1 W2 Fix-6 GB-2 Fix_3 C-1 Mass F-8 W-4 W-5 W-3 C-2 C-2 Li-3 Li-4 FL-1 Fix_3 F-4 W1 FL-3 FL-1 Granite skirting Granite skirting Alluminium louvered ceiling 55.6 L/s 14 55.6 L/s Executive secretary_E-6 1:25 30 cm thick Rc slab Third +2032 Roof Terrace +2432 40. THINKKNOT DESIGNS:IGAD HQ DESIGN DEVELOPMENT. >>TOWARDS SUSTAINABILITY
FACADE MODEL DEVELOPMENT
Optionering
Option 2 Option 3:Final development option Option 1 3D-Form Parameters 41. ALEBEL DESTA CONSULTION ARCHITECTS AND ENGINEERS >>MODEL MAKING