1
God gave me life, my mum gave me a pen and ARCHITECTURE gave me the world. - ‘‘ Logic will get you from A to B. Imagination will take you anywhere.’’ - ‘‘ Architecture is where science and art break even. ‘‘
2
- Albert Einstein - Mieke Gerritze
INTENT
This portfolio is a living and changing collection of my journey, experience, creation and collections so far in the field of architecture, with the main purpose to earn an internship with an architecture firm that will use my architectural skill set and same time grow my ideas and imaginations into reality.
The combination of educational experience and internship in Architecture will ultimately make me a more qualified candidate in order to best suit the firm i work for and to grow my career.
J OSEPH O. A LI anjoe2@tamu.edu alijoe35@gmail.com
(832) 499 -3922
Texas A&M University College of Architecture 2014 - 2019 Architectural Works
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EDUCATION
EXPERIENCE
SKILLS Master of Architecture
ARCHITECTURE •
AUTODESK SUIT:
REVIT
AUTOCAD
FLOW DESIGN
•
INFRA WORKS
GOOGLE:
SKETCHUP
SKETCHUP LAYOUT
•
RENDERING:
VRAY MACHINE
VRAY NEXT
LUMION
•
SUSTAINABILITY:
CLIMATE CONSULTANT
SEFAIRA DIVA ARCSIMS LADYBUG
HONEY BEE
INSTRUCTOR • •
VIZ 700: INDESIGN
VIZ 702: ILLUSTRATOR
ART •
PHOTOGRAPHY:
Bachelor of Technology in Architecture Abubakar Tafawa Balewa University of Tech AUGUST 2011 - MAY 2016 BAUCHI, NG LEVEL: HIGHER
Secondary School Leaving Certificate. Command Day Secondary School MONTH 2002 - MONTH 2008
January 02, 2020 - January 13, 2020, St George, BM Historical Preservation, National Heritage Architect Hand Measurement Drafting Photogrametry
TEXAS A&M / Instructor
AUGUST 31, 2019 - PRESENT, COLLEGE STATION, TX I teach 100 students VIZ 284 (Adobe Creative Suite: Illustrator and InDesign) at the Department of Visualization
TEXAS A&M / Student Assistant
APRIL 22 2019 - AUGUST 30 2019, COLLEGE STATION, TX Worked at the OAL - open access laboratory assisting students with technological issues, video workstations, setting up smart classrooms, etc.
E.T.M.L.F. US.AID PROJECT / Architect/ Volunteer
AUGUST 2017 - MAY 2018, MAKURDI, BN S.M.I.L.E. - SUSTAINABLE MECHANISM FOR IMPROVING LIVELIHOOD AND HOUSEHOLD EMPOWERMENT Filling of NOMIS Monitoring WASH activities of the organization as WASH Volunteer Baseline assessment/Data collection Enumerator on TSHIP/WEIN Project HIV Counseling, Sensitization, and Adherence
A&A ARCHITECTS / Co-founder/ Architect JUNE 22, 2016 - PRESENT, LAGOS, NG Architect and Co-founder with Jeffery Azuatalam Content Management Decision Maker Site Architect
PONTI CO AND ITALWARE LIMITED CONSTRUCTION COMPANY/ Intern Architect DECEMBER 1, 2014 - MAY 20, 2015, LAGOS, NG Preparing Schematic Drawings Preparing presentation drawings of the Designs Preparing detailed drawings Preparing approval drawings Produced architectural drawings and detail drawings for clients
PHOTOGRAMETRY
RESERVATION
4
Texas A&M MONTH 2019 - MONTH 2021 COLLEGE STATION, TX GPA: 3.2/4.0
BERMUDA NATIONAL TRUST - Intern
HAND DRAFTING
MODEL BUILDING
ILLUSTRATOR
WOMEN EMPOWERMENT INITIATIVE IN NIGERIA / Volunteer MARCH 3, 2011 - DECEMBER 13, 2016, BAUCHI, BA
Monitoring WASH activities of the organization as WASH Volunteer Data Entry of IHVN/WEIN Orphan and Vulnerable Children Project Baseline assessment/Data collection Enumerator on TSHIP/WEIN Project
APPLICATION COURSES & CERTIFICATES
Architecture for Health (Health Track) Texas A&M MONTH 2019 - MONTH 2021 COLLEGE STATION, TX
Historic Preservation
PHILOSOPHY
RENZO PIANO Construction Stucture Detail in Detail
SHIGERU BAN
Vernacular Architecture for Health Sustainability Awareness
Texas A&M MONTH 2019 - MONTH 2021 COLLEGE STATION, TX
Sustainability
Texas A&M MONTH 2019 - MONTH 2021 COLLEGE STATION, TX
Adobe Illustrator CC Certificate of Completion
REM KOOLHAAS
BRENT FORTENBERRY
Theory of Architectrure Essay Politics in Architecture
Historic Preservation Varnacular Architecture Archaeology Center of Heritage
STEVEN HOLL
LILIANA BELTRAN
Udemy MONTH 2019 - MONTH 2021 COLLEGE STATION, TX
Adobe InDesign CC Certificate of Completion Udemy
2nd Position Texas Masonry Council Honorable Recognition
Command Day Secondary School MONTH 2002 - MONTH 2008
Illumination Lightening Passive Light as an Element of Architecture
Sustainability Green Architecture Daylighting design Environmental Management
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INTRODUCTION
RESEARCH CONCEPT
EVALUAT
6
PRESENTATION PRODUCTION & POST DESIGN
ATE PROGRAM
SELECTED WORKS
1 2 3
BOWIE OFFICE BUILDING CONSTRUCTION & ENGINEERING
FIVE BEDROOM DUPLEX
MOROCAAN FINISH WITH OPEN GARAGE
GENERAL MOTORS WASTE AS BEAUTIFUL
4 5 6
MULTI - PURPOSE TIMBER FURNITURE DESIGN
PROPOSED SENATE BUILDING
500L FINAL STUDIO DESIGN
SKETCH PROBLEM LANDFORD A - SCOATES
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Bowie construction and engineering Vray for Sketchup Illustrator
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UNITED STATES OF AMERICA
WORLD MAP
TEXAS STATE
BRYAN TX
CONSTRUCTION &
Organization & Demograpic Structure Of Bryan
Like many Texas communities in the mid- and late-19th century, Bryan began as a small-town stop along the state’s expanding railway system. But almost from the beginning, Bryan was different: It quickly distinguished itself from the many other railway stops across the state by flourishing into a vibrant–and permanent–center of business and trade. In the nearly 140 years since Bryan’s founding, many Texas railroad stops became nothing more than ghost towns. But the optimistic spirit and determination that built Bryan in its early years continues to define Bryan today. It is a community that successfully couples dynamic growth with historic importance.
Life Of Bryan
Before there was Bryan, there was Millican. The Houston and Texas Central (H&TC) Railroad Co. arrived in this community in 1860, making it the northernmost terminus. It soon became a vital distribution center for freight and Confederate troops throughout the Civil War.
ENGINEERING office BUILDING
That same year, William Joel Bryan, nephew of Stephen F. Austin, sold a single square-mile tract in a townsite north of Millican to railroad directors Abram Groesbeck and W.R. Baker. The $3,200 purchase would soon become a full-fledged city serving the railway, its employees and its passengers. The townsite was named “Bryan” in William Joel Bryan’s honor. Further expansion of the H&TC railroad was halted during the Civil War, but resumed afterward. Anticipating the arrival of the rail to Bryan in 1866, Brazos County citizens voted 190-42 to move both the county seat and the post office from Boonville to Bryan, which had grown into a village of about 300 residents (at the time, only white residents were included in official records).
Architectural Design 605 FALLS 2019 Completed by Joseph Ali Prof Ahmed K. Ali | University of Texas A&M The Commercial District is intended predominantly for heavy retail as well as light intensity wholesale and commercial uses of a servicenature that typically have operating characteristics generallycompatible with typical retail or shopping. Operating characteristics include service oriented uses requiring warehouse storage anddelivery areas, and having a greater service radius than retail stores. A 75-foot buffer is required when a Commercial District is physically adjacent to a Residential District, (this condition occurs at the northwest corner of the study area).
Architecture Of Bryan
The Rise Embassy St
Oceanography
Base Zoning Classifications Within owntown Bryan Commercial District (C)
185 Feet Aspire A&M Htl
Downtown District (DT)
The Downtown District is applied to the majority of properties within the core study area. This district was established to accommodate the existing development in the central area of Downtown Bryan and to protect the character of the downtown area. A wide variety of retail, office and institutional uses are permitted. Multi-family uses are permitted, but single-family uses are only permitted as part of another permitted use.
Car, Bus Stop & Pathwalk
Utility & Food
Single-Family 5000 Residential District (SF-5) This district is applied to areas along the eastern and western boundaries of the study area. The SF-5, Single Family 5000, district is intended to provide for the development of single-family detached dwelling units on lots of not less than 5,000 square feet. Support uses, such as religious, education, and open spaces, are permitted to maintain a balanced residential area.
Government & Religious
Natural & Green Space
Re-designing the Bowie school was a project we didn’t expect it to be very intense and detailed. we were face with so many difficulties and challenges ranging from how the building meets the ground and equally how it meets the sky. Before the design brief, we were told an old delapidated school shelf sitting in the heart of downtown bryan, Texas was going to be transformed into a glamourous construction, engineering and multi-funtional building. It was hard to move with the flow however we were excited about the project. The genesis stage was the collection - getting inventory, using data analysis and other building design softwares like FLOWDESIGN, LADYBUG, GRASSHOPPER and CLIMATE CONSULTANT, then the adoration process which was the most challenging due to the fact the city was old and has some historic preservation laws which anyone could easily have guessed the tallet building was just a 3 floors parking garage or hospital.
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PROJECT GOAL
SUSTAINABILITY & HEALTH GOAL
•ACTION AGAINST CLIMATE •LIFE ON SITE •HEALING GARDEN •GREEN SPACE
•PRESERVATION OF THE EXTERIOR WALLS OF THE BUILDING •CELEBRATORY ENTRANCE •HOW BUILDING METTS THE GROUND AND SKY
•CONSTRUCTION •ENGINEERING •RENTAL OFFICES
• PROVIDE A WORKPLACE AND WORKING ENVIRONMENT •CREATE HEALTHY WORKSPACE FOR MORE PRODUCTIVE EMPLOYEES •FUNCTIONAL/OPERATIONAL • FLEXIBILITY • TECHNICAL CONNECTIVITY
35%
15%
30% 20% 10
•RESPONSIBLE CONSUMPTION AND PRODUCTION •USE OF RAINWATER HARVEST TANK
Bowie construction and engineering Vray for Sketchup Photosop Illustrator
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LINEAR EXTRUSION
YES... CENTER POINT
MASSING THE CORE
URBAN FACADE With floors to ceiling curtain glass wall, the double skinned facade system cuts solar heat gain while providing panoramic Downtown
CORE + MASSING
12
SKYGARDEN & RESTAURANT Enjoy the spectacular view of the downtown district while dining in style with co-workers, business associates and love ones. Resturant located on the zenith of the building
GREEN SPACE & CELEBRATED ENTRANCE
The innovative green facade and garden will serve as a break area and patner to the urban facade pro viding an enviroment for wide variety of plants to flourish giving the building its iconic look as well a providing beautiful dappled natural light into the building
Bowie construction and engineering Vray for Sketchup Illustrator
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1 - Perapective Bowie construction and engineering flow design Wind flow velocity and pressure on building surface
2 - Perspective Bowie construction and engineering flow design Wind flow velocity and pressure on building surface
1 - Bowie construction and engineering flow design Wind flow velocity and pressure on building surface
2 - Approach Facade Bowie construction and engineering flow design Wind flow velocity and pressure on building surface
1 - Bowie construction and engineering flow design Wind flow velocity and pressure on building surface
2 - Bowie construction and engineering flow design Wind flow velocity and pressure on building surface
Lighting 1) Daylighting open office spaces on the North and South sides of the building works well. 2) External shading devices will work at the southern facade. 3) Internal light shelves with daylight glazing above (high visible transmittance (VT) and view glazing below (low VT), along with horizontal blinds on the view glazing, can maximize daylightingpotential and glare control. 14
Climate The primary driving forces in hot, humid climates: 1) Solar loads through the fenestration. 2) Significant cooling energy associated with removing indoor moisture. 3) Moisture ingress arising from storms or other disturbances.
HVAC 1) It is clear that consistent humidity control is absolutely essential. 2) A necessary strategy to maintain humidity control is proper dehumidification of all outdoor air (OA) for ventilation. 3) Radiant cooling systems (ceilings or chilled beams) are possible in a tightly sealed envelope with excellent humidity control at the DOAS.
Envelope 1) The goal is to reduce the heat gain through the envelope as much as possible through strategic fenestration and shading placement. 2) Glazing type is usually double glazed in order to protect the Low-E coating in the cavity to improve SHGC. 3) SHGCs that are intentionally low are recommended. 4) Cool roofs, which reduce solar heat absorption into the building.
U-Value & R-Value Reconfiguring the energy use intensity to the recommended minimum in climate zone 2 took the EUI to 22 which beat the LEED green building architecture 2030 standard. Photo-Voltaic Panels Applying Photovoltaic panels at the roof top to provide renewable energy brought the EUI down to 10.
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1
2
1A
3
2A
3A
4
5
4A
6
7
FIRST FLOOR PLAN
J
I
18
15
16
17
14
13
1.
Celebrated Entrance
2.
Receptionist and Bookings
3.
History and Museum of Bowie School
4.
Auditorium Hall
5. Cafteria
H ENTRANCE
6. Starbucks
G 12
10
11
7.
9
General Toilet/ ADA
8. Elevators F 7A
8
ENTRANCE
+10’
7
E 6 D
5 19
C
B
2
4
3
1
16
+8’
ENTRANCE
ENTRANCE
A
7B
9.
Laboratory Store
10.
Lab Entrance
11.
Meeting Room
12.
Cafeteria Store
13.
Lab Toilet
14.
CMT Lab
15.
Geo-Technical Lab
16.
Structural Steel Inspection Lab
17.
Soil Science Lab
18.
Service Staircase 1
19.
Service Staircase 2
GREEN ROOF
PICTORIAL MEADOW GREEN SEED MIX GREEN ROOF SUBSTRATE FILTER LAYER DRAINAGE / RESERVOIR PROTECTION LAYER WATER PROOF MEMBRANE INSULATION VAPOUR BARRIER PLYWOOD DECK
ventilation PARAPET CUSTOMISED ORB PERFORATED ANODISED ALUMINIUM SCREEN METAL FLASHING SEALANT BEAD MULLION
cold hair exchange during embodied energy exchange.
LAPPING OF AIR, WATER, VAPOUR PANEL CLIP BOLTED TO STRUCTURE FIBERGLASS BATT INSULATION ALUMINIUM PARAPHET CLAPPNG ALUMINIUM VENT FLAPS CANT METAL FURRING CONCRETE SLAB STRUCTURE
ventilation
17
1
1A
2
2A
5
3A
4
4
4A
5
6
3
2
EXTERIOR GLAZING: INSULATED GLASS
BASEMENT FLOOR PLAN
1
1.
Auditorium Hall
2.
Oprn Storage
3.
Mechanical Room
4.
Electrical room
5. HVAC 6. Staircase
-12’
18
ventilation
WASHED BACK AGGREGATE
INTERIOR GLAZING: SAFTEY GLASS
cold hair exchange during embodied energy
LIGHTENING AND MECHANICAL RECESS EXT.PLYWOOD SUFFIT CANTILEVERED CONCRETE SLAB
MECHANICAL AWNING
PLYWOOD BUILT-IN CABINETRY
PERFORATED ACOUSTIC
DEJO - GRATE CONVERTOR HEATER GRATE CONVERTER IPE 270 BURNISHED CONCRETE SLAB PLYWOOD CELING
ventilation
19
1
2
1A
2A
3A
4
5
4A
6
I 9
8
7
6
H G
THIRD FLOOR PLAN 5
F ENTRANCE
1
4
D
3
10 2
C B
A
20
11
12
1.
Office Space
2.
Office Space ( Private)
3.
Hall Seat-Out
4.
Stair Case
5.
Storage Room
6.
General Toilet + ADA
7.
Fitness Center ( Workers Only)
8.
Locker Room
9.
Laboratory Store
10.
Service Stair Case
11.
Public Library
12.
Private Library ( Workers Only)
GYPSUM WALL BOARD COVERED WITH VAPOUR BARRIER PRIMER OR PAINT
CONCRETE FLOOR SLAB FOAM TAPE GASKET AIR SEALS DRYWALL TO BOTTOM 60 MINUTE BUILDING PAPER OR HOUSE WRAP PRESSURE TREATED WOOD CAP STRIP EXTRUDED (DPC) INSULATION
2’’ POLYETHYLENE MOISTURE BARRIER DRAIN TILE IN GRAVEL BED
EXTRUDED POLYSTYRENE INSULATION (DPM)
SAND TERMITE SHIELD BRICK WALL
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1
2
1A
2A
3A
4
5
4A
6
I 9
H 8
6
7
G
4th - 7th FLOOR PLAN 5
F
1
4 3
D 2
C
22
10
1.
Engineering Office
2.
Engineering Open Office
3.
Conference Room
4.
Floor Corridor + Atrium
5.
Storage Room
6.
General Toilet + ADA
7.
Lecture Hall
8.
Mechanical Room
9.
Service Stair Case
10.
Service Stair Case 2
GREEN ROOF
SKY LIGHT LEVEL15 154’ - 0’’
LEVEL15 154’ - 0’’
GREEN AREA
LEVEL14 143’ - 0’’
LEVEL14 143’ - 0’’
LEVEL13 132’ - 0’’
LEVEL12 121’ - 0’’
OFFICE
LEVEL13 132’ - 0’’
OFFICE
LEVEL12 121’ - 0’’
OFFICE
LEVEL11 110’- 0’’
LEVEL10 99’ - 0’’
OFFICE
LEVEL10 99’ - 0’’
LEVEL 9 88’ - 0’’
OFFICE
LEVEL 8 77’ - 0’’
OFFICE
LEVEL 8 77’ - 0’’
LEVEL 7 66’ - 0’’
OFFICE
LEVEL 7 66’ - 0’’
LEVEL 6 66’ - 0’’
OFFICE
LEVEL 6 66’ - 0’’
LEVEL 5 55’ - 0’’
OFFICE
LEVEL 5 55’ - 0’’
LEVEL 4 44’ - 0’’
OFFICE
LEVEL 4 44’ - 0’’
LEVEL 3 32’ - 0’’
OFFICE
LEVEL 3 32’ - 0’’
LEVEL 2 20’ - 0’’
OFFICE
LEVEL 2 20’ - 0’’
LEVEL 1 8’ - 0’’
KITCHEN
LEVEL11 110’- 0’’
LEVEL 9 88’ - 0’’
ATRIUM
OPEN HALL
LEVEL 1 8’ - 0’’
TOILET 0’-0’’
0’-0’’
BASEMENT
BASEMENT
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Five bedroom duplex Vray for Sketchup Photoshop
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FIVE BEDROOM DUPLEXMOROCAAN FINISH WITH OPEN GARAGE Architectural Design 2018 Completed by Joseph Ali A&A Architects.
THE MAIN OBJECTIVE OF THIS PROJECT IS TO CREATE AN URBAN SPACE THAT IS AN ARCHITECTURAL HEAVEN WITH THE USE OF STRONG AESTHETICS AND ARCHIEVE A 6 BEDROOMS RESIDENCIAL SPACES WITH; THE LIVING ROOM, DINING ROOM, KITCHEN, BALCONY, AND LOBBY THAT WILL CONNECT THE ROOMS, SERVICE AREAS AND ENTRANCE SPACE THE BUILDING IS ORIENTED TO THE SOUTH IN ORDER TO FEEL THE COOL NATURAL BREEZE FROM THE SOUTH-WEST. IT HAS BEEN DESIGNED TO FIT AND IMPROVE THE NARURAL SURROUNDING AND ENHANCE GREEN ARCHITECTURE. A BALCONY IN BOTH SIDES WITH A PERGOLA WILL ALLOW RELAXING AFTERNOON AND NICE FAMILY TIME. A PATH WILL LEAD TO THE HIGHEST POINT OF THE BUILDING WHERE A WONDERFULL VIEW CAN BE ENJOYED FROM THE PENT-HOUSE.
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26
Five bedroom duplex Vray for Sketchup Photoshop
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01/A6.1
7
6
5
4
01/A5.0
3
2A
2
1
24210 1565
2271
2749
3230
2630
5030
10880 1450
2271
890
1200
1190
6620
5029
600
600 300
600
1205
1200
525
330 900
770
6851
1200
450 580
1829
1200
1740
1200
1450
300
+150 W1 F
900
1500
1680
6390
5600
1200
W1
900 E
001
FOYER
010
DINING
002
GARAGE
011
KITCHEN
003
BEDROOM
012
STORE
004
TOILET & BATH
013
STAIRHALL
005
LOBBY
014
RECEPTION HALL
006
BEDROOM
015
STUDY / LIBRARY
007
TOILET
016
TERRACE
008
LOBBY
009
MAIN LOUNGE
1200
014 +600
001 +450 2885
1800
3345
3115
W1
3450
1820
230
1175 230 010A
5765
1800
230 819
2265
1800
600
905
900
1500 +750
013
1800 001A
1595
150
013A
773
015A
+600
W1
440
1200
2079
E
50
1396
011A
011B
1670
5830
1630
012A
E1 825
1200
010 +750
011 +750
5370
W4
1690
5600
015 +600
3870
W4
3521
+150
230
W1
900 620 100
012 +750
W4
W4
2271
2400
W1
230 3000
230
W1
+750
F
011C
W1
W4
W4
W1
W4
676
009A
01/A5.1
D
6230 03/A6.1
18890
01/ A1.3.O
C
DRAWING NUMBER
385
+150
3115
3450
2215
B
W11
230
725
900
+150
007 007A +300
1950
2885
002B
2885
3115
B
2915
900
2700
900
2700
900
2700
900
07/A1.4.0
BUILDING SECTION CUT MARK
REFERENCE NUMBERING
W1
WINDOW REFERENCE
002A
DOOR REFERENCE
002
ROOM REFERENCE
3715
2585
006
900
005 +300
006A
A
A
W5
1130
1130
08
14
900
590
A1
2010
+450
004
2585
2490
003 +450
W8
1500
3945
2585
004A 003A
COLUMN GRID REFERENCE
01/A5.1
DETAIL NUMBER
900
009B
W1
008A
35 450 W1 +150 935 230 1465
900
230
002C
2215
1500
6230
1980
+150
1200
016
2315
825
1200
W1
1050
008 +300
900
002 +300
230
6000
C
6365
1200
W6
1500
2700
1200
900
1956
750
265 002A
3115
03/A6.0
18890
009 +300
008B
773
D
6360
230
B
W1
0
60
W1
005A +150
1200
517330 900 330 1130 230
1560
230
1200
1130
3000
230
14615
9928 1450
3230
6B
3000
5B
613
5A
1450 230 1220 230
3815 1790
1800
1430
10800
2630
5030
2200
4420
24545
7
6A
6
5
4
3A
3
2B
2
1
01/A5.0
01/A6.0
75x100mm HARD WOOD TIMBER KING POST 50x100mm HARDWOOD TIMBER PURLIN @ 900 c/c 50x100mm HARDWOOD TIMBER RAFTER @ 1200 c/c 50x100mm HARDWOOD TIMBER VERTICAL & HORIZONTAL c/c 75x100mm HARDWOOD TIMBER TIE BEAM @ 1200 c/c 50x50mm HARDWOOD TIMBER JOIST @ 600 c/c 50x50mm HARDWOOD TIMBER NOGGIS @ 600 c/c CELING BOARD 23x300 SOFT WOOD TIMBER FACIAL BOARD
28
7
6
5
4
3
2A
2
1
01/A6.1 01/A5.0 24210 1450
2271
2749
1450
3230
2630
5110
6540
8480
1450
3160
1200
14280 1190
600
600
600
300
1376
1200
2354
1200
2790
1240
2000
1200
1450
300
W1
W2
W1
W1
W4
W4
W4
W1
F
F 900 1200
W1
5600
5830
116
1630
+4050
5370
114
+4050
113
2660 +4050
118
D OPEN TO THE VOI
-
112
TOILET & BATH BEDROOM 1
RECEPTION BELOW
113
BEDROOM - 1
114
TOILET & BATH
115
DRESSING
103
MASTER DRESSING
104
LET & BATH MASTER TOI
105
MASTER'S BEDROOM
106
BALCONY
116
BEDROOM - 2
BEDROOM - 2 BEDROOM - 2
107
TOILET & BATH
117
LOBBY
108
VOID
118
BALCONY
109
STAIRHALL
119
MADAM'S BEDROOM
110
STAIRHALL LOBBY
120
MADAM'S DRESSING
111
BEDROOM-1 DRESSING
121
BALCONY (MADAM'S)
18775
10545
03/A6.1
W1
B
COLUMN GRID REFERENCE
C
13060
01/ A1.3.O
DETAIL NUMBER B
900 473
BUILDING SECTION CUT MARK
REFERENCE NUMBERING
5400
W1
+4050 106
DRAWING NUMBER W1
3715
530
W8
2515
W1
1200 405
A
A
0
60
1130
08 14 W5
A1
740
3715
1200
105
1200
6600
+4050
B
1867
106A
1915
W1
W2
W1
1915
9946
1200
1890
121
W1
2025
2995
7430
+4050
01/A5.1
230
1200 3334
1200
119
+4050
900
120A
FAMILY LOUNGE
102
D
150 800
107A
6820
610
2245
965
4950 3150
109
+4050 120
+4050 107
993
C
1765
1235
1120
117A
900
105A
900
+4050
2886
103A
W1
1200
104 +4050
4500
993
843
7430
18890
03/A6.0
2630
1170
900
119A
109A
1100
230
542
D
772
230
101
E
1500 117
1500
102
2884
1800
W3
108
1800
3344
1765
1100
900
780
1200
985
116A
815
W1
115
115A
W6
1385
113A
230
117B
1435
W10
230
542
230 1200 230
4190
770
+4050
1500
110
+4050
+3750
900
440
773
E
1570
+4050
111A
230
200
W1
1200
101A
230 1970
4150
900
1535
101
W4
440
+4050
4270
W4
1250
5600
5600
E1
2920
01/A5.1
3030
960
111 +4050 230
900
2105
112
1190
1275 600
+2250
W4
W4
2271
230
1250
WINDOW REFERENCE
002A
DOOR REFERENCE
002
ROOM REFERENCE
W8 680
850
7860
13410 5017
1447
6B
1500
5B
8930
5A
1450
2710
230
10800 3230
2630
5030
6620
24210 01/A5.0
01/A6.0 7
6C
6A
6
5
4
3
2
1
ASSORTED ITALIAN MARBLE TILES FLOOR FINISH. 150mm SAND SCREED FLOOR SLAB. 300mm COMPACTED HARDCORE. FOUNDATION WALL WITH WEAK CONCRETE. 225x675mm FOUNDATION FOOTING. 50mm WEAK CONCRETE BLINDING
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7
01/A5.0
2749
3721
6
5
4
3
2A
2
1
01/A6.1
230 779
24360 2100
426
1200
1125
230
7230
4570
3721
4570
6 W10 F
F 4020
230
4020
+7350
230
1800
W13
202 +7550 3640
202A
900
2749
5750
E1
1890 900 850 206A 207 206 +7550 W9 WATER 230 1900 TANK 1890
+7350
4020
230
2400
300
230
C
201B
C
2200
3115
3115 4
B
B 1200
205
STORE
206
DRESSING ROOM
207
BALCONY
208
BALCONY
1
RIDGE CAP
2
0.9MM THICK LONGSPAN CORRUGATED ALUMINIUM ROOFING SHEETS
3
DRAIN PIPE
4
ROOF GUTTER
5
ROOF GUTTER SIDE WALL
6
WATER TANK
7
PARAPET WALL
8
LINE OF PARAPET HANDRAIL
3
W9
1218
CENTRAL WATER HEATER ROOM
5
+7550
2886
3345
3115
900
230
LOBBY
204
D
1220
2485
900
2485
03/A6.1
205A
1215
5535
230
900 221
W9 230
3865 205
230
+7550
1270
5749
TOILET
203
15325
3515
1200
8
208
+7550
201A
201
2770
230
3115
3115
4039
03/A6.0
2770
204
230
7730
694
D
01/A5.1
MECHANICAL ROOM
202
E
207 900
W9
+7550
1500
+7550
1500
2885
1500
230 230
691
15325
01/A5.1
230
230
E
4570
15609
1730
1730
5535
203A
3865 W6
203
1500
+7550
204A
230
2651
1730
5749
201
918
+7350
+7350
A1
A
A
10
DRAWING NOTE
B
COLUMN GRID REFERENCE
01/ A1.7.0 1 3335 230
10335
4570
2200
230
6B
01/A6.0
10074 13695
5B
5A
01/A5.0
2
3621
01/A1.10.1
24260
7
6A
6
5
4
3
2
1
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BUILDING SECTION CUT MARK ELEVATION
Bowie construction and engineering Vray for Sketchup Illustrator
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GENERAL MOTORS WASTE AS BEAUTIFUL Architectural Design 605 FALL 2019 Completed by Joseph Ali Prof Ahmed K. Ali | University of Texas A&M
General Motors strives to develop environmental initiatives that promote sustainability and innovation. The offal as a galvanized by-product presents the opportunity to redesign the organic shape and give it a second life as a new, useful product. The offal as a sheet of malleable steel can thus be manipulated in various ways. For the purpose of this project, it was transformed as a modular element for a building skin system. The concept behind the modular skin system stems from zero-waste. This design utilizes the entire offal andpromotes General Motors’ mission to becoming zero-waste. As the offal is galvanized, and therefore water-resistant, I developed a sloped elementto help promote rainwater drainage. I then manipulated the offal to create space within the modular element, allowing for climbing vines to inhabit the space and make for a green, lush environment. 33
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CONCEPTUALIZATION Argurably the hardest and intersting part of being an Architect is when one tries to create a tangible idea of of nothing. The concept of the facade was gotten from the fusion of extruding and intruding triangles for a concept of final form that will create a flowing generic shade of light when it is been hit by the sun ray. During the genesis statge of the design, two final forms were established however after a good consulation with my professor ( Arc Ahmed K. Ali) I realised the first form had more depth, geomertic function and aesthetics so the first form got adopted for final touch. Consuming a zero waste design was a big challenge so i decided to turn the irregular far right and left sides of the offal backward which is going to serve as the connecting hands to the next offal.
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STEEL AS A SUSTAINABLE BUILDING MATERIAL
Technical challenges can always lead to projective projects that provoke new meaning in materials and fabrication. In the design world, a rejected concept is just a concept for later. Technical challenges present themselves in a variety of ways. When designs online do not adhere to constraints and fail in the manufacturing process, designers must innovate and redesign, leading to different projects. When projects fail, they also stimulate the desire to utilize other sources and create new networks to develop the project further. If a material was designed through contemporary digital practice to bend at a certain angle and fails to do so in the lab, new research can be developed and new experiments can begin in order to study the materiality of certain substances. Zahner experiments with different patinas, transforming metals and catalyzing design. If a certain chemical reaction is intended to make a metal blue colors the metal pink, new designs can utilize the pink metal and create new designs. Technical challenges create. Every technical challenge is an opportunity for discovery because in the design world, every concept is zero-waste.
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Once certain limitations are set, consulting with skilled engineers that understand the structural integrity of the ideas at hand help the architect design realistic goals. Creativity comes from understanding a designer’s limits and stretching, transforming them into something incredible.Every constraint has an attribute and every constraint is a design opportunity. Understanding the design demands of the client and users as well as their limitations stretches the opportunities left for the designer to manipulate. Architects must understand the budget at hand and the capacities of the manufacturer before even designing a concept. Collaborations between architects, engineers and manufacturing influence the design process before design development even starts. Design is a business, and as such, involves multiple parties with a variety of demands and only certain supplies.
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Multi-Purpose Furniture Vray for Sketchup Photoshop
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MULTI - PURPOSE TIMBER FURNITURE DESIGN Architectural Design 401 FALLS 2015 Completed by Joseph Ali Prof Charlse Onunze | Abubakar Tafawa Balewa Uni Of Tech
THIS PROJECT STEMS FOR THE CONCEPT OF DYNAMIC UNITY OF FUNCTIONS BASED ON THE WILL TO INTERPRETE THE WORK AS COMPLETE, MULTIDIMENTIONAL FURNITURE. THE FORM IS OBVIOUSLY A QUADRRILATERAL HAVING OPPOSITE SIDES PARALLEL GEOMETRIC FORM WITH MULTIPURPOSE FUNCTION TO FORM A BED HOLDER AND A FLOOR LEVEL, APPROPRIATE FOR COMMERTIAL, RESIDENTIAL AND RECREATIONAL PLACES. THE CREATION OF THIS FURNITURE TAKES ITS DIMENTION FROM SIMPLICITY WITH CONSIDERATION OF HAVING A BED HOLDER AND A FLOOR LEVEL IN ONE FUNCTION. A BED HOLDER SHOULDNT NECESSIRILY BE USED FOR BEDS ONLY BUT CAN ALSO SERVE AS A LEVEL BETWEEN TWO FLOORS.
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4000mm
500mm
100mm 400mm
3000mm
2800mm
500mm
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mm
Multi-Purpose Furniture Vray for Sketchup Photoshop
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PROPOSED SENATE BUILDING 500L FINAL STUDIO DESIGN Architectural Design 502 FALL 2016 Completed by Joseph Ali Dr Sarkile Kawuwa| Abubakar Tafawa Balewa Uni Of Tech
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PERSPE
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ECTIVE
SKETCH PROBLEM LANDFORD A - SCOATES Architectural Design 606 FALL 2019 Completed by Joseph Ali Prof (Dr) Kirk Hamilton | University of Texas A&M
THE CHALLENGE IS TO PLAN AN OUTDOOR SEMINAR SPACE FOR THE AREA BETWEEN LANGFORD A & SCOATES HALL TO ACCOMMODATE AT LEAST 25 PARTICIPANTS. AT MINIMUM, PROVIDE A PROPOSED
• • • •
SPACE PROGRAM CONCEPTUAL NARRATIVE A DETAILED SITE PLAN AND ATLEAST ONE 3D IMAGE
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Exisiting Live Oak Tree
Exisiting Ernest Langford Sculpture
Private Reading Area with Minimum Noise
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New Seminar Seatout with 28 Seat
Passage Connecting Lang ford and Scoates
QUIET STUDY
WATER
OUTDOOR HANGOUT
SEATING
SCULPTURE
SEMINAR AREA
g-
Design is a state of sepration and togetherness which allows easy alternation. Static enviroment expect the users to adapt to the design. introducion of both public and private sitout will have users operate it according to their need
Low possibility of Green life on site due to low penetration of photosynthesis from the sun. Approach - Introduction of plants that need little or low sun. Use of synthetic lightening for photosynthesis. Introduction of water body with fishes to serve as life on site
Our senses and emotions highly depends on the environment we live in, the built environment impact on our sense, emotions, participation in physical activities and the com53 munity
ADOPTION OF GREEN ROOF DESIGN AND PRACTICE IN MANGROVE SWAMP FOREST: A CASE STUDY OF SELECTED GREEN ROOF BUILDINGS IN NIGERIA.
BY ALI JOSEPH (REG. NO: 10/24573U/4)
A RESEARCH SUBMITTED TO THE DEPARTMENT OF ARCHITECTURE, SCHOOL OF ENVIROMENTAL DESIGN, ABUBAKAR TAFAWA BALEWA UNIVERSITY UNIVERSITY OF TECHNOLOGY, BAUCHI, BAUCHI STATE. IN PARTIAL FULFILLMENT OF THE REQUIREMENT FOR THE AWARD OF BARCHELOR OF TECHNOLOGY DEGREE_ (B-TECH) ARCHITECTURE.
MARCH 2016.
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ABSTRACT
THIS PROJECT STUDIES THE PROPERTIES OF GREEN ROOFS AND THEIR POTENTIAL MITIGATING EFFECTS ON THE URBAN HEAT ISLAND (UHI) AND HOW IT CAN HELP REGULATE THE MANGROVE SWAMP FOREST HARSH TEMPERATURE. THE UHI IS ASSOCIATED WITH MANY NEGATIVE EFFECTS SUCH AS INCREASES IN AIR POLLUTION, HEAT RELATED ILLNESS AND MORTALITY, WATER TEMPERATURES IN STREAMS, AND GREENHOUSE GAS EMISSIONS IN THE MANGROVE SWAMP FOREST. THESE NEGATIVE EFFECTS WILL BECOME PRONOUNCED AS IT IS ESTIMATED THAT OVER THE NEXT CENTURY, URBAN TEMPERATURES WILL INCREASE BY AN ADDITIONAL 3 TO 7OC. THE AIM OF THIS STUDY IS TO ESTABLISH THAT GREEN ROOFS ARE OF BENEFIT TO BUILDINGS AND ITS USERS. THE POTENTIAL THEY HAVE TO AID CONSERVATION OF CLIMATE IN AREA. MANY STUDIES HAVE BEEN CONDUCTED CONCERNING THE UHI EFFECT AND THE BENEFITS OF GREEN ROOF MITIGATION, BUT STUDIES HAVE BEEN LIMITED ON THE OVERALL EFFECTS OR BENEFITS GREEN ROOFS COULD HAVE ON AN ENTIRE CITY OR COUNTRY. WITH THE USE OF DATA COLLECTION, THIS PROJECT USED TWO EXISTING BUILDINGS IN LAGOS STATE TO GAIN A BETTER UNDERSTANDING OF THE EFFECTS WHICH GREEN ROOFS HAVE ON AN ENTIRE CITY. ONE BUILDING INCORPORATED GREEN ROOF WHILE THE OTHER IS MADE OF STANDARD BUILDING MATERIALS. THE BUILDING TEMPERATURES WERE MONITORED USING TEMPERATURE, HUMIDITY, RAIN, AND WIND SENSORS TO ASSESS THE IMPACT OF GREEN ROOFS ON THE OVERALL TEMPERATURE OF THE BUILDING. THE DATA WERE COLLECTED FROM DECEMBER 2015 TO JANUARY 2016, ON AN HOURLY BASIS. THE DIFFERENCES IN THE INDOOR AND OUTDOOR TEMPERATURES SHOW THAT BLACK ROOFS WERE WARMER IN BOTH CASES. GREEN ROOFS WILL CREATE AWARENESS AND HOPEFULLY PROVIDE GUIDELINES AND STEPS IN MICRO BUILDING CLIMATE WHICH COULD BE PLOUGHED BACK INTO THE DESIGN STAGES, CONSTRUCTION STAGE, AND REGULATORY STAGE AND MAINTENANCE STAGE
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