ARCHITECTURAL PORTFOLIO Canan Bas 2023
EDUCATION
CANAN BAS
bascanan@yahoo.com.tr
Trelleborger Str. 87, 13189 Berlin
0 178 8364573
01.08.1992
2019 - ...
PhD Candidate in Construction Sciences
Istanbul Technical University
Supervisor Prof. Dr. A. Nil Türkeri, Co-supervisor Dr. Michael A. Lacasse, Current GPA:4.00
2016 - 2019
Master’s Degree in Environmental Control and Construction Technologies
Istanbul Technical University
Supervisor Assoc. Prof. Dr. Fatih Yazıcıoglu, GPA:3.88
2010 - 2015
Bachelor Degree in Department of Architecture
Istanbul Technical University
GPA:3.53
2018
Erasmus Student Exchange in Building Performance Research Group
Eindhoven University of Technology
Supervisor Prof. Jan L.M. Hensen
PROFESSIONAL EXPERIENCE
2018 - 2023
Research Assistant in Istanbul Technical University
Department of Architecture
2015 - 2018
2014
2013
COMPUTER SKILLS
Drawing
Modelling
Building Performance
Architect in Akyürek Elmas Mimarlık
Intern Architect in Iglo Mimarlık
Participant in ‘Kent Düsleri’ Workshop Chamber of Architects, Istanbul
Autodesk Autocad | expert
Autodesk Revit | intermediate with certificate
Google Sketchup | proficient
Rhinoceros & Grasshopper | intermediate
Honeybee graphical interface for EnergyPlus | proficient Ladybug environmental analyse plug-in for Grasshopper| proficient Design Builder graphical interface for EnergyPlus | intermediate
LANGUAGE SKILLS
Visualisation
Adobe Photoshop | intermediate
Adobe Illustrator | intermediate
Adobe InDesign | intermediate
SCHOLARSHIPS
Other
MS Office | proficient
Turkish | native English | advanced
German | beginner
2018
2010 - 2014
PROFESSIONAL
Erasmus Student Exchange Program Scholarship
Sabancı Vakfı Scholarship for Undergraduate Students
Member of Chamber of Architects of Turkey
TEACHING EXPERIENCE
ACADEMIC WORKS
Building and Construction in Architecture
Introducing the concepts of building, construction and construction methods together with systems approach, architectural technology and construction technology.
2021 - 2022 Fall Semester | 2020 - 2021 Fall Semester teaching assistant with Prof.Dr.A.Nil Türkeri, Assoc.Prof.Dr. Fatih Yazıcıoglu, and Assoc.Prof.Dr. Ecem Edis
2019 -tt 2020 Fall Semester teaching assistant with Prof.Dr.A.Nil Türkeri
2018- 2019 Fall Semester teaching assistant with Prof.Dr.Hülya Kus
Construction project
A design project that aims to implement the ability of designing the building subsystems (the spatial system, structural system, building element systems and service systems) simultaneously in detail and integration of these subsystems with each other at every design stage: conceptual design, preliminary design project and construction project from 1/200 to 1/5 scale.
2022 - 2023 Fall Semester teaching assistant with Prof.Dr.A.Nil Türkeri
2021 - 2022 Fall Semester teaching assistant with Prof.Dr.A.Nil Türkeri
2020 - 2021 Fall Semester teaching assistant with Prof.Dr.A.Nil Türkeri and architect Alper Tüzünoglu student projects can be found in https://parasitehousingbeyoglu.wordpress.com/
2019 - 2020 Fall Semester
teaching assistant with Assoc.Prof.Dr. Ecem Edis
2018 - 2019 Fall Semester teaching assistant with Assoc.Prof.Dr. Ikbal Çetiner
Architectural Building Element Design
A design project that aims to gain knowledge about designing building elements and components considering user and performance requirements, building construction methods and integration of building elements and components with the remaining subsystems of the building, 1/50 and 1/20 scales.
2020 - 2021 Spring Semester | 2019 - 2020 Spring Semester
teaching assistant with Prof.Dr.A.Nil Türkeri
2018- 2019 Fall Semester
teaching assistant with Prof.Dr.Hülya Kus
Introduction to Building Construction
Introducing the concepts of building, building elements, architectural and construction technology, interaction of userenvironment-building, introduction of environmental factors and expected performance characteristics in this context.
2018 - 2019 Spring Semester
teaching assistant with Prof.Dr.A.Nil Türkeri and Prof.Dr.Hülya Kus
2018 - 2019 Fall Semester
teaching assistant with Assoc.Prof.Dr. Fatih Yazıcıoglu
RESEARCH EXPERIENCE
Dissertation
2019_ Bas, C. Investigating the energy efficiency of adaptive building skins and proposing a detailed folding adaptive skin system design for an office building in Istanbul Master’s thesis, Istanbul Technical University, Graduate School of Science Engineering and Technology
Conference articles
2022_ Bas, C. & Türkeri, A. N. Dünyada ve Ülkemizde Öne Çıkan Binaların Cephe Sistemlerinin Incelenmesi Türkiyede Mühendislik ve Mimarlıgın 250 Yılı Uluslararası Sempozyumu (accepted paper)
2022_ Bas, C., Türkeri, A. N. & Lacasse, M. A. Building Facade Failures due to Rainwater Entry in Turkey CIB World Building Congress 2022, IOP Conf. Ser.: Earth Environ. Sci. 1101, DOI 10.1088/1755-1315/1101/2/022011
2018_ Bas, C., & Yazıcıoglu, F. The Contemporary Architectural Approaches for Facade Design and Technology of Industrial Buildings in Turkey Proceedings of the 7th International Congress of Architectural Technology (ICAT) (pp. 231-246)
Book chapter
2023_ Bas, C. & Türkeri, A. N. Dogal Tas Kaplamalı Cephe Sistemi Tasarım ve Yapım Ilkeleri (Natural Stone Cladded Facade System Design and Construction Principles) in Mimarlar için Dogal Tas Rehberi, (Natural Stone Guide for Architects), Stoneline Publications, ISBN: 978-6057344717
master’s thesis design and performance evaluation of an adaptive skin
Adaptive building skins that can act and adjust in respect to changing environmental factors offer a high potential of providing high quality interiors by manipulating exterior factors and decreasing energy consumption. Aim of this study is to explore energy efficiency potential of adaptive building skins designed as a second skin for existing high rise office buildings designed with fully glazed facades in Istanbul. Annual heating and cooling energy performance of four adaptive skin concepts with different movement types are investigated for a base office unit with typical office features by EnergyPlus linked to Grasshopper and Rhinoceros via Honeybee. Motion trigger of each concept is defined by three control strategies to observe the effect of different triger parameters on energy performance. Best performing adaptive skin concept is designed in detail in terms of movement pattern, geometry and dimensions to suit exemplary office building. Results show that studied adaptive skin concepts cause a decrease in total annual heating and cooling energy demands between 21.20% and 61.87%.
FOLDING ADAPTIVE BUILDING SKIN
Parameters for three different control strategies
1 galvanized vertical aluminum profile
2 galvanized horizontal aluminum profile
3 steel bracket
4 steel grid
5 turnbuckle with clevis ends
6 stainless steel cable
7 steel plate
8 steel anchor
9 clamp fixing
10 steel plate and bolts
11 clevis with support washer
12 T shaped clevis holder plate
13 electromechanic linear actuator
14 stainless steel rods
15 stainless steel sliding hinge
16 stainless steel ball and socket joint
17 solar radiation sensors
18 anodised aluminum mounting for sensors
19 stainless steel mounting for actuator
20 galvanised aluminum frame
21 surface elements
22 continuous hinge
23 galvanized aluminum corner plate
PROFESSIONAL WORKS
VILLA in FLORYA
conceptual design drawings for local municipality approval construction project drawings for villa and swimming pool
A villa is designed in Florya, Bakırköy in a 1029m2 area with 950m2 total construction area. Two storey building has a basement floor and an attic. It is designed for a family of four. Living room, kitchen, dining room and a cloakroom is located on the ground floor. First floor has three bedrooms that have their own wc and dressing room. Living spaces are faced to south side of the building with a backyard. Living room is connected to the garden with a terrace covered with steel construction and sunshades. Building has a decorative pool, a swimming pool, a bar and sun porch in the backyard. Entrance for pedestrians and cars, open carpark area and a security building is placed in the front side of the building.
1 SITE PLAN VILLA IN FLORYA NORTH 11 12 13 14 15 A B A B
4 10 14 16 17 A A B B 1 GROUND FLOOR PLAN VILLA IN FLORYA NORTH 2 1 2 3 4 5 6 7 8 9 10 14 15 15 16 2 1.FLOOR PLAN VILLA IN FLORYA A A B B NORTH 16 17 18 19 20 21 22 23 24 25 26 27 1 cloakroom 2 wc 3 hall 4 room 5 cooking area 6 kitchen 7 terrace 8 living area 9 terrace 10 dining room 11 sun porch 12 wc 13 changing room 14 parking area 15 security 16 hall 17 bedroom 18 dressing room 19 wc 20 storage 21 bedroom 22 dressing room 23 wc 24 living room 25 wc 26 master bedroom 27 dressing room 28 sports room 29 wc 30 living area 31 wc
3 AA SECTION VILLA IN FLORYA 1 2 10 8 5 5 6 8 9 27 18 17 28 29 30 11 14 1 4 BB SECTION VILLA IN FLORYA 8 6 5 5 1 4 6 22 23 31
1 roof system
roof covering, metal standing seam
waterproofing
thermal insulation
roof structure and deck, RHS profiles and OSB
ceiling, gypsum board
2 external wall system
finishing, plaster and paint
thermal insulation
core, aerated concrete blocks
finishing, plaster and paint
3 projecting floor system
flooring, laminant parquet
underfloor heating in screed
sound insulation mat
floor structure, reinforced concrete hollow core slab
thermal insulation
finishing, plaster and paint
4 external wall system
cladding, natural stone with mechanical
fixing
thermal insulation
core, aerated concrete blocks
finishing, plaster and paint
5 floor system
flooring, laminant parquet
underfloor heating in screed
sound insulation mat
floor structure, reinforced concrete hollow core slab
ceiling, gypsum board
6 floor system
flooring, laminant parquet
underfloor heating in screed
floor structure, reinforced concrete hollow core slab
ceiling, plaster and paint
7 pool floor system
flooring, ceramic tile
screed
floor structure, reinforced concrete hollow core slab
ceiling, plaster and paint
8 floor system on ground
flooring, ceramic tile
underfloor heating in screed
filling
floor structure, reinforced concrete raft
foundation
waterproofing
lean concrete
compacted ground
9 window system
aluminum profile frame
double glazing
±0.00(+10.00) +0.12 12.02 m2 12.44 m2 -0.10(+9.90) ±0.00 Z-10 3 GROUND FLOOR PLAN VILLA IN FLORYA 1/25 ±0.00(+10.00) +0.12 LIVING ROOM DECORATIVE POOL DETAIL DRAWING 5 MU-8 21.68 m2 12.23 m2 ±0.00(+10.00) +0.12 1-14 1-12 4 1.FLOOR PLAN VILLA IN FLORYA 1/25 +4.00 +4.12 HALL BEDROOM 4 9 DETAIL DRAWING 1 MU-8 DETAIL DRAWING 2 MU-8 DETAIL DRAWING 4 MU-8 DETAIL DRAWING 3 MU-8 1 2 3 4 5 6 7 LIVING ROOM ATTIC 1.FLOOR HALL GROUND FLOOR LIVING ROOM TERRACE DECORATIVE POOL 2 SOUTH ELEVATION VILLA IN FLORYA 1/25 1 DD SECTION VILLA IN FLORYA 1/25 Lorem ipsum 8 STORAGE BASEMENT 4 9
construction project drawings coordination with engineering team and consultants
The new warehouse building for the clothing store chain LC Waikiki is built on a 20.700 m² land in Istanbul, Esenyurt. The building has a total construction area of 58.300 m², including the ground floor and three basement floors. The building is located in a sloped land. There are three entrances in different levels through a total of 16 truck doors and 12 hydraulic ramp doors together with an office entrance and an employee entrance. Since it is a logistics center, a total of 397 parking spaces are planned by giving importance to the entrance and circulation of vehicles. In addition to storage and shippping areas, there are offices located in the mezzanine floor on the northeast side of the building. On the southwest side, spaces are designed to meet the needs of employees such as changing rooms, cafeteria, and dining hall.
LCW WAREHOUSE
1 GROUND FLOOR PLAN LCW WAREHOUSE A NORTH B B 1 PARKING ENTRANCE OFFICE ENTRANCE 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 22 19 20 21 23 24 25 26 STAFF ENTRANCE A
(127.70) -13.10 (128.90) -20.60 -0.75 (141.25) -18.60 (123.40) -13.10 (128.90) -9.30(132.70) 2 A-A SECTION LCW WAREHOUSE +15.00 +9.50 +12.50 -9.20 -5.40 -4.50 -0.50 +2.00 +6.00 -0.45 (141.55) (142.19) -14.44(127.56) +5.10 +13.50 +15.60 +15.60 2 27 28 29 30 32 33 31 35 36 34 3 B-B SECTION LCW WAREHOUSE +1.00 (143) -5.50 (136.5) (138) (137.46) -6.75 (135.25) +1.00 (143) -20.60 -13.10(128.9) -18.60(123.4) -18.60(123.4) +15.00 -13.10(128.9) -5.50 (136.5) +4.40 +12.50 +15.60 +13.50 +13.50 -7.10 (134.9) -6.70 +15.60 +5.40 +8.40 4.40 (137.66) 2 27 28 29 37 38 39 1 entrance control 2 storage 3 shipping area 4 battery charging area 5 wc 6 electrical room 7 transformer room 8 transformer room 9 transformer room 10 transformer room 11 transformer room 12 electrical room 13 electrical room 14 reception 15 security 16 electrical room 17 technical room 18 technical room 19 technical room 20 technical room 21 technical room 22 wc 23 electrical room 24 technical room 25 technical room 26 entrance control 27 storage 28 storage 29 storage 30 water reservoir 31 shipping area 32 staff changing room 33 dining hall 34 shipping area 35 offices 36 offices 37 battery charging area 38 battery charging area 39 battery charging area
1 roof system
roof covering, gravel
seperating layer, felt
thermal insulation, XPS
board
waterproofing
sloping screed
roof structure and deck, reinforced concrete waffle slab
ceiling,plaster and paint
2 external wall system
finishing, metal trapezoidal
sheet
thermal insulation, rockwool
board
core, metal casette profiles on RHS steel construction
finishing, gypsum board
3 window system
aluminum profile frame
double glazing
aluminum window sill
4 floor system
flooring, linoleum
levelling screed
floor structure, reinforced concrete waffle slab
finishing, gypsum board
suspended ceiling
5 floor system
flooring, linoleum
levelling screed
floor structure, reinforced
concrete waffle slab
finishing, plaster and paint
6 floor system
flooring, hardened concrete
floor structure, reinforced concrete waffle slab
7 floor system
flooring, reinforced concrete
thermal insulation, XPS
board
waterproofing
sloping screed
floor structure, reinforced
concrete waffle slab
8 terrace floor
roof covering, gravel
seperating layer, felt
waterproofing
thermal insulation, XPS
board
sloping screed
roof structure and deck, reinforced concrete waffle slab
ceiling,plaster and paint
9 external wall system
finishing, metal trapezoidal
sheet
thermal insulation, rockwool
board
core, metal casette profiles on RHS steel construction
reinforced concrete paraphet with metal coping on top
finishing, plaster and paint
10 canopy
metal composite cladding on RHS steel construction
LC WAIKIKI OPERASYON MERKEZİ A GİRİŞİ +15.60 +9.00 +5.00 +1.00 +0.00(142) +13.50 +12.50 +11.00 -0.20 +4.40 +5.00 +10.00 J 1 EAST ELEVATION LCW WAREHOUSE A 2 A 1 A 3 B 4 A 2 +6.90 +5.90 +10.90 +1.00 D 1 +1.80 D B 4 C 3 C 3 P6:4200/100 P6:4200/100 P8:330/660 K6:300/300 +1.59 D 1 A 1 +9.90 1. WHITE- RAL 9002 FACADE KEY 2. BLUE- RAL 5007 COLOR CODE A color code material MATERIAL A. METAL CASETTE FACADE SYSTEM 3. GREY- RAL 7004 4. GLASS- GREEN B. DOUBLE GLAZING C. ALUMINIUM PROFILE FRAME D. PLASTER AND PAINT
+13.50 +12.50 +9.00 +5.00 1. FLOOR MEZZANINE FLOOR +1.00 GROUND FLOOR +5.10 -0.20 (141.80) -0.75(141.25)
LCW
BASEMENT FLOOR STORAGE +9.50 +7.80 +10.90 +9.90 +9.20 +6.90 +5.90 +4.40 +5.00 12 DETAIL 03 6 7 SHIPPING AREA OFFICE OFFICE 5 4 1 2 3 8 DETAIL 04 DETAIL 01 DETAIL 02 +5.90 +6.90 OUT IN 2 2 3 5 DETAIL 03 12 9 +12.50 1 3 DETAIL 01 OFFICE TERRACE 4 DETAIL 02 2 4 8 -9.30 OUT 10 -9.30 -9.20 IN 5 2 6 DETAIL 04
2 D SECTION
WAREHOUSE
APARTMENTS in GAYRETTEPE
conceptual design drawings for local municipality approval
Two apartment blocks in the neighbour plot areas designed with similar approach to create a harmony. There is a common vehicle and pedestrian entrance between the two apartments meeting in a common garden. One of the blocks contains 18 flats with 10 residential storey and 2 storey of parking. The other block has 16 flats with 9 residential storey and 3 storey of parking. Both blocks have vehicle elevators to reach the parking area below ground floors. Facades of the blocks degined with a modern approach with the use of 3 colours; white, grey and wood.
1 GROUND FLOOR PLAN KUZEY 17 18 A 43 45 A A 13 15 16 17 18 19 20 VEHICLE ENTRANCE VEHICLE ENTRANCE VEHICLE ENTRANCE VEHICLE LIFT VEHICLE LIFT BUILDING ENTRANCE BUILDING ENTRANCE NEIGHBOUR BUILDING NEIGHBOUR BUILDING GENERATOR GENERATOR NORTH A A 3 1,2,3,4,5.FLOOR PLAN 11 13 15 17 20 4 1,2,3,4,5.FLOOR PLAN NORTH
(19.77) (16.47) (10.57) (7.97) (13.17) (23.24) (26.71) (6.95) (18.85) (13.80) (17.00) (19.77) (30.18) (33.65) (37.12) (40.59) (44.06) 1 11 17 14 11 10 13 14 15 16 17 19 12 13 15 16 19 20 8 8 14 15 2 A-A SECTION
