MERVE ÖZCAN | Architectural Portfolio

ARCHITECTURAL PORTFOLIO

. MERVE OZCAN

2020

EXPERIENCES Worksite Internship .2019 summer Firm | Aydoganlar Insaat Project | Capella Park Residence Mimarlar ve Han Tümertekin | Workshop .2018 spring Permeablity of bordes

Merve Özcan

CONTACT

PROGRAMS

Architecture Student 3rd Year

Phone | 05455496333

28.05.1997

Mail | 7merveozcan@gmail.com

EDUCATIONS

LANGUAGES

Kadir Has Üniversity | Faculty of Art and Design Architecture | 3.42 GPA +Khas Honour Scholarship

Turkish | Mother language English | Pre-Intermedıate Italian | Elemantry

Rhinoceros Autocad Adobe Illustrator Adobe Photoshop Adobe Premier Adobe InDesign Lumion Sketchup Grasshopper MS Office

Prof. Dr. Orhan Oguz High School | Eskisehir

REFERENCES

CONTENT

Büsra Al Founder | PLUGOFIS Lecturer at Kadir Has university BArch | Yıldız Technical University MArch | Bilgi University busra@plugofis.com

corten steel

glass

glass ±3.30

glass

Tutku Sevinç Fam Illustrations Lecturer at Kadir Has University BArch | Istanbul Technical University MArch | Istanbul Technical University tutkusevinc@gmail.com

Ali Onat Founder | UNCHARTED Lecturer ar Kadir Has University BArch | Bogaziçi University MArch | Rhode Island School of Design aoturker@gmail.com

glass

glass

URBAN GRAFT

19

JUNK SPACE

35

PARKING GARAGE

57

±10.10

±8.35

±6.70

01

glass

corten steel

corten steel

SOMEWHERE IN CAPPADOCIA

±4.80

glass

glass

73

FROM OBJECTS TO BUILDING

+10.20

+10.20

glass

corten steel

+6.75

±6.70

+6.30

+6.30

corten steel +4.20

+4.20

+2.10

+2.10

glass

glass

81

glass +2.10

TENSILE WALL

85

HOSTEL

93

A SPACE FOR

99

KHAS CAR PARK TO GREEN GARDEN

105

FROM BUILDING TO CHAIR

111

PARAMETRIC PAVILION

01. URBAN GRA Architectural Desi

01

AFT .COOPERATION ZONE

ign 4 .spring 2020

Location| Çırpıcı Park . Tutor| Büsra Al Functions | urban agriculture, green houses, vertical farming, transformation of energy, public kitchens, workshops, market spaces, organic bazaar, restaurants, service areas, urban structures and bridges 1/2000 plan team work| partnered with: Sevtap Özyıldırım, Bahar Özge Ediz, Muhammed Hasan Zelveci | area: 440.000 m2 Indıvıdual work area: 110.000 m2

02

03

04

1/2000 MASTER PLAN

05

06

07

1/1000 MASTER PLAN OF COOPERATION ZONE

08

AXONOMETRIC VIEW OF SITE

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10

INTERSECTION OF DIFFERENT AREAS

TOGETHER OF GREEN ENTRANCE AREA DEFINING THE SQUARE AT HE BEGINNING OF THE ZONE, MARKET SPACE, GREEN HOUSES AND STREAM.

11

TOGETHER OF MULTIPLE STRUCTURES DEFINING THE MAIN SQUARE AND VERTICAL FARMING IN FRONT OF THE SQUARES.

TOGETHER OF BAZAAR AREA WIDENING PARALEL TO THE STREET, PUBLIC KITCHEN AND WORKSHOP AREAS BEFORE CROSSING THE STREET IN THE AGRITULTURE AREAS AND MULTIPLE STRUCTURES DEFINING THE MAIN SQUARE.

TOGETHER OF MULTIPLE STRUCTURES DEFINING THE MAIN SQUARE, VINEYARD AND OLIVE GARDEN SERVICES AREAS, HALF PERMEABLE CITY PLACE AND STREAM.

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MULTIPLESTRUCTURES DEFINNING THE MAIN SQUARES

13

AGRICULTURE BUILDINGS

14

SPECIAL BUILDINGS

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SECONDARY BUILDINGS

SALES BUILDINGS

16

1/500 B-B SECTION

1/500 A-A SECTION

17

1/500 PARTITIAL SIT

TE PLAN

1/500 PARTITIAL GROUND PLAN

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1/200 PARTITIAL GROUND PLAN

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1/200 A-A SECTION

1/200 B-B SECTION

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02. JUNK SPA Architectural Des

21

ACE

.TRANSITION PANELS IN THE PASS sign 3 - PROJECT1 .fall 2019

Location| Karaköy-Persembe Bazaar . Tutor| Ilgın Avcı Functions | cinema, exhibition, bazaar, resting area, recreation area, music area Team work | partnered with: Muhammed Hasan Zelveci Area: 1500 m2

22

COMPARISON OF THE PASSES There are exit from several points after entering the underground tunnel. The boundaries of the shops inside are not clear and existing structures can turn into a place. At night, when the shutters come down, there turns into a quiet and scary place

23

While entering the tunnel, its exit is visible. We can move forward by experiencing a change of place on the coastal road without disturbing the continuity. There are temporary places inside. Stairs at different levels can be made of benches thanks to cardboards and baskets.

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25

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.Movable panels provides flexible places on the structural bond in the tunnel and its entrances 27

ACTION OF PANEL

28

The places consisting of the structure and the panel do not define a specific function. Every place is temporary and left to the user experience.

Panels that adapt to the dynamic life of the Karaköy; The day ıt started as an exhibition member on the sea, can finish as the cabin of the homeless in the evening passage. At another time, ıt can start the day as a child’s car.

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03. PARKING G Architectural Des

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GARAGE

.FLEXIBLE VOID sign3 - PROJECT2 .fall 2019

Location| Karaköy . Tutor| Ilgın Avcı Functions | car parking, auditorium, restaurant, cafe, buffet, library, rehearsal area, store, musıc studio Area: 3000 m2

36

STREET AND BUILDING INTERSECTION

37

Persembe Bazaar zone has close, open half-open places. We cannot understand urban parts such as streets, buildings, shops, crossroads, inner courtyards; because of the relationship between street and building. The streets act like the open places of the buildings and become special. On the other hand, the street can be connected to the inner courtyard of a building without disturbing its street texture and continuity.

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STREET STARTS

HANGING ELEMENTS

SITE

PEDESTRIA

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AN CIRCULATION

CAR CIRCULATION

FIRST SKETCH

40

The contunity of the streets used as the parts of buildings were cut ın this area. A part of the area is used as a car park and other part was closed with wire mesh. The beach and streets pedestrian circulatıon was blocked. There was no transıtıon between the use of the coast and street and the main street. The first thing that is purpuse ın the project is to provide pedestrian street Pesembe bazaar streets and coast flow of the user. Then to provide controlled transıtıon of vehicle flow between coast and street.

For these first purposes, the building was placed in three blocks. Thanks to the life in the ground plane and changing building, a dynamic void is provided.

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PARTS OF THE BUILDING

PARTS OF THE STRUCTURES

43

parking areas

functions

all the structures

main structures

locomotive units

circulation zones

secondary structures

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LOCOMOTIVE UNITS

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1/200 PLAN GROUND FLOOR coffee shop

47

atmosphere on the ground floor

48

1/200 PLAN 1. FLOOR

49

atmosphere on the gr

round floor

50

1/200 PLAN 2. FLOOR

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1/200 PLAN 3. FLOOR

workshop

rehearsal area

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1/200 PLAN 4. FLOOR

foyer

1/200 SECT

53

backstage

workshop

restaurant car lift

TION

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1/200 PLAN 5. FLOOR

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1/200 PLAN 6. FLOOR

1/200 PLAN 7-8. FLOOR

56

±8.35

±6.70

glass ±3.30

glass

glass

04. SOMEWHER .INTEGRATED C +10.20

+6.30

+4.20

ARCH358 - B .spring 2020 +2.10

57

±10.10

corten steel

corten steel

glass

±4.80

glass glass glass

corten steel

Location| Kapadokya . Tutor| Cem Yücel, Aslı Suner, Tayfun Aksoy

glass

RE IN CAPPADOCIA

CONTRAST

Functions | accommodation, restaurant, ceramic workshop, library, wine cellar, jacuzzi room Area: 900 m2

+10.20

glass

corten steel

+6.75

±6.70

+6.30

corten steel

Building Technologies and Materials +2.10

glass

Team work | Partnered with : Gizem Güleryüz, Yigithan akçay

+4.20

glass +2.10

glass

58

ABOUT CAPPADOCIA

FIRST DECISIONS- first sketches Underground cities are collective living spaces formed by carving in the undergroung. Also mix Rock-Cut-Masonary and Masonary constructions structures are various house types in Cappadocia. Common materials are ‘TUF’ and NATURAL STONE’

circulations ground circulations

underground circulatio

natural air duct

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MASSIC DECISIONS

functions

On the ground floor, the mass was placed behind the fairy chimneys. There is a public transition between the street and the slope.

restaurant

workplace

ons

ceramic workshop underground rooms

wine cellar

The common corridor is reached from the 5-level circulation atrium. the rooms are reached from the corridor.

underground plan

wine cellar underground rooms

The tasting area and cellar are reached from the atrium at -10 level

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1/50 1.FLOOR PLAN

UNDERGROUND AIR CIRCULATION air circulation in the ventilation pipes is provided through the openings in the slope and atrium

DOMINANT WIND DIRECTION ±0.00

building located to using wind positive effectly

6LWWLQJ DUHD

-10.20

±0.00

rooms on the slope face south

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+3.40

+3.40

±0

±0.00

+5.00

SUN LOCATION

+3.40

/LEUDU\

+5.00

1/50 2.FLOOR PLAN

7UXVW

±0.00 ±0.00

±0.00

±0.00 -10.20

Receptıon

±0.00 7UXVW

Kıtchen

0.00

±0.00

ş

±0.00

:RUNVKRS

ş

ş

5HVWDXUDQW

0

7UXVW

7UXVW

±0.00

7UXVW

7UXVW

7UXVW

62

63

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1/50 -5 PLAN -10.20

6WRUH

-5.00

-5.00

-5.00 -5.00

5RRP

5RRP 5RRP 5RRP

1/50 -10 PLAN

:LQH &HOODU

-10.20

-10.20

65

5RRP

3RRO 5RRP

1/20 DETAILS - CARVING JACUZZI ROOM System plan 1/20

Detail 1 1/10

Detail 1

Detail 2

System Section 1/20 Detail 2 1/10

Detail 3

Detail 3 1/10

Detail 4

Detail 4 1/10

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1/20 DETAILS - roof, wall and foundations

System Section 1/20

Detail 2

Detail 2 1/10

Natural stone Blockage 15 cm

Detail 1 System Section 1/20

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Detail 1 1/10

1/50 A-A SECTION

+10.20

+8.60

+6.30

+4.30

+4.20 +3.40

5HVWRXUDQW

+2.10 +1.70

0.00 -1.20 -1.70

-3.57

-2.10

5RRP

-5.00

-6.80

:LQH &HOODU

-10.20

68

1/50 B-B SECTION

+10.20

+8.60

+6.30

+6.25

+4.20 +3.20

5HVWRXUDQ

+2.10

6WRUH

69

1/50 C-C SECTION

+10.20

+6.30

+3.35

QW

+5.20 +4.20

:RUNVKRS

+2.10

0.00 0.00

-1.20

-1.20

-2.10

-2.10

3RRO URRP -5.00 -5.00

70

1/50 ELEVATION FROM SOUTH

1/50 ELEVATION FROM EAST

±10.10 ±10.10 ±8.35 ±8.35

corten steel glass glass

glass glass

±8.35

±6.70 ±3.30

glass glass

±3.30

glass glass glass

±3.30

glass

corten steel corten steel

±10.10

±6.70 ±6.70

corten steel corten steel

glass glass

glass

±4.80

glass glass

glass glass glass

±4.80

glass

glass

glass

corten steel glass corten steel glass corten steel glass

1/50 ELEVATION FROM NORTH

1/50 ELEVATION FROM WEST

+10.20

+10.20

+10.20

+10.20

+10.20

+6.75

corten steel corten steel+6.75

glass

+2.10

glass glass

glass glass

+2.10

glass

glass

±6.70

±6.70

+4.20 +2.10

+2.10

+4.20

+2.10

glass +2.10

+2.10

71

corten steel

+4.20 +6.30

corten steel

±6.70

+6.30

+4.20 +2.10

+4.20

+6.30

+6.75

+6.30 +4.20

corten steel corten steel

+10.20

glass glass

+6.30

+6.30

corten steel

±4.80

+2.10

glass glass

1/50 DETAIL

72

05. FROM OBJ .CONSOLE WIT

FAD323 STRU

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JECTS TO BUILDING

TH BALANCE

Tutor| Ali Onat Türker Functions | open-aır cınema, stage or just publıc space ın the park Area: 400 m2

UCTURAL EXPERIMENTATION .spring 2020

74

SYSTEMS

FOCUSED SYSTEMS

A model was made on the colsol, bridge and tower systems using home applian things discovered here.

75

nces. Then, console systems were focused. A new system was produced with the

There are similar situations in these two systems. For the cantilever system to carry, the center of gravity must coincide with the carrier. Here triangles appeared and tension systems were used.

The load flow of the two systems was examined. Equal loads from opposite directions must come to keep the system in balance

These diagrams are console systems from models

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SYSTEM BALANCE OF CONSOLE AMP, STAGE AND ROOF 1.PART- AMP

2.PART- STAIRS AND STAGE The center column , which is part of every system, carries the console amp here.

system

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details

While t the we stage.

system

details

3.PART- ROOF Since the center of gravity of the roof is on the left of the column, it is pulled from the opposite direction. The center of gravity of all cantilever systems coincides with the central column.

the first system focuses on the left of the column, eight is given in the opposite direction with the .

s

system

details

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06. TENSILE W

FAD323 STRU

81

WALL

Tutor| Ali Onat Türker

.PORE

Team work| partnered with: Bugce Akdogan, Deniz Gülcan, Tugba Erkutlu, Basak Güven Materials| needle, rope, flexible fabric, wire, lock,

UCTURAL EXPERIMENTATION .spring 2020

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07. HOSTEL .S

Architectural

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SLEEP FACADE

l Design 2 .fall 2018

Tutor| Ali Dur Functions| accommodation, public backyard, cafe, public theatre stage Area| 240 m2

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The site in the Tesvikiye neighborhood has a facade in the bustling street and a common backyard with other apartments.

backyard The first decision in the project is the public transition between the street and the garden.

backyard

The ground floor of the building was left empty and the mass was raised up.

While the space and the garden texture combine with the space left on the ground floor, leaving the iconic and single-function half facade to the street, on the side facing the garden; The aim was to build a public space, green texture, and private rooms.

street sleep facade 87

garden

private room

public spaces

first sketch about sleep facade

first sketch about collective garden side

ELEVATION

SITE PLAN

88

1/100 GROUND PLAN

sleep facade

collective area

public room

common backyard

theatre stage

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There are shared rooms and bed units opening to the street in the three-floor sleeping facade.

1/100 A-A SECTION

On this facade, the people in the street can be informed of the movements in the privacy of the hostel, such as sleeping. The facade, which always has a different silhouette, is in communication with the streetkalÄąyor.

1/100 B-B SECTION

You can meet people you do not know in shared rooms and you can be isolated while sleeping

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sleep facade model

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1/100 1. floor plan

1/100 2. floor plan

1/100 3. floor plan

1/100 4. floor plan

prÄąvate roo

oms

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08. A SPACE F

ARCH101 BASI

93

FOR

Tutor| Tutku Sevinรง

.ROCKING CHAIR

Function | Experiment area

IC DESIGN .fall 2017

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It is aimed that users who travels in the site to experience the notion of growing and steady.

Experiments were conducted to understand the notions.

The growth of the place can be with varying openings.

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It can be by the proliferation of the fixed form.

settlement on land growing form growing steady The height of the sloping land is decreasing

The place to be placed on it was placed at a fixed height.

growing irregularly

Structures between the building and the ground are growing steadily. Also, the space for the user is growing gradually

together with growing and steady

opening experiment

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PLAN

A-A

B-B

A-A SECTON

B-B SECTION

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09. KHAS CAR .STRUCTURAL

ARCHITEACTU

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R PARK TO GREEN GARDEN

Tutor| Tutku Sevinç Team work| partnered with: Gizem Güleryüz, Rümeysa Tıpırdamaz, Aylin Kanar

L GARDEN

URAL COMPETITION .summer2018

100

personal space concert space forest big hommock coffee shop public space

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The co used b into th the stu individ that we green.

The sc period Thanks more a

103

ompetition aim to transform the park area by the students of the Kadir Has University, he recreation areas and green open area that udents need. The activities-concerts, social dual resting, exhibitions and working areas e need as school students are included in the

caffolding system that will respond to these dically changing needs has been adopted. s to this system, the green area could be used and variability was allowed.

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10.

FROM BUIL

ARCH234 STR

105

LDING TO CHAIR

Tutor| Ali Onat Türker

.ROCKING CHAIR

RUCTURAL SYSTEMS .fall 2018

Team work| partnered with: Muhammed Hasan Zelveci, GizemGüleryüz, Alara Darı Materials| rope, tube, screw, hook

106

INGALLS HOCKEY PINK

1. step

main arch

reaction force

2. step load transfer

tension

reaction forces

cantiliver arch tension

cantiliver arch force tension x force

107

3. step

First, structure system of the Ingalls Hokey Rink was analyzed. This system developed according to this analysis. Later, this system transformed into chair.

compression ring

arch compression

form: funicular compression

funicular tension load flow:

load

arch compression compression ring

compression ring

arch compression

form: funicular compression

funicular tension load flow:

load

arch compression

compression tepki kuvveti

compression ring

arch compression

compression tepki kuvveti arch compression

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1/10 scale model

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details

s

1/1 scale chair

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11.

PARAMETR

ARCH214 DESI

111

RIC PAVILION

Tutor| Sabri Gökmen, Efe Gözen, Burcu Biçer

.SNAIL PAVILION

Team work| partnered with: Belit Ünlütürk, Dilan Elif Korkmaz, Gizem Güleryüz, Hilal Bugçe Akdogan, and Rana Alkan

IGN COMPUTATION .spring 2019

112

DESCRIPTION OF THE PROJECT The project is part of a successful research pavilion that demonstrates the potential of new design, simulation and production processes in architecture. It aims to integrate the performance capacity of biological structures into architectural design and to fully test the resulting spatial and structural material systems. Due to the geometric displacement of the plate components and the parametrically generated modules with the Grasshopper in a certain proportion, the focus was on the development of a modular system that provides a high degree of adaptability and performance. In this process, a computational design method was developed in order to design the desired form and then to determine and arrange the order of consecutive and angular systems on the module. The modules are connected to each other in terms of the system and a structural form with structural bearing is obtained. In the final stage, the designed pavilion was created and simulated using 5mm cardboards to fit within 15m3 area. The pavilion consists of .... pieces prefabricated modules with robotic cutting. Each module is formed by an angular synchronization of 4 plates of 40cm.These modules that are combined with another module from the center of the empty square in the middle of the plate during the combination of the plates. The diameters of the spaces in the pavilion are‌ cm and ... cm and spaces are programmed to suit local structural and geometrical requirements.

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The purpose of the pavilion is to offer an individual experience in one side, and promise to live a shared experience space from the other side. Thanks to the curvy form of the pavilion, the open space and single isolate cabin can work together. Also, the relationship of the use of light with form has a great importance in designing the experience. Isolated space is wrapped with modules and it gets less light because it is high, but the open space gets better with light because it is low.

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