ISTANBUL TECHNICAL UNIVERSITY
TERM PROJECT ARCHITECTURE / NON-THESIS OZAN MANSUR (502171323)
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ISTANBUL TECHNICAL UNIVERSITY MTZ - Architectural Design Project 1 Sparkland Masterplan Proposal in Mostar INSTRUCTORS
PROF. DR. M. BIRGÜL ÇOLAKOGLU PROF. DR. HAYRIYE ŞESBAH TUNCER PROF. DR. AZIME TEZER HASAN SITKI GÜMÜSSOY 2018 SPRING
THE PROJECT AREA Project Area At the point where Buna and Bunitza rivers are located 12km south of Mostar It is on the edge of M17.3 road connecting Mostar and Stolac. The project area, which is 40 hectares in size, has been used for agriculture in the Yugoslavia period. After that, componenets of greenhouse was sold. Since then the area is in an idle state After the SPARK company bought the space, it was required to build a large-scale corporate campus in the residence. DESIGN APPROACH It is desired to design a conservatory ecological corridor in place of the unskilled green areas scattered throughout the region, creating a continuous walkway and cycling path around the river, which is one of the Neretva river and later separated channels, which pass through Mostar. Later, a “loop” was created to feed this corridor project area. This corridor was constructed according to the forum of the water islands in the river and the river and has various functions according to the movement of the river. FUNCTIONAL PROJECT OF PROJECT AREA A green spine was created by connecting social units around a pedestrian walkway and bicycle path that came out of the “Loop” and reconnected, and green stops along the green spine. Then it was fed by housing and office units connected to 2 sides of the spinal column. In addition, in order to create the green connections to the road along the green hills in the vicinity of the unit with the “loop” in harmony with the texture of the region. ARCHITECTURAL COURSE Due to the size of the area, the building is divided into 3 sections. In the first phase, the headquarters for the offices and their expansion area, social facilities and some of the houses were constructed. Vehicle routes have been tried to be reduced as much as possible and filtration plants have been used on the sides of the vehicle roads to prevent the waste of vehicles from reaching the river. In addition to this, the gray water and rain water in the buildings is a decision to be applied throughout the project. Another decision of the project is to build the offices with the highest buildings around the main road and to reduce the height of the right building. In this context, the offices that are most needed for the means of driving are arranged on the side of the road, thus reducing the number of vehicles in the area. Apart from that, they were also loaded with a bumper duty against the dominant wind direction in the region.
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Spark and NSOFT Headquarters
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DESIGN DIAGRAM
Main Pedestrian Axle
Auditorium Auditorium’s roof is becoming a Urban Furniture. Slope hides the main program.
Public Gardens These gardens are open use to public to crop
Cores Placing the cores next to the car road provides isolation and also protects the work spaces from the west sun
Program
Office Support Office support mass connects the headquarters at the 3rd level.
Creating a Courtyard Pedestrian roads, connects the project to 4 sides of the site
Welcoming Squares Public and business squares
Public Zones Courtyard Placing the courtyard 1 level below Around the courtyard there are cafes and restaurants. ground level, creates a semi-public And above all there is a zone also provides protection from business terrace the sun
Green Axes These axes can be used for green parking lots or recreational zones such as silent gardens
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SILENT GARDENS Different vegetation and a place where u can espace from busy business enviroment and meditate
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PLAYROUND Creating a playground for children by using landscape
URBAN Audiotorium’s r ate sittin
FURNITURE roof is settled to creng elements.
THEATRE Also it can be used as a theatre stage, concerts or cinema
COMMON GARDENS Place where people can crop
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2nd LEVEL -Workstations -Meeting Rooms -Workshops -Game Room -Conference Room -Cafe -Kitchenette 1st LEVEL -Workstations -Meeting Rooms -Workshops -Kitchenette
GROUND LEVEL -Lobby -Restaurant -Workshops
BASEMENT LEVEL -Maintaince Rooms -Car Parks
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INDIVIDUAL WORK
Workstation 3.4 m2
Thinking Pod 1 4.47 m2
Thinking Pod 2 4.47 m2
TEAMWORK WORK
Workstation 8 m2
Meeting Room(8 people) 25 m2
Meeting Room(13 people) 37 m2
Workshop 1 67 m2
Workshop 2 60 m2
COMMON AREA
Kitchenette 12 m2
Sitting Area 17 m2
Sitting Area 2 19 m2
Bar 36 m2
Lobby 45 m2
Game Room 34 m2
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ISTANBUL TECHNICAL UNIVERSITY MTZ - Architectural Design Project 2 DRAGOS UNIVERSITY CAMPUS INSTRUCTORS Assoc. Prof. Dr. Dilek Yıldız Architect Burak Pelenk 2019 FALL Dragos is located on the southeast side of Istanbul. In the north there are TEM and e5 Highway, and the islands in the Marmara Sea in the south. The most important transport networks of the region include the e5 Highway, Commuter Train, Coastal Road and Sea Transportation. There are important buildings around the region which is rich in transportation facilities. The area, which has been open to the public and always connected with people, is now surrounded by walls and completely closed. The most important buildings around the region are; Anatolian Courthouse, Istanbul Regional Administrative Court and Lutfi Kırdar Research Hospital. The region also serves as a bridge between north and south. However, the current situation of the region prevents this situation. 16
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Landmark It is planned that the Hangar Building will be designed in a remarkable manner so that the old train hangar can be used as today’s Student Center and it will become the focus of attention of the campus. It is designed as a meeting point of student traffic from social areas and educational areas.
Urban Identity - Collective Memory On the 31 December 1951, British Government decided to close the railway completely. The last locomotive departed from the Nicosia station to Famagusta. After arriving in Famagusta, it is taken to the Railway Hangar. After the stopping of the railway, the railways and other installations are completed until March 1953. As a result of the auction, 10 locomotives, wagons, railway track components, spare parts and rails are sold as scrap. From the train track, memories, passenger numbers and small stories remain...
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We designed wagonlike elements to used in activities(and also to refer building’s history). These wagons can be moved on the original train rails. Wagon’s can be used with different variations both in the interior and outdoor. This way building can provide flexible spaces.
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ISTANBUL TECHNICAL UNIVERSITY MTZ - Special Topics in Architecture 1 OPTICAL GLASS HOUSE INSTRUCTORS
Prof. Dr. Birgül Çolakoğlu Erdinç Çiftçi Hatidza Isanovic Mehmet Akcan 2019 FALL
Solar Analysis
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21 January
21 April
21 August
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ISTANBUL TECHNICAL UNIVERSITY MTZ - Special Topics in Architecture 2 OM House INSTRUCTORS
Prof. Dr. Birgül Çolakoğlu Erdinç Çiftçi Hatidza Isanovic Mehmet Akcan 2018 SPRING
21 January
21 April
21 August 39
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ISTANBUL TECHNICAL UNIVERSITY MTZ - DİJİTAL TASARIM YÖNTEVMLERİ OPTICAL GLASS HOUSE INSTRUCTORS
Prof. Dr. Gülen Çağdaş Dr. Hakan Tong Asst. Sena Kürkçüoğlu 2018 SPRING
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ISTANBUL TECHNICAL UNIVERSITY MTZ - BUILDING TECHNOLOGY ITU-MASLAK GRADUATE SCHOOL OF SCIENCE ENGINEERING AND TECHNOLOGY FACADE DESIGN INSTRUCTORS
Prof.Dr. Leyla Tanaçan Prof. Dr. Aslıhan Ünlü Tavil Asst. Merve Yanardağ Asst. Rukiye Tüter 2019 SPRING
SITE LOCATION Address: İTÜ Fen Bilimleri Enstitüsü İTÜ Ayazağa Kampusü, 34496 Maslak/İSTANBUL GPS coordinates: 41°K - 29°D Site boundary measurements (annotated map): 3855m2 Building type: Administration, Education
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DAMLA PINAR ÇELIK
OZAN MANSUR
Prevailing Winds The wind rose for AyazaÄ&#x;a shows how many hours per year the wind blows from the indicated direction. Example GB: Wind from the South (GB) to the Northeast (NE). Cape Horn, the southernmost land point of South America, had characteristic strong west-winds, making it difficult for sailing boats, especially from east to west.
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Green balconies rotates towards to norht to prevent sunlight coming from west. This thick walls absorbes the solar heat and keeps building cold
On the east faรงade of the building these green balconies also rotates towards west. And with this rotation they allow prevailing winds pass through the building on the eastwest direction.
Vertical sunscreens do not allow unwanted sun rays from the west. There sunscreens provides their energy from the solarpanels on the south faรงade of the building.
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39 °
On the southern façade, the solar panels located on the top of building. With the solar panels on the façade they provide energy for sunscreens on the western façade to change according to the sun.
Again on the southern façade, the solar panels located on the top of the vertical elements which cuts off the light from the west. Those panels also act as a shading element. They are also at 39 ° to be at maxiumum efficiency. Trees in the green balconies helps to maintain thermal, sound, air and visual confor. Collected rainwater on the roof goes to these balconies and reduces buildings carbon footprint 49
On the 21st of June at 12:00 the south façade solar panels work as a shading element and do not allow solar radiation inside of the building.
21 December at 12:00 in winter because of the Sun’s angle solar panels allow the solar radion inside and warms the building.
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THERMAL CONTROL
AIR QUALTIY
SOUND AND VISUAL CONTROL
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ISTANBUL TECHNICAL UNIVERSITY MTZ - DETAY TASARIMI MOSTAR HQ DETAIL DESING INSTRUCTOR
Assoc. Prof. Dr. M. Cem Altun 2019 SPRING
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