土耳其悬崖别墅

Architects:Salon Alper Derinbogaz

Area :930 m²

Year :2018

Photographs :Cemal Emden, Serra Duran

Electric Engineering :Latek

Mechanical Engineering :ARKE

Architect : Alper Derinboğaz

Sustainability Consultant : Cem Altun (ITU)

Project Team: : Egemen Onur Kaya, Şevki Topçu, Reyyan Çulcu, Doruk Kayalı, Ömer Manav

Contractor : Mesut Köse - MK Yapı Mühendislik

Static : İNTAÇ

City : Çeşme

Country : Turkey

Villa Topos is a summer house project located on a limestone hill that overlooks the Paşalimanı Bay of  İzmir in the Mediterranean coast of Turkey. The design takes inspiration from the sharp topography of the surroundings, transforming into a simple geometric structure that settles in the Aegean landscape. Villa Topos is buried into the topography to extend the relationship with the earth and to climatize the complete structure with zero operational carbon emission. The building develops terraces in the continuation of abstract topography lines in order to multiply the structure-ground encountering, increase the open areas, and break the western sun to optimize the access.

Panorama and Staircase - The building has a unique panorama within the Aegean landscape, far from a flat horizon. As you climb up to the site; the horizon, skyline, and landscape of the bay recreates themselves in different ways. While placing the staircase at the back of the structure, the aim was to leave the stage open to nature and to propose a dynamic frame for the view. In this way, the staircase works as a cinematic apparatus that moves vertically, creating uninterrupted views of the bay.

Active Heat Map leading to Passive Climatisation - The aim was not only to observe nature but also to find foundational ways to better engage with it. Considering the fact that operational costs in the buildings correspond to a much greater portion of the amount of annual carbon emissions, a series of strategies have been developed in order to reduce operational emissions to zero. We developed a cross-study between structural design and energy simulation of the building in which the active heat map of the building is leading to exceptional solutions for passive climatization.

The thermal mass settled under the ground provides heat stabilization benefiting from the constant temperature of the earth. Wind-catching chimneys with vents in the roof are built to avoid using any energy to climatize the complete structure. They create a natural flow of ventilation throughout the building. As a result, the wind works as a natural machine to circulate clean air, and the earthworks as another one to make the air cooler or warmer depending on the time of the year.

The solid mass of the concrete structure, which has a high value of specific heat capacity, increases the heat mass on the buried façade where the light cannot reach. The house takes about eight hours to catch the surrounding temperature, but this buried facade that had been cooled down over the night cools the complete structure during the daytime. Thus, the thermal difference between day and night is balanced, and the reinforced concrete structure gives enough time to tolerate the changes. Non-uniform Nature - The in-between spaces in the building are non-uniform as in nature, away from producing spaces that are constant in conduct, character, or effect. The design offers large spaces in the interiors to give flexible uses where every object that is placed freely in the space will redefine the rooms.

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