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Students of the Faculty of Engineering, Universitas Brawijaya (FTUB) again, get an achievement at the international level. This time the team of Cindy Mutiara Septani (Chemical Engineering), Sandy Pradita Hadi Utama (Mechanical Engineering), Hermantoro Wahyu Pradana (Mechanical Engineering), Mariatul Khiftiyah (Chemical Engineering), and Rahmat Khoirul Huda (Architecture) get the second place at the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) Student Design Project Competition 2014 Applied Engineer.

Two thousand proposals from five countries compete to create the building systems and technology integration that has energy efficiency, Indoor Air Quality (IAQ), refrigeration systems, and system sustainability in the field of industrialization of innovative and creative technology in this competition. Winners are required to display their work in a conference held in Chicago, Illnois, US, from 24-28 January 2015. The first winner is from California Polytechnic State University San Luis Obispo (United States) and the third prize is SUNY Buffalo State College (United States).

According to team leader Rahmat Choirul Huda, the team made the design of integrated building that can provide optimal comfort with minimal cost outlay applying existing technologies. “So it will be more into the use of AC (Air Conditioner) and Biomass Combustion Device adapted to the conditions of each country,” said Rahmat.

Rahmat claimed that technology designed by FTUB team can improve IAQ (Indoor Air Quality) of the Indonesian community building systems and reduce air pollution as low as possible. IAQ is one of the things that affect comfort and health of the people who occupy a building. “We make it according to the climatic conditions in Indonesia needs, and each assessment was based on the suitability of the tool where it will be used,” said Rahmat.

In the design team to be keen to see the needs of each space and provide special treatment. For example, in terms of architecture, the space which allows to have windows on both sides, team building system design passive form of aeration cross through a special window design which makes air exchange occurs naturally thus lowering the temperature of the room. For the room that expose to  direct sunlight, the specific design of the windows are made so that exposure to the sun does not come in and increase the temperature of the room.

In terms of electronics and mechanics, they even design their own AC (Air Conditioner) and waste-fired stove in order to achieve a low energy level as planned. The use of AC is placed in a room that only had a window on one side so the AC does not have to be used throughout the space. While the flue gas cleaning is placed on top of the stove allows the heat generated inside the room is vented. This makes this building into the category of smart buildings where the system independently and energy saving can adjust the temperature comfort for its users.

“Maybe we do not plan for the future with rigid, but we hoped that it can be used as a research and can be lifted into a journal,” said Rahmat. (and/emis/mic)

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