Energy performance analysis of a Hydro-turbine test lab: An architectural approach

2012 IEEE Conference on Sustainable Utilization and Development in Engineering and Technology (STUDENT) Pub Date : 2012-10-01 DOI:10.1109/STUDENT.2012.6408366

A. Sharma, P. S. Chani, A. M. Dongardive, H. Verma

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Abstract

Building energy simulation tests for a proposed office cum Hydro-turbine test lab at IIT Roorkee, India were performed for different window-wall ratios (WWR) in order to find the most energy efficient solution. Results from energy simulation shows that such building with a WWR of 90% will end-up using 2,16,347 kWh per annum. If clear glass is replaced with low transmitting reflective glass and daylight sensors are added to this configuration, annual lighting and air-conditioning energy consumption will reduce by 34.22% and 14.57% respectively. The building was simulated for total nine combinations of WWR and maximum energy savings were established in a combination having 40% WWR in south, east, west façade and 100% WWR in north façade. However, from the point of view of exteriors of the building, a 60% WWR will provide better outside views to its occupants as compared to the building with 40% WWR. It was also observed that providing daylight sensors and reflecting glass do not cost more when integrated with optimum WWR as the additional cost is compensated by savings achieved from energy costs.

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水轮机测试实验室的能源性能分析:一种体系结构方法

为了找到最节能的解决方案，对印度理工学院Roorkee的拟议办公室兼水轮机测试实验室进行了不同窗墙比(WWR)的建筑能源模拟测试。能源模拟结果表明，这样的建筑在WWR为90%的情况下，最终每年将使用2,16,347千瓦时。如果将透明玻璃替换为低透射反射玻璃，并在此配置中增加日光传感器，每年照明和空调能耗将分别降低34.22%和14.57%。该建筑进行了总共九种WWR组合的模拟，并在南、东、西立面的WWR为40%，北立面的WWR为100%的组合中建立了最大的节能效果。然而，从建筑物外观的角度来看，60%的水噪比比40%的水噪比将为其居住者提供更好的外部景观。还观察到，提供日光传感器和反射玻璃在与最佳WWR集成时不会花费更多，因为额外的成本被能源成本节省所补偿。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 IEEE Conference on Sustainable Utilization and Development in Engineering and Technology (STUDENT)

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