Technical Strategy Development for Optimal Energy Solution for HighRise Building
The world is moving towards zero energy buildings in order to save energy. The main idea ofthe work is to provide a technical strategy and suggest an optimal energy solution, thephysical model located in New City Wah Cantt is selected. The area of building is 120000meter square. Two types of software IDA-Indoor Climate Energy and Hourly AnalysisProgram (HAP) are used for the project. The total cooling load calculated is 586125 BTU/H.Sensible Cooling Load for lower ground floor is 110289 BTU/H, 67346 BTU/H, 112672BTU/H for 1ST floor and 2ND floor, 67155 BTU/H for 3RD floor. Entering temperature offresh air is 113O F DB/82O F WB. We suggest use a double glazed glass and top floor withPolycrystalline PV panels, its efficiency is about 15%.
The world is moving towards zero energy buildings in order to save energy. The main idea of
the work is to provide a technical strategy and suggest an optimal energy solution, the
physical model located in New City Wah Cantt is selected. The area of building is 120000
meter square. Two types of software IDA-Indoor Climate Energy and Hourly Analysis
Program (HAP) are used for the project. The total cooling load calculated is 586125 BTU/H.
Sensible Cooling Load for lower ground floor is 110289 BTU/H, 67346 BTU/H, 112672
BTU/H for 1ST floor and 2ND floor, 67155 BTU/H for 3RD floor. Entering temperature of
fresh air is 113O F DB/82O F WB. We suggest use a double glazed glass and top floor with
Polycrystalline PV panels, its efficiency is about 15%.
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