temperature increase , DSF can be good installation site which provide advantage of solar radiation gain and PV back ventilation . It was concluded that the integration of PV in building with DSF is useful in terms of the building energy performance by blocking solar radiation in cooling season and contributing to PV power generation . As future work , in the context of the building energy performance of PV DSF buildings , in addition to influence of load and change of thermal characteristics in relation to cavity space , length , and PV type , PV power generation also should be considered .
Acknowledgements
Human Resources Program in Energy Technology of the Korea Institute of Energy Technology Evaluation and Planning ( KETEP ) granted financial resources from the Ministry of Trade , Industry & Energy , Republic of Korea ( No . 20134010200540 ) and This research was supported by the New & Renewable Energy Core Technology Program of the Korea Institute of Energy Technology Evaluation and Planning ( KETEP ) granted financial resource from the Ministry of Trade , Industry & Energy , Republic of Korea ( No . 20143010011910 ).
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A study on the Simulation Performance of PV Double Skin Facade ( PV DSF ) 611