Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Wind Power Generation Utilizing a Special Buildings Layout Design to Enhance the Wind Speed
There is a high growing interest for the use of wind power utilizing the building's layout design. The main objective of this work is to accelerate the wind speed before reaching the turbines by using spatial design of twin's buildings; this will generate more electric power. The variables which are affecting the wind speed directed to turbines are the angle between the twin buildings, the height and the length of buildings. The results have shown that the wind speed was accelerated in the intervening space between the buildings irrespective of the distance between the walls of adjacent buildings. Nine wind turbines were installed in three rows and three columns on the wall between the two buildings to generate the electricity. These turbines were located at the top of the wall to face higher wind speed because wind speed depends on height. Also the results showed that the wind speed was accelerated by about five times for the building layout design of the present study; while the generated power was about 125 times in comparison with the buildings do not have a spatial layout design (i.e. they do not enclose an angle between them). Finally the average power generated for the present work buildings dimensions with normal consumption of electricity will cover about 13% of the total normal consumption demand of the buildings (the power generated of the present work buildings layout design is about 0.23 GWh/year).
Wind Power Generation Utilizing a Special Buildings Layout Design to Enhance the Wind Speed
There is a high growing interest for the use of wind power utilizing the building's layout design. The main objective of this work is to accelerate the wind speed before reaching the turbines by using spatial design of twin's buildings; this will generate more electric power. The variables which are affecting the wind speed directed to turbines are the angle between the twin buildings, the height and the length of buildings. The results have shown that the wind speed was accelerated in the intervening space between the buildings irrespective of the distance between the walls of adjacent buildings. Nine wind turbines were installed in three rows and three columns on the wall between the two buildings to generate the electricity. These turbines were located at the top of the wall to face higher wind speed because wind speed depends on height. Also the results showed that the wind speed was accelerated by about five times for the building layout design of the present study; while the generated power was about 125 times in comparison with the buildings do not have a spatial layout design (i.e. they do not enclose an angle between them). Finally the average power generated for the present work buildings dimensions with normal consumption of electricity will cover about 13% of the total normal consumption demand of the buildings (the power generated of the present work buildings layout design is about 0.23 GWh/year).
Wind Power Generation Utilizing a Special Buildings Layout Design to Enhance the Wind Speed
Al-Juboori, Salloom A. (Autor:in) / Alrawashdeh, Rasha (Autor:in)
28.02.2018
doi:10.19044/esj.2018.v14n6p303
European Scientific Journal, ESJ; Vol 14 No 6 (2018): ESJ FEBRUARY EDITION; 303 ; Revista Científica Europea; Vol. 14 Núm. 6 (2018): ESJ FEBRUARY EDITION; 303 ; 1857-7431 ; 1857-7881 ; 10.19044/esj.2018.v14n6
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC:
720
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