Title :
Investigation of the thermo-flowfield in an underground concentrating solar tower
Author :
Hsu, Uzu-Kuei ; Chang, Liang-Ji ; Lin, Shih-Peng ; Miao, Jr-Ming ; Tai, Chang-Hsien
Author_Institution :
Dept. of Aircraft Eng., Air Force Inst. of Technol., Kaohsiung, Taiwan
Abstract :
The main of this study investigated the optimal design in an underground concentrating solar tower. The underground concentrating system is a hemispheric shell which setup under the ground. It is coved by the glasses on the top on the ground surface, and this system can let the sunshine incident and induce the greenhouse to raise the ground surface temperature. There is a wind turbine mounted in the tower that is operated by the nature convection due to the effect of solar radiation in the tower. The present study applied the finite volume method, pressure-based algorithms, and coupled with P-1 radiation model to simulate and solve the anisentropic scattering problems. The results show that there is 5 degree lower with N2O adding than the air filled. The underground part is a greenhouse filled by N2O, and it can absorb infrared to raise the ground temperature.
Keywords :
finite volume methods; heat radiation; natural convection; solar chimneys; solar energy concentrators; turbogenerators; P-1 radiation model; anisentropic scattering problems; finite volume method; greenhouse; ground surface temperature; hemispheric shell; optimal design; pressure-based algorithms; solar radiation; sunshine; thermo-flowfield; underground concentrating solar tower; wind turbine; Furnaces; Glass; Land surface temperature; Poles and towers; Solar heating; Wind turbines; concentrating solar tower; finite volume method; thermal convection; thermal radiation;
Conference_Titel :
Electric Information and Control Engineering (ICEICE), 2011 International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-8036-4
DOI :
10.1109/ICEICE.2011.5777476
