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Relationship Between Thermal Stability and Optical Bandgap of Fluorinated Amorphous Carbon Films
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作者 杨慎东 宁兆元 +2 位作者 黄峰 程珊华 叶超 《Plasma Science and Technology》 SCIE EI CAS CSCD 2001年第5期941-946,共6页
Fluorinated amorphous carbon films were deposited using microwave electron cyclotron resonance chemical vapor deposition (ECR-CVD) reactor with CF4 and C8H6 as source gas and were annealed in nitrogen ambience for the... Fluorinated amorphous carbon films were deposited using microwave electron cyclotron resonance chemical vapor deposition (ECR-CVD) reactor with CF4 and C8H6 as source gas and were annealed in nitrogen ambience for the investigating of their thermal stability .The relative concentration of C=C bond and optical bandgap were obtained by Fourier Transform Infrared (FTIR) spectroscopy and Ultraviolet-Visible (UV-VIS ) spectrum, respectively. It has been demonstrated that there is a close relationship between relative concentration of C=C bond and optical bandgap, and the films deposited at a higher microwave power have a lower optical bandgap and a better thermal stability. 展开更多
关键词 Relationship Between thermal Stability and optical Bandgap of Fluorinated Amorphous Carbon Films
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Modeling and Performance Simulation of an Innovative Concept of Linear Fresnel Reflector based CSP System 被引量:1
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作者 DANISH Syed Noman ALMUTAIRI Zeyad +3 位作者 EL-LEATHY Abdelrahman AL-ANSARY Hany JARDAN Yazeed ALAQEL Shaker 《Journal of Thermal Science》 SCIE EI CAS CSCD 2021年第5期1614-1624,共11页
Concentrating solar power technology is one of the most promising alternative energy technologies.In recent past,Linear Fresnel Reflector systems have received great attention and novel designs have been proposed keep... Concentrating solar power technology is one of the most promising alternative energy technologies.In recent past,Linear Fresnel Reflector systems have received great attention and novel designs have been proposed keeping in view the objective to enhance its functionality and performance.For achieving the same objective,this study presents a novel concept where a conventional LFR is enclosed in a greenhouse called greenhouse-LFR.It was expected that such an enclosure can:(1)increase the incoming solar radiation,(2)further improve the overall efficiency due to simplified cleaning process and(3)reduce the capital cost for the construction of LFR support system.A complete thermal and optical analysis was presented for modeling and performance evaluation of the solar field of both conventional-LFR and novel greenhouse-LFR.Sets of non-linear equations for each system were solved using Newton-Raphson method.More detailed optical analysis was further performed for conventional-LFR considering the seasonal variations.The results concluded that the greenhouse-LFR is better than the conventional-LFR as it had higher efficiency and useful heat with lesser heat losses.For greenhouse-LFR,the maximum thermal efficiency was 73.2%whereas for conventional-LFR it was 37.2%.Also,there was an average increase of useful heat by 3 times in the month of February and 4.7 times in the month of September.SolTrace^(TM) analysis indicated significant spillage loss when a conventional-LFR was used without a secondary reflector or slight curvature of the mirrors. 展开更多
关键词 solar energy concentrated solar power linear Fresnel reflector GREENHOUSE thermal and optical analysis EXPERIMENTATION
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