“光-热-光”转换复合陶瓷的制备及性能研究任务书

 2021-10-24 15:27:26

1. 毕业设计(论文)的内容和要求

本课题将制备一种应用于太阳能热光伏系统的光-热-光转换复合陶瓷材料。

首先采用固相法制备钙钛矿太阳吸收陶瓷片,并进行光学性能和导热性能测试。

其次采用固相法制备选择性热辐射陶瓷片,并进行光学性能和导热性能测试。

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2. 参考文献

根据毕业要求指点10.3,毕设期间要进行研究现状调查与总结,要求在开题报告及毕业设计(论文)中涉及的英文文献不少于20篇,其中近5年不少于8篇,英文文献不少于5篇。

以下是与本课题相关的部分文献列表:[1] R. Swanson. A proposed thermophotovolaic solar energy conversion system[J]. Proceedings of the IEEE,1979,67:446-447.[2] S.H. Fan. An alternative sun for solar cells[J]. Nature Nanotechnology,2014,9:92-93.[3] Nashun, Masahiro Kagimoto, Kentaro lwami, Norihiro Umeda. Simultaneous fabrication fo a microcavity absorber-emitter on a Ni-W alloy film[J]. Japanese Journal of Applied Physics,2017,56:100310.[4] Fabrice Kwefeu Mbakop,Noel Djongyang,Geh Wilson Ejuh,Danwe Raidandi,Paul Woafo. Transmission of light through an optical filter of a one-dimensional photonic crystal:application to the solar thermophotovoltaic system[J]. Physica B,2017,516:92-99.[5] P. Davis,A. Luque. Solar thermophotovoltaics:brief review and new look[J]. Solar Energy Materials and Solar Cells,1994,33:11-22.[6] W. Shockley,H. Queisser. Detailed balance limit of efficiency of p-n junction solar cells[J]. Journal of Applied Physics,1961,32:510-519.[7] Y. Nam,Y.X. Yeng,A. Lenert,P. Bermel,I. Celanovic .et al. Solar thermophotovoltaic energy conversion systems with two-dimensional tantalum photonic crystal absorbers and emitters[J]. Solar Energy Materials and Solar Cells,2014,122:287-296.[8] A. Lenert,D.M. Bierman,Y. Nam,W.R. Chan,I. Celanovic .et al. A nanophotonic solar thermophotovoltaic device[J]. Nature nanotechnology,2014,9:126-130.[9]Shimizu Makoto,Kohiyama Asaka,Yugami Hiroo. High-efficiency solar-thermophotovoltaic system equipped with a monlithic planar selective absorber/emitter [J]. Journal of Photonics for Energy,2015,5:053099.[10]Shimizu Makoto,Kohiyama Asaka,Yugami Hiroo. High-efficiency solar-thermophotovoltaic system equipped with a monlithic planar selective absorber/emitter [J]. Journal of Photonics for Energy,2015,5:053099.[11]D.M. Bierman,A. Lenert,W.R. Chan,B. Bhatia,I. Celanovic .et al. Enhanced photovoltaic energy conversion using thermally based spectral shaping[J]. Nature Energy,2016,1:1-7.[12]H. Wang, J.Y. Chang, Y. Yang, L.P. Wang.Performance analysis of Solar thermophotovoltaic conversion enhanced by selective mentamaterial absorbers and emitters[J]. International Journal of Heat and Mass Transfer,2016,98:788-798.[13]S.D. Xu,Y. Shuai,J.H. Zhang,X. Huang,H. Tan. Performance optimization analysis of solar thermophotoltaic energy conversion systems[J]. Solar Energy,2017,149:44-53.[14]D.Y. Jiang,W.M. Yang. A dielectric-encapsulated 2D photonic crystal based solar thermophotovoltaic power generator[J]. Applied Thermal Engineering,2017,125:1253-1259.[15]C.C. Chang,J.M.K. Wilto,N. John,S.L. Ting,K.A. Abul .et al. High-Temperatue Refractory Metasurfaces for Solar Thermophotovoltaic Energy Harvesting[J]. NanoLetters,2018,18,7665-7673.[16]Z. Hu,Y. Zhang,L. Liu,L. Yang,S. He. A Nanostructure-Based High-Temperature Selective Absorber-Emitter Pair for a Solar Thermophotovoltaic System with Narrowband Thermal Emission[J]. Progress In Electromagnetics Research,2018,162:95-108.[17]Y. Wang,L. Zhou,Y. Zhang,J.Y. Yu,B.L. Huang. et al. Hybrid Solar Absorber-Emitter by Coherence-Enhanced Absorption for Improved Solar Thermophotovoltaic Conversion[J]. Advanced Optical Materials,2019,6:1800813.

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