[1] PALUMBO R,KEUNECKE M,MOLLER S,et al.Reflections on the design of solar thermal chemical reactors: thoughts in transformation［J］.Energy,2004,29(5-6): 727-744.

[2] SCHUNK L O,HAEBERLING P,WEPF S,et al.A receiver-reactor for the solar thermal dissociation of zinc oxide［A］.In: ASME Energy Sustainability Conference.Proceedings of the Energy Sustainability Conference［C］.ASME,2007,130(2): 859-865.

[3] VILLAFANVIDALWES H I,ABANADES S,ARANCIBIABULNES C A,et al. Radiative heat transfer analysis of a directly irradiated cavity-type solar thermochemical reactor by Monte-Carlo ray tracing［J］.J Renew Sustain Ener,2012,4(4): 603.

[4] STEINFELD A,KUHN P,RELLER A,et al. Solar-processed metals as clean energy carriers and water-splitters［J］.International Journal of Hydrogen Energy,1998,23(9): 767-774.

[5] FUNK J E.Thermochemical hydrogen production: past and present［J］.Int J Hydrogen Energ,2001.26(3): 185-190.

[6] ABANADES S,CHARVIN P,FLAMANT G,et al.Screening of water-splitting thermochemical cycles potentially attractive for hydrogen production by concentrated［J］.Energy,2006,31(14): 2805-2822.

[7] MULLER R,LIPINSKI W,STEINFELD A.Transient heat transfer in a directly-irradiated solar chemical reactor for the thermal dissociation of ZnO［J］.Appl Therm Eng,2008,28(5-6): 524-531.

[8] KOEPF E,ADVANI S G,STEINFELD A,et al.A novel beam-down,gravity-fed,solar thermochemical receiver/reactor for direct solid particle decomposition: design,modeling,and experimentation［J］.Int J Hydrogen Energ,2012,37(22): 16871-16887.

[9] 蒋青青,童金辉,陈真盘,等.太阳能光热化学分解CO2和H2O的研究进展［J］.中国科学,2014,44(12): 1834-1848(JIANG Qingqing,TONG Jinhui,CHEN Zhenpan,et al.Research progress on solar thermal H2O and CO2 splitting reactions［J］ .Scientia Sinica(Chimica),2014,44(12): 1834-1848)

[10] STEINFELD A.Solar hydrogen production via a two-stepwater-splitting thermochemical cycle based on Zn/ZnO redox reactions［J］.Int J Hydrogen Energ,2002,27(6): 611-619.

[11] LEVEQUE G,ABANADES S.Kinetic analysis of high-temperature solid-gas reactions by an inverse method applied to ZnO and SnO2 solar thermal dissociation［J］.Chem Eng J,2013,217(1): 139-149.

[12] STEINFELD A.Solar hydrogen production via a two-step water-splitting thermochemical cycle based on Zn/ZnO redox reactions［J］.Int J Hydrogen Energ,2002,27(6): 611-619.

[13] 黄兴,张筱娴,帅永,等.铁基氧化物微颗粒的光谱辐射特性［J］.化工学报,2015,66(S1): 308-313( HUANG Xing,ZHANG Xiaoxian,SHUAI Yong,et al.Spectral radiation property investigation of iron based oxide micro-particles［J］.CIESC Journal,2015,66(S1): 308-313)

[14] 邢健,孙晓刚,周深,等.悬浊液光谱透射法测量烟尘粒子的复折射率［J］.光谱学与光谱分析,2010,30(12): 3371-3374.(XING Jian,SUN Xiaogang,ZHOU Chen,et al.Complex refractive index measurement of fly ash particles using suspension spectral transmission method［J］.Spectroscopy and Spectral Analysis,2010,30(12): 3371-3374)

[15] JAN M,MATTHEW R.Experimental determination of the radiative properties of particle suspensions for high-temperature solar receiver applications［J］.Heat Transfer Eng,2014,35(3): 272-280.

[16] LIANG Z,CHUEH W C,GANESAN K,et al.Experimental determination of transmittance of porous cerium dioxide media in the spectral range of 300-1100 nm［J］.Experimental Heat Transfer,2011,24(40): 285-299.

[17] QUERRY M R.Optical constants［M］.Research report CRDCCR-85034,University of Missouri,1985.

[18] WANG L,JACQUES S L,ZHENG L.Monte Carlo modeling of light transport in multi-layered tissues［J］.Computer Meth Prog Bio,1995,47(2): 131-146.