[1] LI S H,ZHANG Y X,LI Y,et al. Experimental study of inlet structure on the discharging performance of a solar water storage tank[J]. Energy & Buildings,2014,70(1):490-496.
[2] 张凇源,关欣,王殿华,等. 太阳能光伏光热利用的研究进展[J]. 化工进展,2012,31(s1):323-327. ZHANG Songyuan,GUAN Xin,WANG Dianhua,et al. Research development of solar thermal utilization and photovoltaic power generation[J]. Chemical Industry and Engineering Progress,2012,31(s1):323-327.
[3] 艾宁,樊建华,计建炳. CFD-PIV流场分析技术应用于太阳热水系统的研究进展[J]. 化工进展,2007,26(4):513-518. AI Ning,FAN Jianhua,JI Jianbing. Overview of CFD and PIV application in investigation of solar thermal systems[J]. Chemical Industry and Engineering Progress,2007,26(4):513-518.
[4] 王爱辉,金苏敏. 基于太阳能空调系统的分区蓄热水箱的研究[J]. 太阳能学报,2013,34(8):1380-1384. WANG Aihui,JIN Sumin. Study on partitioned thermal storage water tank based on solar air conditioning system[J]. Journal of Solar Energy,2013,34(8):1380-1384.
[5] 吴娟,龙新峰. 太阳能热化学储能研究进展[J]. 化工进展,2014,33(12):3238-3245. WU Juan,LONG Xinfeng. Research progress of solar thermochemical energy storage[J]. Chemical Industry and Engineering Progress,2014,33(12):3238-3245.
[6] KENJO L,INARD C,CACCAVELLI D. Experimental and numerical study of thermal stratification in a mantle tank of a solar domestic hot water system[J]. Applied Thermal Engineering,2007,27(11/12):1986-1995.
[7] 韩延民,王如竹,代彦军,等. 新型太阳能温度分层水箱储能特性分析[J]. 化工学报,2006,57(s1):626-630. HAN Yanmin,WANG Ruzhu,DAI Yanjun,et al. Analysis on energy storage of a new thermally stratified solar water tank[J]. CIESC Journal,2006,57(s1):626-630.
[8] CRISTOFARI C,NOTTON G,POGGI P,et al. Influence of the flow rate and the tank stratification degree on the performances of a solar flat-plate collector[J]. International Journal of Thermal Sciences,2003,42(5):455-469.
[9] 王帅,刘雪平,李郁武. 太阳能热水系统承压储热水箱温度分层研究[J]. 能源与节能,2016(10):2-4. WANG Shuai,LIU Xueping,LI Yuwu. Study on temperature stratification of artesian water tank for heat storage of solar water heating system[J]. Energy and Energy Conservation,2016(10):2-4.
[10] 于国清,汤金华,邹志军. 太阳能热水系统蓄热水箱温度分层作用研究[J]. 建筑科学,2007,23(4):70-73. YU Guoqing,TANG Jinhua,ZOU Zhijun. Research on the effect of temperature stratification in water tank in so1ar domestic hot water system[J]. Building Science,2007,23(4):70-73.
[11] ZURIGAT Y H,LICHE P R,GHAJAR A J. Influence of inlet geometry on mixing in thermocline thermal energy storage[J]. International Journal of Heat & Mass Transfer,1991,34(1):115-125.
[12] ALTUNTOP N,ARSLAN M,OZCEYHAN V,et al. Effect of obstacles on thermal stratification in hot water storage tanks[J]. Applied Thermal Engineering,2005,25(14/15):2285-2298.
[13] 韩延民,王如竹,代彦军,等. 卧式热分区太阳能水箱内的贮热性能分析及试验研究[J]. 太阳能学报,2008,29(3):277-282. HAN Yanmin,WANG Ruzhu,DAI Yanjun,et al. Analysis and experimental studies on heat storage performance within a horizontal thermal partition solar water tank[J]. Journal of Solar Energy,2008,29(3):277-282.
[14] HAN Y M,WANG R Z,DAI Y J. Thermal stratification within the water tank[J]. Renewable & Sustainable Energy Reviews,2009,13(5):1014-1026.
[15] AVIV A,MORAD S,RATZON Y,et al. Experimental and numerical study of mixing in a hot-water storage tank[C]//ASME 2008,International Conference on Energy Sustainability Collocated with the Heat Transfer,Fluids Engineering,and Energy Nanotechnology Conferences,2009:49-69.
[16] IEVERS S,LIN W. Numerical simulation of three-dimensional flow dynamics in a hot water storage tank[J]. Applied Energy,2009,86(12):2604-2614.
[17] 李舒宏,李阳,张小松,等. 新型进水口结构对储能水箱释能性能的影响[J]. 中南大学学报(自然科学版),2012,43(10):4068-4074. LI Shuhong,LI Yang,ZHANG Xiaosong,et al. Effect of new-type inlet structure on discharging performance of storage tank[J]. Journal of Central South University(Science and Technology),2012,43(10):4068-4074.
[18] SHAH L J,FURBO S. Entrance effects in solar storage tanks[J]. Solar Energy,2003,75(4):337-348.
[19] 王崇愿,王子龙,张华,等. 进水流量对新型储热水箱分层特性影响的实验研究[J]. 化工进展,2016,35(2):403-408. WANG Chonganyan,WANG Zilong,ZHANG Hua,et al. An experimental analysis of inlet flow rate influence on stratification characteristics of a new water storage tank[J]. Chemical Industry and Engineering Progress,2016,35(2):403-408.
[20] LAVAN Z,THOMPSON J. Experimental study of thermally stratified hot water storage tanks[J]. Solar Energy,1977,19(5):519-524.
[21] HEGAZY A A. Effect of inlet design on the performance of storage-type domestic electrical water heaters[J]. Applied Energy,2007,84(12):1338-1355.
[22] NJOKU H O,EKECHUKWU O V,ONYEGEGBU S O. Analysis of stratified thermal storage systems:an overview[J]. Heat & Mass Transfer,2014,50(7):1017-1030.
[23] FARMAHINI M. Investigation of four geometrical parameters on thermal stratification of cold water tanks by exergy analysis[J]. International Journal of Exergy,2012,10(3):332-345.
[24] ROSEN M A,TANG R,DINCER I. Effect of stratification on energy and exergy capacities in thermal storage systems[J]. International Journal of Energy Research,2004,28(2):177-193.
[25] SHAH L J,FURBO S. Entrance effects in solar storage tanks[J]. Solar Energy,2003,75(4):337-348.
[26] FERNÁNDEZ-SEARA J,UHÍA F J,SIERES J. Experimental analysis of a domestic electric hot water storage tank. Part Ⅰ:Static mode of operation[J]. Applied Thermal Engineering,2007,27(1):129-136. |