[1] Qian J F, Sun D X, Zhang C H, et al. Analysis of new surface water heat pump and correlative technology [J]. Journal of Harbin University of Commerce: Natural Sciences Edition, 2007,283(2):231-234 (in Chinese). 钱剑峰,孙德兴,张承虎,等.新型地表水源热泵及其相关技术分析 [J],哈尔滨商业大学学报:自然科学版,2007,283(2):231-234.
[2] Chen X, Zhang G Q,Peng J G. The performance of an open-loop lake water heat pump system in south China [J].Applied Thermal Engineering, 2006,26: 2255-2261.
[3] Tim P, Joyce W S. Lake-source cooling [J].ASHRAE Journal, 2002,44(4) :437- 439.
[4] Fu S D, Liu J X, Lu G L, et al. Analysis of common problems in earth's surface water heat pump [J]. Refrigeration Air Conditioning & Electric Power Machinery, 2007,113(28):64-66 (in Chinese). 付圣东,刘金祥,陆桂良,等,地表水源热泵若干常见问题分析 [J].制冷空调,2007,113(28):64-66
[5] Wang G M, Fu X Z, Wang Y, et al. Discuss on using Yangtse River water as heat and cold sources of water source heat pumps [J]. Heating Ventilating & Air Conditioning, 2007,38(4):33-34,82 (in Chinese). 王明国,付祥钊,王 勇,等.利用长江水作水源热泵冷热源的探讨 [J].暖通空调,2007,38(4):33-34,82.
[6] Büyükalaca O, Ekinci F, Yilmaz T. Experimental investigation of Seyhan River and dam lake as heat source-sink for a heatpump [J]. Energy, 2003, 28(2):157-169.
[7] Fu Z M, Zhou Z F, Li M W,et al. Catastrophe criterion for ground temperature based on effect of groundwater table [J]. Journal of Jiangsu University: Natural Science Edition, 2006,27(5): 441-445 (in Chinese). 傅志敏,周志芳,李明武,等.基于地下水埋深效应的地温突变判据 [J]. 江苏大学学报:自然科学版,2006,27(5): 441-445.
[8] Venkat S K, Edward M B, Philip E B.Hydrodynamic modeling of coastal LNG cooling water discharge [J]. Energy Engineering ASCE,2003,129(1):16-31.
[9] Cantrell J M.Shallow ponds for dissipation of building heat: a case study [J]. ASHRAE Transactions, 1984,90:238-246.
|