[1] |
江亿. 我国建筑耗能状况及有效的节能途径[J]. 暖通空调, 2005, 35(5):64-64. JIANG Y. Current building energy consumption in China and effective energy efficiency measures[J]. HV& AC, 2005, 35(5):30-40
|
[2] |
沈建芳. 节能——空调行业的大趋势和对策[J]. 制冷技术, 2004, (2):18-22. SHEN J F. Energy conservation-target and countermeasure of AC industry[J]. Refrigeration Technology, 2004, (2):18-22.
|
[3] |
LENIC K, TRP A, FRANKOVIC B. Prediction of an effective cooling output of the fin-and-tube heat exchanger under frosting conditions[J]. Applied Thermal Engineering, 2009, 29(11/12):2534-2543.
|
[4] |
HUANG LY, LIU Z L, LIU Y M, et al. Experimental study on frost release on fin-and-tube heat exchangers by use of a novel anti-frosting paint[J]. Experimental Thermal and Fluid Science, 2009, 33(7):1049-1054.
|
[5] |
HU W J, JIANG Y Q, QU M L, et al. An experimental study on the operating performance of a novel reverse-cycle hot gas defrosting method for air source heat pumps[J]. Applied Thermal Engineering, 2011, 31(2):363-369
|
[6] |
YIN H J, YANG Z, CHEN A Q, et al. Experimental research on a novel cold storage defrost method based on air bypass circulation and electric heater[J]. Energy, 2012, 37(1):623-631.
|
[7] |
孙家正. 空气源热泵除霜方法的研究现状及展望[J]. 建筑热能通风空调, 2017, 36(8):42-46. SUN J Z. Present state and prospect of defrosting method for air source heat pump[J]. Building Energy & Environment, 2017, 36(8):42-46.
|
[8] |
韩志涛, 姚杨, 马最良, 等. 空气源热泵误除霜特性的实验研究[J]. 暖通空调, 2006, 36(2):15-19. HAN Z T, YAO Y, MA Z L, et al. Experiment on characteristics of an air source heat pump in false defrosting[J]. Heating Ventilating & Air Conditioning, 2006, 36(2):15-19.
|
[9] |
张杰, 兰菁, 杜瑞环, 等. 几种空气源热泵除霜方式的性能比较[J]. 制冷学报, 2012, 33(2):47-49. ZHANG J, LAN J, DU R H, et al. The performance comparison of several defrosting modes for air-source heat pump[J]. Journal of Refrigeration, 2012, 33(2):47-49.
|
[10] |
曹小林, 曹双俊, 段飞, 等. 空气源热泵除霜问题研究现状与展望[J]. 流体机械, 2011, 39(4):75-79. CAO X L, CAO S J, DUAN F, et al. Current situation and development prospect of air source heat pump defrosting research[J]. Fluid Machinery, 2011, 39(4):75-79.
|
[11] |
李九如, 孔祥鹏, 王妍, 等. 空气源热泵除霜动态特性实验台研制[J]. 哈尔滨理工大学学报, 2012, 17(5):26-28. LI J R, KONG X P, WANG Y, et al. Development of air source heat pump defrosting structures bench[J]. Journal of Harbin University of Science and Technology, 2012, 17(5):26-28.
|
[12] |
龚建英, 袁秀玲. 空气源热泵蒸发器结霜过程数值模拟[J]. 低温与超导, 2010, 38(5):53-57. GONG J Y, YUAN X L. Simulation study on evaporator frosting process of air source heat pump[J]. Cryogenics & Superconductivity, 2010, 38(5):53-57.
|
[13] |
郭宪民, 王冬丽, 陈轶光, 等. 室外换热器迎面风速对空气源热泵结霜特性的影响[J]. 化工学报, 2012, 63(S2):32-37. GUO X M, WANG D L, CHEN Y G, et al. Effects of face velocity of outdoor heat exchanger on frosting characteristics of air source heat pump system[J]. CIESC Journal, 2012, 63(S2):32-37.
|
[14] |
尹从绪, 陈轶光. 风速对空气源热泵翅片管换热器结霜特性影响[J]. 低温与超导, 2011, 39(12):50-52. YIN C X, CHEN Y G. The effects of wind speed on frosting characteristics of fin-tube heat exchanger for air source heat pump[J]. Cryogenics & Superconductivity, 2011, 39(12):50-52.
|
[15] |
汪峰, 梁彩华, 杨明涛, 等. 翅片表面融霜水滞留机理及其影响因素[J]. 化工学报, 2014, 65(S2):101-106. WANG F, LIANG C H, YANG M T, et al. Mechanism and influence factors of frost melt water retention on fins[J]. CIESC Journal, 2014, 65(S2):101-106.
|
[16] |
薛利平, 郭宪民, 邢震. 环境参数对翅片管换热器表面结霜特性影响的实验研究[J]. 低温与超导, 2017, 45(4):66-71. XUE L P, GUO X M, XING Z. Experimental study on frost growth characteristics on surface of finned-tube heat exchanger[J]. Cryogenics & Superconductivity, 2017, 45(4):66-71.
|
[17] |
黄东, 袁秀玲. 风冷热泵冷热水机组热气旁通除霜与逆循环除霜性能对比[J]. 西安交通大学学报, 2006, 40(05):539-543. HUANG D, YUAN X L. Comparison of dynamic characteristics between the hot-gas bypass defrosting method and reverse-cycle defrosting method on an air-to-water heat pump[J]. Journal of Xi'an Jiaotong University, 2006, 40(05):539-543.
|
[18] |
梁彩华, 文先太, 张小松. 基于热源塔的热泵系统构建与试验[J]. 化工学报, 2010, 61(S2):142-146. LIANG C H, WEN X T, ZHANG X S. Construction and experimental research on heat pump system based on heat-source tower[J]. CIESC Journal, 2010, 61(S2):142-146.
|
[19] |
张小松, 文先太, 梁彩华. 适合夏热冬冷地区的新型双高效热泵系统[J]. 制冷与空调, 2013, 13(11):6-10. ZHANG X S, WEN X T, LIANG C H. New type of dual high-efficiency heat pump system suited to hot summer and cold winter zones[J]. Refrigeration and Air-conditioning, 2013, 13(11):6-10+15.
|
[20] |
LI Y C, CHEN G M, TANG L M, et al. Analysis on performance of a novel frost-free air-source heat pump system[J]. Building and Environment, 2011, 46(10):2052-2059.
|
[21] |
章文杰, 李念平, 王丽洁. 热源塔热泵系统相变潜热的应用研究[J]. 重庆大学学报, 2011, 34(s1):58-61. ZHANG W J, LI N P, WANG L J. Availability of latent heat by moist air condensation with the heat-source tower heat pump units[J]. Journal of Chongqing University, 2011, 34(s1):58-61.
|
[22] |
李念平, 张鼎, 成剑林, 等. 热源塔热泵空调系统经济性分析[J]. 深圳大学学报(理工版), 2015, 32(4):404-410. LI N P, ZHANG D, CHENG J L, et al. Economic analysis of heat pump air conditioning system of heat-source tower[J]. Journal of Shenzhen University(Science & Engineering), 2015, 32(4):404-410.
|
[23] |
ZHANG L, DANG C, HIHARA E. Performance analysis of a no-frost hybrid air conditioning system with integrated liquid desiccant dehumidification[J]. International Journal of Refrigeration, 2010, 33(1):116-124.
|
[24] |
ZHANG L, FUJINAWA T, SAIKAWA M. A new method for preventing air-source heat pump water heaters from frosting[J]. International Journal of Refrigeration, 2012, 35(5):1327-1334.
|
[25] |
郝鹏飞, 王沣浩, 王志华, 等. 蓄热除湿耦合型无霜空气源热泵热水器实验研究[J]. 制冷学报, 2015, 36(4):85-91. HAO P F, WANG F H, WANG Z H, et al. Experimental research on a novel frost-free air-source heat pump water heater system coupling with thermal storage and dehumidification[J]. Journal of Refrigeration, 2015, 36(4):85-91.
|
[26] |
王志华, 王沣浩, 郑煜鑫, 等. 一种新型无霜空气源热泵热水器实验研究[J]. 制冷学报, 2015, 36(1):52-58. WANG Z H, WANG F H, ZHENG Y X, et al. Experimental research on a novel frost-free air-source heat pump water heater system[J]. Journal of Refrigeration, 2015, 36(1):52-58.
|
[27] |
张凡, 吴薇, 王琴, 等. 一种复合型无霜空气源热泵系统性能分析[J]. 暖通空调, 2015, 45(12):82-87. ZHANG F, WU W, WANG Q, et al. Performance analysis of frost-free air source heat pump system integrated with liquid desiccant[J]. Heating Ventilating & Air Conditioning, 2015, 45(12):82-87.
|
[28] |
付慧影, 姜益强, 姚杨, 等. 喷淋溶液对无霜空气源热泵系统特性的影响[J]. 化工学报, 2012, 63(S2):193-198. FU H Y, JIANG Y Q, YAO Y, et al. Influence of spray solution on novel non-frosting air source heat pump system performance[J]. CIESC Journal, 2012, 63(S2):193-198.
|
[29] |
梁明坤, 陈传宝, 刘伟. 板片蒸发冷凝式空气源热泵机组无霜制热的试验与验证[J]. 机械制造与自动化, 2016, 45(6):70-73. LIANG M K, CHEN C B, LIU W. Test & verification of frostless heating of plate-type evaporation-condensation air-source heat pump[J]. Machinery Manufacturing & Automation, 2016, 45(6):70-73.
|
[30] |
许东晟, 闫凌, 姜益强, 等. 无霜空气源热泵系统喷淋溶液质量及浓度变化规律研究[J]. 发电与空调, 2014, 35(4):24-30. XU D S, YAN L, JIANG Y Q, et al. Study on change trend of spray solution quality and concentration for nonfrosting air source heat pump system[J]. Refrigeration Air Conditioning & Electric Power Machinery, 2014, 35(4):24-30.
|
[31] |
CHEN Y G, GUO X M. Dynamic defrosting characteristics of air source heat pump and effects of outdoor air parameters on defrost cycle performance[J]. Applied Thermal Engineering, 2009, 29(13):2701-2707.
|