【原】558 热泵论文摘选2019-4

[1]Bing-HungLee,et al. A rationally based model applicable for heat pump tumble dryer[J].Drying Technology.

[2]马秀力.空气源热泵采暖的新机遇[J].资源节约与环保.

[3]李单红,等.地源热泵技术在东北寒冷地区变电站的应用[J].吉林电力.

[4]欧阳怀瀑,等.充注量对R290热泵热水器性能影响的实验研究[J].低温与超导.

[5]杨金文,等.R245fa中高温热泵循环性能实验研究[J].低温与超导.

[6]王玉华,等.热泵烘烤烟叶的研究[J].现代农业科技.

[7]张凯.廊坊热电厂热泵系统节能改造及供热能力分析[J].机电信息.

[8]刘杰,等.基于污泥厌氧消化的吸收式热泵-高温水源热泵供热系统研究[J].中国沼气.

[9]王成林,等.空气源热泵在表面处理生产线的应用实例与分析[J].现代涂料与涂装.

[10]叶文临. 一种新型维勒米尔循环热泵的性能仿真平台开发与应用[D].湖南大学.

[11]高军,等.高效热泵技术回收低温余热应用[J].鞍钢技术.

[12]初琦.第9章空气源热泵行业热点分析[J].制冷技术.

[13]邱君君,等.采用两种常见除湿剂的新型无霜空气源热泵系统模拟研究[J].暖通空调.

[14]梁俊宇,等.蒸汽热泵在云南省电能替代中应用的可行性分析[J].云南电力技术.

[15]王林军,等.太阳能热泵联合干燥系统研究现状[J].机械设计与制造工程.

[16]罗婷,等.太阳能空气能一体化热泵蒸发器能效的实验研究[J].湘潭大学学报(自然科学版).

[17]O.Bamigbetan, et al. The development of a hydrocarbon high temperature heat pumpfor waste heat recovery[J]. Energy.

[18]徐辉,等.低温城市污水应用污水源热泵现状分析[J].智能城市.

[19]刘旋. 基于相变蓄热的太阳能热泵系统研究[D].华南理工大学.

[20]张保兴, 跨临界二氧化碳热泵蒸汽锅炉. 安徽省,安徽环球星新能源科技有限公司.

[21]刘昌鹏. 热泵用液体引射两相喷射器数值模拟及结构优化[D].合肥工业大学.

[22]刘明辉. 石墨烯材料在空气源热泵除霜技术中的应用研究[D].华北水利水电大学.

[23]梁泉,等.热泵干衣机管路系统振动优化设计[J].家电科技.

[24]DeveshChugh, et al . Experimental evaluation of a semi-open membrane-based absorptionheat pump system utilizing ionic liquids[J]. Applied Energy.

[25]黄世芳. 热源塔热泵系统性能优化与评估研究[D].东南大学.

[26]和永康,等.直膨式太阳能热泵用于温室番茄根际-空气加温的试验研究[J].中国农业大学学报.

[27]SongKang Sub, et al. Evaporation heat transfer characteristics of R-245fa in ashell and plate heat exchanger for very-high-temperature heat pumps[J].International Journal of Heat and Mass Transfer.

[28]WidyaparagaA., et al. Acoustic field alteration in a 100Â Hz dual acoustic driver straighttube travelling wave thermoacoustic heat pump for thermoacoustic heat transportcontrol[J]. International Journal of Heat and Mass Transfer.

[29]Zhang Zhenying, et al. Progress inejector-expansion vapor compression refrigeration and heat pump systems[J].Energy Conversion and Management.

[30]Sun Zhe, et al. Studies on theonline intelligent diagnosis method of undercharging sub-health air source heatpump water heater[J]. Applied Thermal Engineering.

[31]Colombo Luigi Pietro Maria, et al.Experimental analysis of the use of R1234yf and R1234ze(E as drop-inalternatives of R134a in a water-to-water heat pump[J]. International Journalof Refrigeration.

[32]BniLam Noori, et al. Parameteridentification algorithm for ground source heat pump systems[J]. AppliedEnergy.

[33]刘锋,等.高温热泵储能供热系统中相变储能材料性能分析[J].科技与创新.

[34]涂岱昕,等.吸收式热泵在天津地区工程项目中的应用[J].建筑热能通风空调.

[35]王政,等.丁烷分离塔热泵精馏节能改造研究[J].精细与专用化学品.

[36]王波.5HF型空气能热泵烘干机烘干槐米试验[J].农业工程.

[37]麻克栋.射流热泵在蒸汽加热装置乏汽回收中的应用[J].广西节能.

[38]B. Markmann, et al. Experimentalresults of an absorption-compression heat pump using the working fluidammonia/water for heat recovery in industrial processes[J]. InternationalJournal of Refrigeration.

[39]Ahmad A. Bukshaisha, et al.Simulation of membrane heat pump system performance for space cooling[J]. InternationalJournal of Refrigeration.

[40]Samuel JG Cooper, et al. Energysaving potential of high temperature heat pumps in the UK Food and Drinksector[J]. Energy Procedia.

[41]代亚萍,等.南瓜片太阳能—热泵联合干燥特性及动力学模型[J].福建农林大学学报(自然科学版).

[42]谢伟,等.空气源热泵热水机组在盐城港区中的应用[J].洁净与空调技术.

[43]Bicui Ye, et al. Performanceanalysis of a variable-stage open absorption heat pump combined with a membraneabsorber[J]. Energy Conversion and Management.

[44]沈九兵,等.空气源热泵系统无霜化及除霜方法概述[J].制冷学报.

[45]王鹏浩. 海带干燥特性及热泵烘干室气流组织研究[D].哈尔滨理工大学.

[46]左希桐,等.混流式热泵蚊香干燥系统及工程应用[J].制冷与空调(四川).

[47]阳豪,等.蒸发器面积对高寒地区热泵结霜的影响分析[J].制冷与空调(四川).

[48]龚丽,等.铁棍山药热泵与热风干燥工艺优化[J].现代农业装备.

[49]叶开愚,等.稻谷热泵干燥机的技术优势与发展现状[J].现代农业装备.

[50]Nelson A. James, et al. The chemicallooping heat pump: Thermodynamic modeling[J]. International Journal ofRefrigeration.

[51]李金桃,等.贵阳某数据中心水源热泵系统节能效果测试及建议[J].建筑节能.

[52]王教领,等.杏鲍菇转轮除湿热泵干燥系统结构设计及工艺参数优化[J].农业工程学报.

[53]王美芝,等.空气源热泵用作北京保育猪舍地暖的供暖效果研究[J].农业工程学报.

[54]崔鑫,等.放射性废液热泵蒸发装置去污效率研究[J].科技风.

[55]黄皓,等.黑皮冬瓜空气能热泵干燥工艺参数优化[J].食品研究与开发.

[56]Jiubing Shen, et al. A review of thedefrosting methods of air source heat pumps using heat exchanger with phasechange material[J]. Energy Procedia.

[57]金雪冻,等.不同预处理方法对马铃薯片热泵干燥速率及其干片品质的影响[J].食品与发酵工业.

[58]R.O.Aguirre-Alonso, et al. García-Alvarado. State-space thermodynamic modeling ofvanilla ethanolic extract spray drying with heat pump and N 2[J]. Journal ofFood Engineering.

[59]高蔓,等.青萝卜护绿与热泵干燥动力学研究[J].农产品加工.

[60]金程,等.热泵-渗透汽化集成装置及其发展分析[J].化工装备技术.

[61]杨兵,等.热泵干制对青花椒色差和品质的影响及工艺优化[J].食品与发酵工业.

[62]DiWu, et al. Modeling and simulation on a water vapor high temperature heat pumpsystem[J]. Energy.

[63]RajibUddin Rony, et al. Recent Advances in Transcritical CO2 (R744) Heat PumpSystem: A Review[J]. Energies.

[64]李晓芳.热泵精馏技术应用于杂醇油分离[J].天津化工.

[65]李春雷.全球热泵市场概览[J].现代家电.

[66]TongChol Pak, et al. Optimum designing of the vapor compression heat pump usingsystem using genetic algorithm[J]. Applied Thermal Engineering.

[67]马若霞,等.热泵MVR技术去除水中硼的试验研究[J].科技创新导报.

[68]武雨果,等.热泵技术在工厂化水产养殖系统中的应用研究[J].水产科技情报.

[69]YangCai, et al. Air source thermoelectric heat pump for simultaneous cold airdelivery and hot water supply: Full modeling and performance evaluation[J].Renewable Energy.

[70]范峥,等.甲醇污水减压热泵精馏回收工艺优化研究[J].化学工程.

[71]I.I. Malafeev, et al. Development, Calculation and Experimental Study of a HeatPump for Vacuum Water Distillation Systems[J]. Chemical and PetroleumEngineering.

[72]张宇峰.空气源热泵在铁路企业的应用[J].设备管理与维修.

[73]NaDeng, et al. Molecular simulation and experimental investigation forthermodynamic properties of new refrigerant NBY-1 for high temperature heatpump[J]. Energy Conversion and Management.

[74]雷学俭. 太阳能热泵膜蒸馏装置的研究[D].天津科技大学.

[75]尹龙升. 热泵膜蒸馏装置测控系统研究[D].天津科技大学.

[76]李林会. 基于热管热泵的凹印机干燥过程及系统研究[D].北京印刷学院.

[77]郑瑞芮. 热泵工质HCOOK+H_2O和CaCl_2+H_2O蒸汽压的实验研究[D].浙江大学.

致谢：论文摘选由张芃悦、胡胜威协助整理。

。