543 热泵论文摘选2020-2
[1]ChenghuZhang,et al. Experimental study of a novael double-effect evaporationconcentration system for high temperature heat pump[J]. Desalination.
[2]ZongyuYang,et al. Ultrasound‐assisted heat pump intermittent drying of adzuki beanseeds: Drying characteristics and parameter optimization[J]. Journal of FoodProcess Engineering.
[3]TG G Uthpala,et al. Review on low‐temperature heat pump drying applications infood industry: Cooling with dehumidification drying method[J]. Journal of FoodProcess Engineering.
[4]印红梅.浅谈热泵热风与微波方式干燥黑木耳的技术应用[J].农家参谋.
[5]Experimental and Theoretical Study On a Heat Pump Driven Open-airHumidification Dehumidification Desalination System)[J]. Energy Weekly News.
[6]AhmedKhouya. Performance assessment of a heat pump and a concentrated photovoltaicthermal system during the wood drying process[J]. Applied Thermal Engineering.
[7]PengGao,et al. Hybrid absorption-compression heat pump with two-stage rectificationand subcooler[J]. Applied Thermal Engineering.
[8]BowenGuan,et al. Optimization of solution concentration in liquid desiccantair-conditioning system driven by heat pump[J]. Energy & Buildings.
[9]QingChun,et al. Thermodynamic analysis on feasible operating region of two-stagehybrid absorption-compression heat pump cycles[J]. International Journal ofRefrigeration.
[10]庞卫科等. 机械蒸汽再压缩热泵MVR技术处理高盐工业废水的研究[A]. 2020中国环境科学学会科学技术年会论文集(第二卷)[C].
[11]任学铭等.纯电动汽车热泵型空调系统除湿试验研究[J].汽车工程学报.
[12]纪强等.吸收式热泵研究进展及应用现状[J].暖通空调.
[13]ZhiyaoYang,et al. Design screening and analysis of gas-fired ammonia-basedchemisorption heat pumps for space heating in cold climate[J]. Energy.
[14]张三华等.热泵闪蒸汽提脱氨技术的工业应用[J].工业催化.
[15]朱传辉等.太阳能辅助热泵系统模型和优化研究进展[J].暖通空调.
[16]欧明等.基于热泵技术的发酵尾气减排装备的应用进展[J].农业装备与车辆工程.
[17]刘文彬等.热泵闪蒸汽提脱氨技术在高氨氮废水处理中的应用[J].广州化工.
[18]张腾等.基于R245fa工质的高温热泵机组试验研究[J].机电信息.
[19]ChangSung Heu,et al. Recent progress on developing anti-frosting and anti-foulingfunctional surfaces for air source heat pumps[J]. Energy & Buildings.
[20]GuanyuFang,et al. An experimental study on the operating performances of a novelbed-based air source heat pump (B-ASHP) system[J]. Energy & Buildings.
[21]ErkutayTasdemirci,et al. Comparative performance of an automobile heat pump systemwith an internal heat exchanger using R1234yf and R134a[J]. InternationalJournal of Exergy.
[22]涂志刚等.碳纳米管填料对相变蓄热式热泵热水器传热性能的影响[J].化工新型材料.
[23]DehghanB. Babak,et al. Seasonal performance assessment of three alternative gas-drivenabsorption heat pump cycles[J]. Journal of Building Engineering.
[24]Energy-saving Exploration of Mixed Solvent Extractive Distillation CombinedWith Thermal Coupling or Heat Pump Technology for the Separation ...)[J].Global Warming Focus.
[25]IbarraBahenaJonathan,et al. Role of Membrane Technology in Absorption Heat Pumps: AComprehensive Review[J]. Membranes.
[26]曲明璐等.蓄热型太阳能光伏光热组件与热泵一体化系统模拟研究[J].流体机械.
[27]瞿明军等.热泵技术在熔硫节汽改造中的应用[J].硫酸工业.
[28]王倩倩等.充氮气热泵干燥对秋刀鱼干燥特性和品质的影响[J].食品工业科技.
[29]LisaTräger,et al. Carbon‐Methanol Based Adsorption Heat Pumps: IdentifyingAccessible Parameter Space with Carbide‐Derived Carbon Model Materials[J].Chemical Engineering & Technology.
[30]盛峰等.印染废气余热回收复合型热泵系统性能优化分析[J].节能.
[31]徐政等.光伏-热泵型与集热型太阳能污泥干化对比研究[J].太阳能学报.
[32]胡居吾.蔓三七叶热泵-热风联合干燥特征与模型化研究[J].生物化工.
[33]王亚斌.水源热泵技术在煤矿中的应用[J].能源与节能.
[34]冉瑞均等.太阳能与空气源热泵联合制卫生热水研究[J].低碳世界.
[35]杜文智等.吸收式热泵技术及其研究发展介绍[J].山东化工.
[36]Farm Grain Dryer With a Heat Pump and Its Calculation)[J]. Chemicals &Chemistry.
[37]梁静静等.R1234yf/HCs混合工质热泵系统循环性能分析[J].低温与超导.
[38]俞庆等.CO_2空气源热泵系统混合工质的研究[J].低温与超导.
[39]HuZhongting,et al. Numerical Analysis andPreliminary Experiment of a Solar Assisted Heat Pump Drying System for ChineseWolfberry[J]. Energies.
[40]庄绪成等.R134a/R245fa对比R245fa高温热泵循环性能实验研究[J].青岛理工大学学报.
[41]张迎敏等.红薯叶粉热泵-热风联合干燥工艺优化[J/OL].食品与发酵工业.
[42]王皓.PLC与智能仪表在热泵远程监控系统中的应用[J].黑龙江科学.
[43]王晓茜等.热泵领域利用F-Term的快速检索策略[J].科技与创新.
[44]冯荣等.闭式热源塔热泵系统制热性能实验研究[J].可再生能源.
[45]侯隆澍等.太阳能-空气双热源热泵系统性能实验[J].化工学报.
[46]张立成.《建筑给水排水设计标准》中空气源热泵热水系统设计探讨[J].中国给水排水.
[47]张宇航等.无霜空气源热泵系统除湿与再生工况分析[J].制冷学报.
[48]魏娟等.制药行业干燥过程挥发性有机物废气零排放处理的热泵方案分析[J].制冷技术.
[49]张荔喆等.模式可切换的余热回收型香菇热泵干燥装置设计[J].制冷技术.
[50]杨鲁伟等.热泵干燥技术研究进展[J].制冷技术.
[51]李伟钊等.循环式稻谷热泵除湿干燥系统性能的实验研究[J].制冷技术.
[52]初琦等.2019年度中国空气源热泵行业热点分析[J].制冷技术.
[53]谌桂舟等.高原隧道热泵辅助施工通风方法研究[J].地下空间与工程学报.
[54]李萌.空气源热泵技术在天津地铁场段工程中的应用前景分析[J].建设科技.
[55]刘异等.高温热泵转轮除湿及辐射供冷空调系统性能研究[J].建筑科学.
[56]彭谦等.长沙市既有地源热泵示范项目测评分析[J].建筑科学.
[57]徐伟等.热泵蓄能耦合供冷供热系统研究综述与展望[J].暖通空调.
[58]高公如等.水源热泵双干燥过滤装置研究[J].现代制造技术与装备.
[59]刁乃仁等. 因地制宜推广地源热泵技术[N]. 中国科学报.
[60]胡鹏荣等.水源热泵系统压缩机变吸气口状态下的实验研究[J].热能动力工程.
[61]钟吴君等.含余热回收装置及压缩式热泵的垃圾焚烧电厂能效优化[J/OL].电力系统及其自动化学报.
[62]吴集迎等.沼气机驱动的风冷热泵系统变工况性能[J].化工学报.
[63]ChangchunLiu,et al. Proposal and Assessment of an Engine-Based Distributed Steam andPower Cogeneration System Integrated with an Absorption-Compression HeatPump[J]. Journal of Thermal Science.
[64]QinlingZhang,et al. Performance optimization of a heat pump driven liquid desiccantdehumidification system using exergy analysis[J]. Energy.
[65]王世君等.基于改进MOBCC算法的空气源热泵水温范围设置优化研究[J].电力系统保护与控制.
[66]张新超.余热回收型双热源热泵污泥干燥系统实验研究[D].北京建筑大学.
[67]翟洪宝. 直膨式热泵型烟气余热回收与净化系统实验研究[D].北京建筑大学.
[68]姚华宁. 平板热管式太阳能PV/T热泵系统的性与优化[D].北京建筑大学.
[69]葛宇. 微通道换热器空气源热泵结除霜改善技术研究[D].北京建筑大学.
[70]张迪等 .新型低GWP高温热泵工质HFO-1234ze(Z)的研究进展[J].化工学报,.
[71]张辛辛等.热泵用涡旋压缩机补气位置特性研究[J].流体机械,.
[72]赵宇等.电动汽车热泵空调系统综述[J].制冷与空调,.
[73]潘永坤等.开式吸收式热泵型真空干燥系统建模及性能分析[J].科学技术与工程,.
[74]刘兴学.基于层次分析法的平潭岛地下水地源热泵适宜性分区[J].福建建设科技.
[75]赵成寅.热泵干燥技术在干衣机中的应用[J].日用电器.
[76]陈丽娟等.合成乙酸丁酯的热泵分隔壁反应精馏流程模拟与优化[J].石油学报(石油加工).
[77]党正伟.焦家寨矿空气源热泵加热系统的应用[J].化工管理.
[78]余飞等.超声波-热泵联合干燥黄豆种子特性分析[J].中国农业大学学报.
[79]王铮昊等.热泵技术在干式喷房应用及节能减排分析[J].现代涂料与涂装.
[80]刘瑶瑶等.高温热泵工质研究进展[J].浙江化工.
[81]丁雪峰等.中空纤维膜在吸收式热泵中的热质传递分析[J].化学工程.
[82]A Novel Self-adaptive Control Strategy of Frost Prevention and Retardation forAir Source Heat Pumps In Winter Conditions)[J]. News of Science.
[83]许泽文等.有棱丝瓜热泵干燥特性及干制品多酚的体外抗氧化活性比较[J].现代食品科技.
[84]邓强.煤矿空压机与空气能热泵搭配节能的研究[J].煤炭技术.
[85]黄皓等.黑皮冬瓜分段式变温热泵干燥工艺研究[J].保鲜与加工.
[86]ZhaoyangLi,et al. A novel defrosting initiating method for air source heat pumps basedon the optimal defrosting initiating time point[J]. Energy & Buildings.
[87]WenyiWang,et al. Real-time efficiency optimization of a cascade heat pump system viamultivariable extremum seeking[J]. Applied Thermal Engineering.
[88]MinqiLi,et al. Preparation and characterizations of a novel temperature-tuned phasechange material based on sodium acetate trihydrate for improved performance ofheat pump systems[J]. Renewable Energy.
[89]Patel Viral K et al.Validated model of a thermoelectric heat pump clothes dryer using secondarypumped loops[J]. Applied Thermal Engineering
[90]Shaulsky Evyatar,et al. Membrane distillation assisted by heat pump forimproved desalination energy efficiency[J]. Desalination
[91]Thermodynamic analysis of a novel chemical heat pump cycle based on thephysical-chemical thermal effects of reversible reaction[J]. Energy Conversionand Management
[92]Goričanec Darko,et a. The Exploitation of Low-Temperature Hot Water BoilerSources with High-Temperature Heat Pump Integration[J]. Energies
[93]Dai Suzhou,et al. Thermodynamic analysis of a novel chemical heat pump cyclebased on the physical-chemical thermal effects of reversible reaction[J].Energy Conversion and Management
[94]Ichinose Atsuhiro,et al. Experimental Evaluation of the Heat Output/Input andCoefficient of Performance Characteristics of a Chemical Heat Pump in thePeriodic Operation of CaCl<sub>2</sub> Hydration[J]. Journal ofMaterials Science and Chemical Engineering
[95]Gupta Aman,et al. Thermodynamics of Ca(OH)2/CaO reversible reaction: Refinementof reaction equilibrium and implications for operation of chemical heatpump[J]. Chemical Engineering Science
致谢:论文摘选由张芃悦协助整理。