1)科技部,国家重点研发计划,政府间国际科技创新合作子课题,2021YFE0116104,复合型区域供热供冷系统能流网络优化和柔性调控研究,2022-01至2024-12,40.0万元,在研,主持 2)甘肃省住房和城乡建设厅,甘肃省住房和城乡建设厅科研项目,JK2021-10,超低能耗绿色建筑光储直柔联合建筑环境系统的需求管理与协同平衡,2021-03至2022-03,2.0万元,在研,主持 3)企业,顿汉布什(中国)工业有限公司,真空相变热泵机组,2019.08至2019.12,结题,主持 4)企业,广东吉荣空调有限公司博士后工作站,一体化宽温区热泵热水机组,2017.08至2019.08,结题,主持 5)企业,凯旋汽车零部件制造(大庆)有限公司,高温水供热系统漏水原因及防治办法技术鉴定,2016.03至2016.03,结题,主持 6)企业,广州市市政工程设计研究院,污水源热泵技术研究与开发,2015.12至2016.12,结题,主持 7)市级,年北京建筑大学供热供燃气通风及空调工程北京市重点实验室研究基金,蓄能型太阳能与空气源复合热泵整机实验研究,2013.12至2015.12,结题,主持 8)国家,国家自然科学基金面上项目,三套管蓄能型太阳能与空气源热泵集成系统创新及特性研究,2012.12至2015.12,结题,参与 9)省部级,广东省教育部产学研结合项目,蓄能型太阳能热泵及三套管换热器关键技术研究及产品化,2011.06至2014.06,结题,主持 10)企业,广东吉荣空调有限公司,蓄能型太阳能热泵关键技术研发,2011.06至2014.06,结题,主持 发表论文: 1)WangJJ; QvDH; NiL; FanJH; KongWQ.Matching-design for inverter air-source heat pump system based on heating load characteristics of civil buildings, Energy and Buildings;2022, 260.(SCI) 2)WangJJ; QvDH*; YaoY; NiL.The difference between vapor injection cycle with flash tank and intermediate heat exchanger for air source heat pump: An experimental and theoretical study, Energy, 2021, 221.(SCI) 3)Qu DH*; Duan XJ; Wang JJ; Hou CQ; Wang G; Zhou FX; Li SY. Issues and Potential Solutions to the Clean Heating Project in Rural Gansu. Sustainability;2021,13(15).(SCI) 4)Wang JJ;QvDH*; Ni L; Yao Y. Experimental study on an injection-assisted air source heat pump with a novel two-stage variable-speed scroll compressor. Applied Thermal Engineering;2020,176.(SCI) 5)Qv DH*; Wang JJ; Shang RX; Ni L; Yao Y. High-grade energy compensation ratio in a conventional subcritical vapour-compression heat-pump cycle. Applied Thermal Engineering; 2018, 138: 490-493.(SCI) 6)Qv DH; Dong BB; Cao L; Ni L*; Wang JJ; Shang RX; Yao Y. An experimental and theoretical study on an injection-assisted air-conditioner using R32 in the refrigeration cycle. Applied Energy; 2017, 185: 791-804.(SCI) 7)Qv DH; Ni L*; Yao Y; Hu WJ. Reliability verification of a solar-air source heat pump system with PCM energy storage in operating strategy transition. Renewable Energy; 2015, 84: 46-55.(SCI) 8)Ni L*; Qv DH; Yao Y; Niu FX; Hu WJ. An experimental study on performance enhancement of a PCM based solar-assisted air source heat pump system under cooling modes. Applied Thermal Engineering; 2016, 100: 434-452.(SCI) 9)Ni L*; Qv DH; Wang JJ; Shang RX; Yao Y. Forced convective heat transfer for laminar flow of paraffin: A numerical and experimental study. Applied Thermal Engineering; 2017, 113: 1152-1163.(SCI) 10)Ni L*; Qv DH; Wang JJ; Shang RX; Yao Y. Phenomenological model of binary-series viscosity for analysing rheological properties of a paraffin using validated experiments. International Journal of Refrigeration; 2017, 79: 238-250.(SCI) 11)Ni L*; Qv DH; Shang RX; Yao Y; Niu FX; Hu WJ. Experimental study on performance of a solar-air source heat pump system in severe external conditions and switchover of different functions. Sustainable Energy Technologies and Assessments; 2016, 16: 162-173.(SCI) 12)Ni L*; Dong JK; Yao Y; Shen C; Qv DH; Zhang XD. A review of heat pump systems for heating and cooling of buildings in China in the last decade. Renewable Energy; 2015, 84: 30-45.(SCI) 13)L Ni*; Wang JJ; Qv DH*; Cai Q; Yao Y. Performance improvement of water-cooled screw chiller under part load operation conditions by the paralleling throttle mechanism. Thermal Science; 2018, 22(S2): 585-96.(SCI) 14)L Ni*; Wang R; Sun XJ; Yao Y; Qv DH*. Water exchange of a standing column well with aquifer. Thermal Science; 2018, 22(S2): 481-90.(SCI) 15)曲德虎;倪龙*;姚杨.改善三套管蓄能型热泵系统供热性能的实验.湖南大学学报(自然科学版); 2015, 42(7): 121-127.(EI) 16)曲德虎;倪龙*;姚杨;牛福新.三套管蓄能型热泵的制冷实验.天津大学学报(自然科学与工程技术版); 2016, 49(3): 326-331.(EI) 17)曲德虎;倪龙*;姚杨;牛福新.三套管蓄能型热泵在非常定工况下的实验.哈尔滨工业大学学报; 2015, 47(4): 20-25.(EI) 18)曲德虎;倪龙*;姚杨.太阳能辅助三套管蓄能器的供热实验.太阳能学报; 2016, 37(9): 2278-2285.(EI) 19)倪龙*;曲德虎;李文倬;傅旭辉;姚杨.严寒地区围护结构的防潮验算.暖通空调; 2018, 48(2): 107-112. 20)倪龙*;曲德虎;姚杨;江辉民;王家贵.三套管蓄能型热泵系统样机设计及实验台搭建.暖通空调; 2014, 44(S1): 223-227. 21)王吉进;曲德虎;倪龙*;姚杨;王家贵.宽温区空气源热泵热水机性能实验研究.制冷学报; 2020. 22)王娜娜;曲德虎.三套管蓄能热泵系统控制方案设计与实测分析.机械工程与自动化; 2014, (2): 139-141. 发表专利: 1)曲德虎;王榆榆;段祥杰;席亚龙.一种基于跨时间尺度储能的太阳能热电协同供应系统. 2021 1 1289204.8. 2)曲德虎;魏叶茹;周凤玺;李绍勇;王刚;厚彩琴;空气-土壤复合热源增容型热泵系统. 2020 1 1410714.1. 3)梁洁平;曲德虎;邓泳德;张晓艳;张学伟.一种利用复叠式制冷系统余热的热泵. 2017 1 1269342.3. 4)梁洁平;曲德虎;邓泳德;张晓艳;张学伟.一种流量兼容器以及采用该兼容器的制冷系统. 2017 1 1492460.0. 5)梁洁平;曲德虎;邓泳德;张晓艳;张学伟.数据中心用氟泵冷却流量兼容系统. 2017 1 1296910.9. 6)曲德虎;倪龙;姚如生;吴杰生;王晓忠;王吉进;黄培炫.多热元大温差压缩式热泵热水机组. 2017 1 1075373.5. 7)林浩生;曲德虎.用于蒸汽压缩制冷热泵循环的多蒸发回路合并系统. 2018 1 0046434. 8)倪龙;姚杨;曲德虎.一种紧凑型箱翅式低温蓄热换热器. 2014 1 0746813.5. 9)倪龙;姚杨;曲德虎.箱翅式低温蓄热换热器及含该换热器的热泵机组运行方法. 2014 1 0746832.8. 10)倪龙;姚杨;曲德虎.一种流动相变蓄能的降膜蒸发式热泵机组. 2014 1 0757459.6. 11)倪龙;姚杨;曲德虎.一种流动相变蓄能的降膜蒸发式换热装置. 2014 1 0757458.1. 12)王娜娜;曲德虎;郑建光;林美娜;江辉民;季学娟;黄叙佳.一种风能制热机组及其运行方法. 2013 1 0089438.7. 13)倪龙;曲德虎;姚杨;姜思航;蔡强.一种水冷式油冷却的大中型双节流制冷水机组. 2016 1 0366442.7. 14)曲德虎;倪龙;黄培炫;吴杰生;王吉进;王晓忠.用于蒸汽压缩制冷循环的节流膨胀装置. 2017 2 1466920.8. 15)林浩生;曲德虎.带热气旁通的复叠喷射单级压缩制冷系统. 2018 2 0096787. 16)倪龙;曲德虎;朱旭;董重成.一种用于北方地区住宅冬季通风换气装置. 2015 2 0545514.5. 17)王娜娜;曲德虎;林美娜;郑建光;陈锐群;朱德魁.一种用于风能制热的蓄能换热器. 2013 2 0127349.2. 18)王娜娜;曲德虎;郑建光;江辉民;林美娜;孙映辉;季学娟.一种用于风能制热的产热装置. 2013 2 0127371.7. 认证资质: 2020.01 美国项目管理学会(Project Management Institute,PMI)认证,项目管理师(Project Management Professional,PMP) |