职称：副教授硕士研究生导师

地址：betway必威（兰工坪）综合楼

邮编：730050

E-mail：2249479941@qq.com

教育经历

博士：2013.09-2016.12哈尔滨工业大学，供热、供燃气、通风及空调工程

硕士：2011.09-2013.07哈尔滨工业大学，供热、供燃气、通风及空调工程

本科：2006.09-2010.07哈尔滨工业大学，建筑环境与设备工程

工作履历

2020.06—至今betway必威，必威betway，教师

2019.08-2020.01顿汉布什（中国）工业有限公司，项目管理主管，专职

2017.08-2019.08广东吉荣空调有限公司，博士后工作站，博士后，专职

2017.04-2017.08广东申菱环境系统股份有限公司，工程师，基础研究，专职

教学工作

本科生：《工程热力学》《冷热源工程》《实验的理论基础》等

研究生：《高等工程热力学》《高等传热学》等

研究领域

中长时间尺度热回收；可持续热环境设计原理及应用；智慧清洁能源系统

学术成果

学术论文：

1）WangJJ; GuoJX;QvDH; ZhangLY; LiuN; NiL. The effectiveness of vapor-injection for an inverter air-source heat pump compared with vapor-return, Applied Thermal Engineering; 2024, 245.（SCI）

2）QvDH*; DuanXJ; WangJJ; WangLY; YaoY. Visualization of physical-field structural evolution Characteristic curve based on the non-equilibrium potential differences in an air-conditioning environment, Journal of Building Engineering; 2023, 66.（SCI）

3）WangJJ;QvDH; NiL. Seeking a new throttle to substitute the thermostatic expansion valve in vapor-injection process for an air-source heat pump: An experimental study, Sustainable Energy Technologies and Assessments; 2022, 54.（SCI）

4）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）

5）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）

6）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）

7）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）

8）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）

9）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）

10）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）

11）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）

12）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）

13）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）

14）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）

15）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）

16）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）

17）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）

18）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）

19）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）

20）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）

21）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）

22）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.

23）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.

24）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.

25）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.

授权发明专利：

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.