出生年月:1986.11
职称:副教授/硕士生导师
学历:博士研究生
办公室:工科楼D209
E-mail:maoning@upc.edu.cn
电话:0532-86983173
研究领域
(1)受限空间热湿传递机理研究;
(2)空气源/污水源热泵系统流动与传热传质研究;
(3)建筑与工业节能技术。
教育经历
2004.9-2008.7,山东大学,能源与动力工程学院,本科;
2008.9-2011.7,中国科学院,工程热物理研究所,硕士研究生;
2011.9-2015.3,香港理工大学,屋宇设备工程学系,博士研究生
工作经历
2018年1月至今,中国石油大学,副教授
2015年4月-2018年1月,中国石油大学,讲师
主讲课程
输气管道设计与管理、建筑节能技术、输气管道课程设计、燃气工程制图
主要论文
2018
(1)Song M, Mao N, Deng S. An experimental study on time-based start defrosting control strategy optimization for an air source heat pump unit with frost evenly distributed and melted frost locally drained. Energy and Buildings 2018; 178: 26-37. SCI. IF= 7.9. (SCI二区)
(2)Mao N, Hao J, Cui B, Li Y, Song M, Xu Y, Deng S. Energy performance of a bedroom task/ambient air conditioning (TAC) system applied in different climate zones of China. Energy 2018 159: 724-736. SCI. IF= 4.520. (SCI一区)
(3)Song M, Liao L, Niu F, Mao N*, Liu S, Hu Y. Thermal Stability Experimental Study on Three Types of Organic Binary Phase Change Materials Applied in Thermal Energy Storage System. Journal of Thermal Science and Engineering Applications 2018; 10(4): 041018-1. SCI. IF=0.985. (SCI四区)
(4)Mao N, Zhang B, Song M, Deng S. A simplified numerical study on the energy performance and thermal environment of a bedroom TAC system. Energy and Buildings 2018; 166: 305-316. SCI. IF=4.067. (SCI二区)
(5)Song M, Dang C, Mao N*, Deng S. Energy transfer procession in an air source heat pump unit during defrosting with melted frost locally drainage in its multi-circuit outdoor coil. Energy and Buildings 2018; 164: 109-120. SCI. IF=4.067. (SCI二区)
(6)Mao N, Song M*, Pan D, Deng S. Comparative studies on using RSM and TOPSIS methods to optimize residential air conditioning systems. Energy 2018; 144: 98-109. SCI. IF= 4.520. (SCI一区)
(7)Xu Y, Jiang N, Wang Q, Mao N, Chen G, Gao Z. Refrigerant evaluation and performance comparison for a novel hybrid solar-assisted ejection-compression refrigeration cycle. Solar Energy 2018; 160: 344-352. SCI. IF=4.018. (SCI二区)
(8)Xu Y, Jiang N*, Han X, Han W, Mao N, Chen G. Performance evaluation and energy-saving potential comparison of a heat-powered novel compression-enhanced ejector refrigeration cycle with an economizer. Applied Thermal Engineering 2018, 130: 1568-1579. SCI. IF=3.444. (SCI二区)
(9)Song M, Deng S, Dang C, Mao N*, Wang Z. Review on improvement for air source heat pump units during frosting and defrosting. Applied Energy 2018; 211: 1150-1170. SCI. IF= 7.900. (SCI一区)
(10)Song M, Niu F, Mao N*, Hu Y, Deng S. Review on building energy performance improvement using phase change materials. Energy and Buildings 2018; 158: 776-793. SCI. IF=4.067. (SCI二区、ESI高被引论文)
2017
(11)Song M, Xu X, Mao N*, Deng S, Xu Y. Energy transfer procession in an air source heat pump unit during defrosting. Applied Energy 2017; 204: 679-689. SCI. IF= 7.182. (SCI一区)
(12)Mao N, Song M, Pan D, Li Z, Deng S. Numerical investigations on the effects of envelope thermal loads on energy utilization potential and thermal non-uniformity in sleeping environments. Building and Environment 2017; 124: 232-244. SCI. IF= 4.053. (SCI二区)
(13)Mao N, Pan DM, Song M*, Li Z, Xu Y, Deng S. Operating optimization for improved energy consumption of a TAC system affected by nighttime thermal loads of building envelopes. Energy 2017; 133: 491-501. SCI. IF= 4.520. (SCI一区)
(14)Mao N, Pan DM, Li Z, Xu Y, Song M*, Deng S, A numerical study on influences of building envelope heat gain on operating performances of a bed-based task/ambient air conditioning (TAC) system in energy saving and thermal comfort, Applied Energy 2017; 192: 213-221. SCI. IF= 7.182. (SCI一区、ESI高被引论文)
(15)Song M, Gong G, Mao N*, Deng S, Wang Z, Experimental investigation on an air source heat pump unit with a three-circuit outdoor coil for its reverse cycle defrosting termination temperature. Applied Energy 2017, 204: 1388-1398. SCI. IF= 7.182. (SCI一区)
(16)Mao N, Song MJ*, Deng SM. Computational fluid dynamics analysis of convective heat transfer coefficients for a sleeping human body in subtropics. Applied Thermal Engineering 2017; 117: 385-396. SCI. IF=3.356. (SCI二区、ESI高被引论文)
(17)Mao N, Pan DM*, Chan MY, Deng SM, Parameter optimization for operation of a bed-based task/ambient air conditioning (TAC) system to achieve a thermally neutral environment with minimum energy use, Indoor and Built Environment 2017; 26: 132-144. SCI. IF=1.181. (SCI三区)
(18)Mao N, Hao J, Song M, Pan D. Investigations on thermal environment in residential buildings with PCM embedded in external wall. Energy Procedia. 2017. 142, 1888-1895. EI.
(19)Liu S, Song M, Bai B, Tian Y, Song M, Mao N. Experimental Study on R245fa Condensation Heat Transfer in Horizontal Smooth Tube and Enhanced Tube. Energy Procedia 2017; 142: 4169-4175. EI.
2016
(20)Mao N, Song M*, Deng S, Pan D, Chen SJ. Experimental and numerical study on air flow and moisture transport in sleeping environments with a task ambient air conditioning system. Energy and Buildings 2016; 133: 596-604. SCI. IF=4.067. (SCI二区)
(21)Mao N, Song MJ*, Deng SM. Application of TOPSIS method in evaluating the effects of supply vane angle of a task/ambient air conditioning system on energy utilization and thermal comfort. Applied Energy, 2016, 180: 536-545. SCI. IF=5.613. (SCI一区)
(22)Mao N, Song MJ, Chan MY, Pan DM*, Deng SM, Computational fluid dynamics (CFD) modelling of air flow field, mean age of air and CO2 distributions inside a bedroom with different heights of conditioned air supply outlet. Applied Energy 2016; 164: 906-915. SCI. IF= 5.613. (SCI一区)
(23)Song MJ, Mao N*, Deng SM, Chen Y, Wang C, Yang QC. Experimental investigations on destroying surface tension of melted frost for defrosting performance improvement of a multi-circuit outdoor coil. Applied Thermal Engineering 2016; 103: 1278-1288. SCI. IF=3.356. (SCI二区)
(24)Song MJ, Xia L, Mao N*, Deng SM,. An experimental study on even frosting performance of an air source heat pump unit with a multi-circuit outdoor coil. Applied Energy 2016; 164: 36-44. SCI. IF= 5.613. (SCI一区)
(25)Song MJ, Deng SM, Mao N*, Ye XM. An experimental study on defrosting performance for an air source heat pump unit with a horizontally installed multi-circuit outdoor coil. Applied Energy, 2016; 165: 371-382. SCI. IF= 5.613. (SCI一区)
(26)Song MJ, Chen A, Mao N*. An experimental study on defrosting performance of an air source heat pump unit with a multi-circuit outdoor coil at different frosting evenness values. Applied Thermal Engineering 2016; 94: 331-340. SCI. IF=3.444. (SCI二区)
(27)Song MJ, Mao N*, Deng SM, Xia YD, Chen Y. An experimental study on defrosting performance for an air source heat pump unit at different frosting evenness values with melted frost local drainage. Applied Thermal Engineering 2016; 99: 730-740. SCI. IF=3.444. (SCI二区)
研究项目
(1)2018-2020,直接式污水源热泵回收工业废水余热的关键问题研究,自主创新科研计划,18CX02077A (主持)
(2)2016-2019, 直接式油田污水源热泵系统的流动传热特性和优化研究,山东省自然科学基金,ZR2016EEQ29 (主持)
(3)2016-2017, 中国北方地区建筑围护结构中使用相变材料节能的应用研究,科研启动基金,YJ201501018 (主持)
(4)2015-2017, 相变材料在睡眠环境个体送风系统中的应用研究,校自主创新科研计划,15CX02111A (主持)
主要成果
累计发表50余篇学术论文,其中SCI收录30篇,EI收录14篇(包括12篇SCI一区论文和3篇ESI高被引论文)。总计被引400余次,H-index 15。(Google Scholar)
联系地址
山东省青岛市黄岛区长江西路66号,中国石油大学,工科楼D209
招生信息
招收具有建筑环境与能源应用工程和能源与动力工程背景的研究生。
备注
ORCID
https://orcid.org/0000-0002-5033-1786
Researchgate
https://www.researchgate.net/profile/Ning_Mao10