2023年

[1] Wang M, Yu H, Jing R, et al. Prediction and comparison of urban electricity consumption based on grey system theory: A case study of 30 southern China cities [J]. Cities, 2023, 137(104299).

[2] 严逊,于航,李超恩.浸没式液冷服务器排列方式研究[J].暖通空调,2023,53(01):131-135+155.

[3] Jiao Y, Yu Y F, Yu H, et al. The impact of thermal environment of transition spaces in elderly-care buildings on thermal adaptation and thermal behavior of the elderly [J]. Building and Environment, 2023, 228(17).

[4] Mao, H.; Yu, H.; Tang, Y.; Zhang, K.; Luo, M.; Zhuang, L. Psychological State and Subjective Environmental Perception of College Students Residing in Dormitories during Quarantine: A Case Study. Buildings 2023, 13, 1065. (https://doi.org/10.3390/buildings13041065).

2022年

[1] Y. Tang, Z. Su, H. Yu, K. Zhang, C. Li, H. Ye, A database of clothing overall and local insulation and prediction models for estimating ensembles’ insulation, Building and Environment, 207 (2022) 108418. (https://doi.org/10.1016/j.buildenv.2021.108418)

[2] Zhang K, Yu H, Tang Y, et al. Quantitative Investigation of Body Part Selection for Data-Driven Personal Overall Thermal Preference Prediction [J]. Buildings, 2022, 12(2).

[3] Tang Y, Yu H, Zhang K, et al. Thermal comfort performance and energy-efficiency evaluation of six personal heating/cooling devices [J]. Building and Environment, 2022, 217

[4] C. Liu, H. Yu, Experimental Investigations on Heat Transfer Characteristics of Direct Contact Liquid Cooling for CPU[J], Buildings, 12(7) (2022)

[5] Y. Zhou, H. Yu, S. Xu, M. Luo, X. Zhou, High‐density thermal sensitivity of the hand under different thermal states and stimulus intensities, Indoor Air 32(8) (2022)

[6] M. Wang, H. Yu, Y. Yang, R. Jing, Y. Tang, C. Li, Assessing the impacts of urban morphology factors on the energy performance for building stocks based on a novel automatic generation framework, Sustainable Cities and Society,  (2022) 104267.

[7] 赵世杰,于航,钟志鲲等.数据中心主动调节式送风末端装置的可行性模拟研究[J].节能,2022,41(12):5-9.

2021年

[1] 严逊, 于航, 刘成, 李超恩. 服务器浸没式液冷的换热效率及节能潜力[J].建筑热能通风空调,2021,40(03):11-13+37.

[2] H. Yu, M. Wang, X. Lin, H. Guo, H. Liu, Y. Zhao, H. Wang, C. Li, R. Jing, Prioritizing urban planning factors on community energy performance based on GIS-informed building energy modeling, Energy and Buildings, 249 (2021) 111191. (https://doi.org/10.1016/j.enbuild.2021.111191)

[3] M. Wang, H. Yu, Y. Yang, X. Lin, H. Guo, C. Li, Y. Zhou, R. Jing, Unlocking emerging impacts of carbon tax on integrated energy systems through supply and demand co-optimization, Applied Energy, 302 (2021) 117579. (https://doi.org/10.1016/j.apenergy.2021.117579)

[4] C. Liu, H. Yu, Evaluation and Optimization of a Two-Phase Liquid-Immersion Cooling System for Data Centers, Energies, 14(5) (2021) 21. (https://doi.org/10.3390/en14051395)

[5] X.Y. Lin, H. Yu, M. Wang, C.E. Li, Z. Wang, Y. Tang, Electricity Consumption Forecast of High-Rise Office Buildings Based on the Long Short-Term Memory Method, Energies, 14(16) (2021) 21. 

[6] 林笑宇,于航, 周弈伽 等. 夏热冬冷地区高校学生宿舍用电影响参数分析 [J]. 土木与环境工程学报(中英文), 2021, 1-10).

2020年

[1] 胡慧心, 于航, 何旸, 李超恩. 上海地区双层垂直绿化办公建筑实测研究[J].建筑热能通风空调,2020,39(01):46-49+32.

[2] 陈鹏达, 于航, 唐寅, 荆博龙, 郑树. 上海市某小型办公建筑冬季采暖能耗监测及分析[J].建筑热能通风空调,2020,39(02):45-48+65.

[3] H. Yu, Z.Y. Liu, C.E. Li, R. Liu, Study on Pricing Mechanism of Cooling, Heating, and Electricity Considering Demand Response in the Stage of Park Integrated Energy System Planning, Applied Sciences-Basel, 10(5) (2020). (https://doi.org/10.3390/app10051565)

[4] H. Yu, C. Li, K. Zhang, Y. Tang, Y. Song, M. Wang, Preparation and thermophysical performance of diatomite-based composite PCM wallboard for thermal energy storage in buildings, Journal of Building Engineering, 32 (2020) 101753. (https://doi.org/10.1016/j.jobe.2020.101753)

[5] M. Wang, H. Yu, X.Y. Lin, R. Jing, F.J. He, C.E. Li, Comparing stochastic programming with posteriori approach for multi-objective optimization of distributed energy systems under uncertainty, Energy, 210 (2020). (https://doi.org/10.1016/j.energy.2020.118571)

[6] M. Wang, H. Yu, R. Jing, H. Liu, P. Chen, C. Li, Combined multi-objective optimization and robustness analysis framework for building integrated energy system under uncertainty, Energy Conversion and Management, 208 (2020) 112589. (https://doi.org/10.1016/j.enconman.2020.112589)

[7] Y. Tang, H. Yu, Z. Wang, M.H. Luo, C.E. Li, Validation of the Stolwijk and Tanabe Human Thermoregulation Models for Predicting Local Skin Temperatures of Older People under Thermal Transient Conditions, Energies, 13(24) (2020) 16. (https://doi.org/10.3390/en13246524)

[8] Y. Song, C. Li, H. Yu, Y. Tang, Z. Xia, Optimization of the phase-change wallboard test method: Experimental and numerical investigation, Journal of Energy Storage, 30 (2020) 101559. (https://doi.org/10.1016/j.est.2020.101559)

[9] Z.Y. Liu, H. Yu, R. Liu, M. Wang, C.E. Li, Configuration Optimization Model for Data-Center-Park-Integrated Energy Systems under Economic, Reliability, and Environmental Considerations, Energies, 13(2) (2020) 22. (https://doi.org/10.3390/en13020448)

[10] C.E. Li, H. Yu, Y. Song, M. Wang, Z.Y. Liu, A n-octadecane/hierarchically porous TiO2 form-stable PCM for thermal energy storage, Renewable Energy, 145 (2020) 1465-1473. (https://doi.org/10.1016/j.renene.2019.06.070)

[11] Y. Jiao, H. Yu, Y.F. Yu, Z. Wang, Q. Wei, Adaptive thermal comfort models for homes for older people in Shanghai, China, Energy and Buildings, 215 (2020). (https://doi.org/10.1016/j.enbuild.2020.109918)

[12] Y. He, H. Yu, A. Ozaki, N.N. Dong, Thermal and energy performance of green roof and cool roof: A comparison study in Shanghai area, Journal of Cleaner Production, 267 (2020). (https://doi.org/10.1016/j.jclepro.2020.122205)

2019年

[1] 宋媛, 于航, 唐寅, 李超恩. 建筑用相变材料热性能测试与评价综述[J].暖通空调,2019,49(04):56-64.

[2] 刘瑞, 于航, 梁浩. 上海地区办公建筑形态对单位能耗影响的研究[J].建筑热能通风空调,2019,38(02):42-45+10.

[3] Z. Wang, H. Yu, Z. Wang, M. Luo, A Random Forest-Based Prediction for Older People’s Thermal Sensation in Uniform and Stable Thermal Environment-A Case Study in Shanghai, ISHVAC 2019, Harbin, 2019.

[4] Z. Wang, H. Yu, M. Luo, Z. Wang, H. Zhang, Y. Jiao, Predicting older people's thermal sensation in building environment through a machine learning approach: Modelling, interpretation, and application, Building and Environment, 161 (2019) 106231. (https://doi.org/10.1016/j.buildenv.2019.106231)

[5] Z. Wang, H. Yu, Y. Jiao, X. Chu, M. Luo, Chinese older people's subjective and physiological responses to moderate cold and warm temperature steps, Building and Environment, 149 (2019) 526-536. (https://doi.org/10.1016/j.buildenv.2018.12.058)

[6] M. Wang, F. He, H. Liu, P. Chen, Y. Tang, H. Yu, A two-stage multi-objective stochastic programming model for design of building integrated energy system, CUE2019, Xiamen, 2019.

[7] Z.Y. Liu, H. Yu, R. Liu, A novel energy supply and demand matching model in park integrated energy system, Energy, 176 (2019) 1007-1019. (https://doi.org/10.1016/j.energy.2019.04.049)

[8] C.E. Li, H. Yu, Y. Song, Z.Y. Liu, Novel hybrid microencapsulated phase change materials incorporated wallboard for year-long year energy storage in buildings, Energy Conversion and Management, 183 (2019) 791-802. (https://doi.org/10.1016/j.enconman.2019.01.036)

[9] C.E. Li, H. Yu, Y. Song, H. Liang, X. Yan, Preparation and characterization of PMMA/TiO2 hybrid shell microencapsulated PCMs for thermal energy storage, Energy, 167 (2019) 1031-1039. (https://doi.org/10.1016/j.energy.2018.11.038)

[10] C. Li, H. Yu, Y. Song, Experimental investigation of thermal performance of microencapsulated PCM-contained wallboard by two measurement modes, Energy and Buildings, 184 (2019) 34-43. (https://doi.org/10.1016/j.enbuild.2018.11.032)

2018年

[1] 钟志鲲, 于航. 数据中心采用三联供系统的适宜性分析及应用实例[J].邮电设计技术,201807):87-92.

[2] 徐玉婷, 于航. 某超高层建筑冰蓄冷低温送风空调系统设计[J].洁净与空调技术,201802):85-88.

[3] 魏琦, 于航, 焦瑜, 王梓, 储向阳. 上海地区过渡季老年人热感觉及热适应行为研究[J].建筑热能通风空调,

2018,37(03):37-43.

[4] 黄子硕, 于航, 彭震伟. 广域网视角下的城市能量系统及其规划[J].科学通报,2018,63(Z2):3047-3058.

[5] 高潮, 梁浩, 于航. 绿化对室外热环境的影响——以上海某停车场为例[J].建筑热能通风空调,2018,37(12):11-15+27.

[6] 储向阳, 于航, 焦瑜, 王梓. 与生理参数相关的热舒适实验研究综述[J].建筑热能通风空调,2018,37(12):60-64+21.

[7] 陈雷田, 于航. 温度分层型水蓄冷装置在上汽大众的应用[J].上海节能,201801):56-61.

[8] B.R. Zhu, Y.L. Liu, Z.Y. Liu, H. Yu, A Study on Primary Energy and Secondary Energy Price in Distributed Energy Projects, Applied Energy Symposium and Forum - Low-Carbon Cities and Urban Energy Systems (CUE), Shanghai, PEOPLES R CHINA, 2018, pp. 57-63.

[9] Z.-M. Yi, H. Yu, Q. Wei, X.-Y. Chu, An advanced simulation test bed for the stability analysis of variable air volume air-conditioning control system. Part 1: Optimal simplified model of building envelope for room thermal performance prediction, Energy and Buildings, 158 (2018) 950-963. (https://doi.org/10.1016/j.enbuild.2017.10.076)

[10] Z. Wang, H. Yu, Y. Jiao, Q. Wei, X. Chu, A field study of thermal sensation and neutrality in free-running aged-care homes in Shanghai, Energy and Buildings, 158 (2018) 1523-1532. (https://doi.org/10.1016/j.enbuild.2017.11.050)

[11] C.E. Li, H. Yu, Y. Song, M. Zhao, Synthesis and characterization of PEG/ZSM-5 composite phase change materials for latent heat storage, Renewable Energy, 121 (2018) 45-52. (https://doi.org/10.1016/j.renene.2017.12.089)

[12] C.E. Li, G.X. He, H.G. Yan, H. Yu, Y. Song, Synthesis of microencapsulated stearic acid with amorphous TiO2 as shape-stabilized PCMs for thermal energy storage, Applied Energy Symposium and Forum - Low-Carbon Cities and Urban Energy Systems (CUE), Shanghai, PEOPLES R CHINA, 2018, pp. 390-394.

[13] Z.S. Huang, H. Yu, X.Y. Chu, Z.W. Peng, A novel optimization model based on game tree for multi-energy conversion systems, Energy, 150 (2018) 109-121. (https://doi.org/10.1016/j.energy.2018.02.091)

[14] Z.S. Huang, G.X. He, H.G. Yan, H. Yu, Switch sequence optimization of heat pumps for micro-grid peak clipping, Applied Energy Symposium and Forum - Low-Carbon Cities and Urban Energy Systems (CUE), Shanghai, PEOPLES R CHINA, 2018, pp. 64-70.

[15] Y. He, H. Yu, P.D. Chen, M. Zhao, Thermal performance evaluation of a new type of green roof system, Applied Energy Symposium and Forum - Low-Carbon Cities and Urban Energy Systems (CUE), Shanghai, PEOPLES R CHINA, 2018, pp. 384-389.

2017年

[1] 赵美, 于航, 石磊, 臧建彬, 刘志渊, 王旭. 上海某高校学院楼基于能耗审计结果的节能潜力分析[J].建筑节能,2017,45(04):100-104+123.

[2] 刘志渊, 于航, 黄子硕. 考虑管网衰减延迟特性的分布式能源站实时出力计算[J].暖通空调,2017,47(04):19-22.

[3] 黄子硕, 于航, 彭震伟. 多能互补分布式能源系统的能效水平及其影响因素[J].暖通空调,2017,47(04):23-28.

[4] Z. Wang, H. Yu, Y. Jiao, Two adjusted adaptive comfort models of elderly in elderly facilities in shanghai, Joint IEA EBC Annex 66 and 69 Symposium on Occupant Behaviour and Adaptive Thermal Comfort, Copenhagen, 2017.

[5] E.L. Meng, H. Yu, B. Zhou, Study of the thermal behavior of the composite phase change material (PCM) room in summer and winter, Applied Thermal Engineering, 126 (2017) 212-225. (https://doi.org/10.1016/j.applthermaleng.2017.07.110)

[6] Z.Y. Liu, H. Yu, Y.Z. Tang, C.E. Li, A method to calculate energy station's output in community energy planning considering the attenuation and delay of pipe network, Joint Conference of the World Engineers Summit / Applied Energy Symposium and Forum - Low Carbon Cities and Urban Energy (WES-CUE), Singapore, SINGAPORE, 2017, pp. 216-222.

[7] L. Li, H. Yu, R. Liu, Research on composite-phase change materials (PCMs)-bricks in the west wall of room-scale cubicle: Mid-season and summer day cases, Building and Environment, 123 (2017) 494-503. (https://doi.org/10.1016/j.buildenv.2017.07.019)

[8] Y. Jiao, H. Yu, Z. Wang, Q. Wei, Y. Yu, Influence of individual factors on thermal satisfaction of the elderly in free running environments, Building and Environment, 116 (2017) 218-227. (https://doi.org/10.1016/j.buildenv.2017.02.018)

[9] Y. Jiao, H. Yu, T. Wang, Y. An, Y. Yu, Thermal comfort and adaptation of the elderly in free-running environments in Shanghai, China, Building and Environment, 118 (2017) 259-272. (https://doi.org/10.1016/j.buildenv.2017.03.038)

[10] Y. Jiao, H. Yu, T. Wang, Y. An, Y. Yu, The relationship between thermal environments and clothing insulation for elderly individuals in Shanghai, China, Journal of Thermal Biology, 70 (2017) 28-36. (https://doi.org/10.1016/j.jtherbio.2017.07.002)

[11] Z.S. Huang, H. Yu, Z.W. Peng, Y.F. Feng, Planning community energy system in the industry 4.0 era: Achievements, challenges and a potential solution, Renewable & Sustainable Energy Reviews, 78 (2017) 710-721. (https://doi.org/10.1016/j.rser.2017.04.004)

[12] Z.S. Huang, H. Yu, X.Y. Chu, Z.W. Peng, A goal programming based model system for community energy plan, Energy, 134 (2017) 893-901. (10.1016/j.energy.2017.06.057)

[13] Z.S. Huang, H. Yu, X.Y. Chu, Z.W. Peng, Energetic and exergetic analysis of integrated energy system based on parametric method, Energy Conversion and Management, 150 (2017) 588-598. (https://doi.org/10.1016/j.enconman.2017.08.026)

[14] Z.S. Huang, G.X. He, H.G. Yan, Z.W. Peng, H. Yu, Energy price sensitivity analysis of Integrated Energy System based on a parametric equation, 9th International Conference on Applied Energy (ICAE), Cardiff, ENGLAND, 2017, pp. 2905-2910.

[15] Z. Huang, H. Yu, X. Chu, Z. Peng, Energetic and exergetic analysis of integrated energy system based on parametric method, Energy Conversion and Management, 150 (2017) 588-598. (https://doi.org/10.1016/j.enconman.2017.08.026)

[16] Z. Huang, H. Yu, X. Chu, Z. Peng, A goal programming based model system for community energy plan, Energy, 134 (2017) 893-901. (https://doi.org/10.1016/j.energy.2017.06.057)

[17] Y. He, H. Yu, A. Ozaki, N.N. Dong, S.L. Zheng, A detailed investigation of thermal behavior of green envelope under urban canopy scale in summer: A case study in Shanghai area, Energy and Buildings, 148 (2017) 142-154. (https://doi.org/10.1016/j.enbuild.2017.03.014)

[18] Y. He, H. Yu, A. Ozaki, N.N. Dong, S.L. Zheng, Influence of plant and soil layer on energy balance and thermal performance of green roof system, Energy, 141 (2017) 1285-1299. (https://doi.org/10.1016/j.energy.2017.08.064)

[19] Y. He, H. Yu, A. Ozaki, N. Dong, S. Zheng, An investigation on the thermal and energy performance of living wall system in Shanghai area, Energy and Buildings, 140 (2017) 324-335. (https://doi.org/10.1016/j.enbuild.2016.12.083)

[20] Y. He, H. Yu, A. Ozaki, N. Dong, S. Zheng, Long-term thermal performance evaluation of green roof system based on two new indexes: A case study in Shanghai area, Building and Environment, 120 (2017) 13-28. (https://doi.org/10.1016/j.buildenv.2017.04.001)

[21] Y. He, H. Yu, O. Akihito, N. Dong, Thermal performance investigation of living wall system in Shanghai area, 8th International Conference of SuDBE2017, Chongqing, 2017

2016年

[1] 宁博, 于航, 何旸, 赵美. 南方地区垂直绿化对办公建筑能耗的影响研究[J].建筑热能通风空调,2016,35(12):33-36+28.

[2] 孟凡康, 于航. 基于非接触测量的圆柱相界面对流传热系数计算方法研究[J].太阳能学报,2016,37(12):3091-3096.

[3] 李畅, 于航, 焦瑜, 石翔宇, 易志明. 温度突变环境下老年人热反应的实验研究[J].建筑热能通风空调,2016,35(02):1-4+52.

[4] 黄子硕, 于航, 彭震伟, 刘志渊, 面向社区能源规划的建筑总能系统模型, 浙江大学学报(工学版), 50(02) (2016) 292-298+311.

[5] 耿阳月, 于航, 赵美. 夏热冬冷地区室内垂直绿化的实验研究[J].建筑热能通风空调,2016,35(02):5-8.

[6] 蔡林翔, 于航, 赵美. 调湿型建筑材料对室内温湿度调节效果实验研究[J].建筑科学,2016,32(02):54-60.

[7] X. Wang, H. Yu, L. Li, M. Zhao, Experimental assessment on the use of phase change materials (PCMs)-bricks in the exterior wall of a full-scale room, Energy Conversion and Management, 120 (2016) 81-89. (https://doi.org/10.1016/j.enconman.2016.04.065)

[8] X. Wang, H. Yu, L. Li, M. Zhao, Research on temperature dependent effective thermal conductivity of composite-phase change materials (PCMs) wall based on steady-state method in a thermal chamber, Energy and Buildings, 126 (2016) 408-414. (https://doi.org/10.1016/j.enbuild.2016.05.058)

[9] X. Wang, H. Yu, L. Li, M. Zhao, Experimental assessment on a kind of composite wall incorporated with shape-stabilized phase change materials (SSPCMs), Energy and Buildings, 128 (2016) 567-574. (https://doi.org/10.1016/j.enbuild.2016.07.031)

[10] L. Li, H. Yu, X. Wang, S.L. Zheng, Thermal analysis of melting and freezing processes of phase change materials (PCMs) based on dynamic DSC test, Energy and Buildings, 130 (2016) 388-396. (https://doi.org/10.1016/j.enbuild.2016.08.058)

[11] Y. He, H. Yu, N.N. Dong, H. Ye, Thermal and energy performance assessment of extensive green roof in summer: A case study of a lightweight building in Shanghai, Energy and Buildings, 127 (2016) 762-773. (https://doi.org/10.1016/j.enbuild.2016.06.016)

2015年

[1] E.L. Meng, H. Yu, C.G. Liu, Z.G. Sun, B. Zhou, Design of Phase Change Material Wall Based on the Heat Transfer Characteristics in Summer, 9th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC) / 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, PEOPLES R CHINA, 2015, pp. 2201-2208.

[2] E.L. Meng, H. Yu, C.G. Liu, Z.G. Sun, B. Zhou, Thermal Performance of a New Type of Phase Change Material Room in Summer and Winter, 9th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC) / 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, PEOPLES R CHINA, 2015, pp. 2193-2200.

[3] Z.S. Huang, H. Yu, Z.W. Peng, M. Zhao, Methods and tools for community energy planning: A review, Renewable & Sustainable Energy Reviews, 42 (2015) 1335-1348. (https://doi.org/10.1016/j.rser.2014.11.042)

[4] Z.S. Huang, H. Yu, Z.W. Peng, Z.Y. Liu, Secondary Energy Trading Markets in Community Scale, Description and Implementation, 9th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC) / 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, PEOPLES R CHINA, 2015, pp. 82-88.

[5] Y. He, H. Yu, M. Zhao, Thermal Performance Study of Extensive Green Roof in Shanghai District: a Case Study of Lightweight Building in Winter, 9th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC) / 3rd International Conference on Building Energy and Environment (COBEE), Tianjin, PEOPLES R CHINA, 2015, pp. 1597-1604.

2014年

[1] Z.S. Huang, H. Yu, Approach for integrated optimization of community heating system at urban detailed planning stage, Energy and Buildings, 77 (2014) 103-111. (https://doi.org/10.1016/j.enbuild.2014.03.045)

2013年

[1] E.L. Meng, H. Yu, G.Y. Zhan, Y. He, Experimental and numerical study of the thermal performance of a new type of phase change material room, Energy Conversion and Management, 74 (2013) 386-394. (https://doi.org/10.1016/j.enconman.2013.06.004)