一、专著: 1、《建筑能耗基因理论与建筑节能实践》(2009.03)科学出版社(独著) 2、《冷热源工程》(2013.04)重庆大学出版社(主编) 3、《建筑环境与能源应用工程概论》(2015.08) 中国建筑工业出版社(独著) 4、《绿色建筑材料及部品》(2017.08) 中国建筑工业出版社(第一主编) 5、《暖通空调新技术》(2020.01)中国科学出版社(第二主编) 二、论文 1、Mao N, An CK, Guo LY, Wang M, Guo Le, Guo SR and Long ES*. Transmission risk of infectious droplets in physical spreading process at different times: A review Building and environment, 2020,185, https://doi.org/10.1016/j.buildenv.2020.107307. 2、Guo L, Yang Z, Zhang L, Bai TP, Xiang Y and Long ES*. Systematic review of the effects of environmental factors on virus inactivation: implications for coronavirus disease 2019. International journal of environmental science and technology, 2021: 2865–2878, https://doi.org/10.1007/s13762-021-03495-9. 3、Guo LY, Wang M, Li Z, Mao N, An CK, Xu LT and Long ES*. Transmission risk of viruses in large mucosalivary droplets on the surface of objects: A time-based analysis. Infectious diseases now, 2021(No.3): 219-227, https://doi.org/10.1016/j.idnow.2020.11.001. 4、Wei JC, Guo SR, Long ES*, Zhang L, Shu BZ and Guo L. Why does the spread of COVID-19 vary greatly in different countries? Revealing the efficacy of face masks in epidemic prevention. Epidemiology and infection, 2021: 1-17, https://doi.org/10.1017/S0950268821000108. 5、Xiang Y, Jia YH, Chen LL, Guo L, Shu BZ and Long ES*. COVID-19 epidemic prediction and the impact of public health interventions: A review of COVID-19 epidemic models. Infectious Disease Modelling, 2021: 324-342, https://doi.org/10.1016/j.idm.2021.01.001. 6、Guo LY, Yang Z, Guo L, Cheng Z and Long ES*. Study on the decay characteristics and transmission risk of respiratory viruses on the surface of objects. Environmental Research, 2021: 110716, https://doi.org/10.1016/j.envres.2021.110716. 7、Li J, Cheng Z, Zhang Y, Mao N, Guo SR, Wang QQ, Zhao L and Long ES*. Evaluation of Infection Risk for SARS-CoV-2 Transmission on University Campuses. Science and Technology for the Built Environment, https://doi.org/10.1080/23744731.2021.1948762. 8、Jia YH, Xiang Y, Guo SR, Guo L, Guo LY, Cheng Z, Zhang Y, Zhang L and Long ES*. Analysis on the risk of respiratory virus transmission by air conditioning system operation based on experimental evidence. Environmental science and pollution research international, 2021: 1-16, https://doi.org/10.1007/s11356-021-14495-0. 9、Chen LL, Ban GZ, Long ES*, et al. Estimation of the SARS-CoV-2 transmission probability in confined traffic space and evaluation of the mitigation strategies. Environmental science and pollution research international, 2021: 1-13, https://doi.org/10.1007/s11356-021-13617-y. 10、Yang Z, Wang QQ, Zhao L and Long ES*. Decay characteristics of aerosolized viruses in the air and control strategy of thermal and humid environment for epidemic prevention. Indoor and Built Environment 2021: 1287-1305, https://doi.org/10.1177/1420326X211052. 11、Mao N, Zhang DK, Li YP, Li Y, Li J, Zhao L, Wang QJ, Cheng Z, Zhang Y and Long ES*. How do temperature, humidity, and air saturation state affect the COVID-19 transmission risk? Environmental Science and Pollution Research, 2023: 3644-3658, https://doi.org/10.1007/s11356-022-21766-x. 12、Li Y, Mao N, Guo L, Guo LY, Chen LL, Zhao L and Long ES*. Review of animal transmission experiments of respiratory viruses: Implications for transmission risk of SARS-COV-2 in humans via different routes. Risk Analysis, 2023: 1-18, https://doi.org/10.1111/risa.14129. 13、Liao, Yuxuan; Guo, Shurui; Mao, Ning; Li, Ying; Li, Jin and Long, Enshen*. Animal experiments on respiratory viruses and analogous studies of infection factors for interpersonal transmission. Environmental Science and Pollution Research, 2023: 66209- 66227, 10.1007/s11356-023-26738-3. 14、 Li, Yanru; Long, Enshen*; Ding, Pei; Guo, Shurui; Characteristics optimization of composite phase-change wall during intermittent heating process, Science and Technology for the Built Environment, 2020, 26:541-551. 15、Yanru Li; Enshen Long*; Zhenghao Jin,; Jin Li,; Xi Meng,; Jing Zhou,; Luting Xu; Dongtian Xiao; Heat storage and release characteristics of composite phase change wall under different intermittent heating conditions, Science and Technology for the Built Environment, 2019, 38(3):607-615. 16、Li, Yanru; Wang, Mengwei; Zhang, Yin; Long, Enshen*; The dynamic thermal process of indoor environment and building envelope during intermittent heating, INDOOR AND BUILT ENVIRONMENT, 2019, 3(28):422-433. 17、Ruihua Ma; Dongyan Ma; Enshen Long*; Experimental study on the dynamic thermal performance of V-Ti black ceramic solar collector under multiple factors, Solar Energy, 2020, 201:615-620. 18、Kuo Xu; Enshen Long*; Jin Li; Luting Xu; Field measurement and influence mechanism analysis of the albedo for a typical urban concrete surface, Indoor and Built Environment, 2018, 28(6):837-847. 19、Chen, Linlin; Ban, Guangze; Long, Enshen*; Kalonji, Gretchen; Cheng, Zhu; Zhang, Li; Guo, Shurui; Estimation of the SARS-CoV-2 transmission probability in confined traffic space and evaluation of the mitigation strategies, Environmental Science and Pollution Research, 2021, 28(31):42204-42216. SCIE. 20、Li, Jin; Zhang, Yin; Ding, Pei; Long, Enshen*; Experimental and simulated optimization study on dynamic heat discharge performance of multi-units water tank with PCM, Indoor and Built Environment, 2021, 30(9):1531-1545. SCIE. 21、Guo, Shurui; Yang, Hanyu; Li, Yanru; Zhang, Yin; Long, Enshen*; Energy saving effect and mechanism of cooling setting temperature increased by 1 degrees C for residential buildings in different cities, Energy and Buildings, 2019, 202:0-109335. SCIE. 22、Li, Haoran; Long, Enshen*; Zhang, Yin; Yang, Hanyu; Operation strategy of cross-season solar heat storage heating system in an alpine high-altitude area, Indoor and Built Environment, 2020, 29(9):1249-1259. SCIE. 23、Ding, Pei; Li, Yanru; Long, Enshen*; Zhang, Yin; Liu, Qinjian; Study on heating capacity and heat loss of capillary radiant floor heating systems, Applied Thermal Engineering, 2020, 165:0-114618. SCIE. 24、Luting, Xu; Enshen, Long*; Jincheng, Wei; Study on the limiting height of rooftop solar energy equipment in street canyons under the cityscape constraints, Solar Energy, 2020, 206:1-7. 25、Xu, LT (Xu, Luting); Long, ES (Long, Enshen*); Wei, JC (Wei, Jincheng); Cheng, Z (Cheng, Zhu); Zheng, HJ (Zheng, Hanjie; A new approach to determine the optimum tilt angle and orientation of solar collectors in mountainous areas with high altitude, ENERGY, 2021, 237. 26、Qian, Siru; Guo, Shurui; Zhao, Yan; Cheng, Zhu; Long, Enshen*; Mechanism and influence of different colors of opaque outdoor surfaces on cooling demand of malls, JOURNAL OF ASIAN ARCHITECTURE AND BUILDING ENGINEERING, 2021, 12(4):1-12. SCIE. 27、Xiang, Yue; Jia, Yonghong; Chen, Linlin; Guo, Lei; Shu, Bizhen; Long, Enshen*; COVID-19 epidemic prediction and the impact of public health interventions: A review of COVID-19 epidemic models, INFECTIOUS DISEASE MODELLING, 2021, 6(0):324-342. 28、Guo, Luyao; Wang, Min; Zhang, Li; Mao, Ning; An, Congkang; Xu, Luting; Long, Enshen*; Transmission risk of viruses in large mucosalivary droplets on the surface of objects: A time-based analysis, INFECTIOUS DISEASES NOW, 2021, 51(3):219-227. 29、Guo, L; Yang, Z; Zhang, L; Wang, S; Bai, T; Xiang, Y; Long, E*; Systematic review of the effects of environmental factors on virus inactivation: implications for coronavirus disease 2019, INTERNATIONAL JOURNAL OF ENVIRONMENTAL SCIENCE AND TECHNOLOGY, 2021, 18(9):2865-2878. 30、高飞; 龙恩深*; 肖栋天; 李皓月; 海拔高度与门窗气密性对建筑供暖设计热负荷影响及机理研究, 制冷与空调(四川), 2020, 34(01):1-5. 31、刘鑫; 龙恩深*; 丁珮; 李皓月; 杨涵宇; 非透明围护结构传热系数的修正系数研究, 四川建筑科学研究, 2019, 45(06):78-84. 32、龙恩深*; 毛宁; 梁伟杰; 丁珮; 邹航; 明阳; 考虑织物浸湿热阻变化的预测热应激模型修正与对比分析, 安全与环境学报, 2019, 19(05):1576-1580. 33、李皓月; 龙恩深*; 张堙; 杨涵宇; 任意邻室入住时房间供暖能耗预测与实验验证, 四川建筑科学研究, 2019, 45(05):100-105. 34、李皓月; 龙恩深*; 肖雪飞; 不同气候条件下平板太阳能集热器动态热性能的解析, 太阳能, 2019, (04):63-69. 35、杨涵宇; 金正浩; 龙恩深*; 川西高寒城镇太阳能集热器最佳安装倾角的精准预测研究, 四川建筑科学研究, 2019, 45(02):100-103. 36、肖雪飞; 龙恩深*; 李皓月; 金正浩; 设施遮阳与绿化遮阳的节能效果对比研究, 四川建筑科学研究, 2018, 44(02):115-119. 37、Xi Meng, Biao Yan, Yanna Gao, Jun Wang, Wei Zhang, Enshen Long*, Factors affecting the in situ measurement accuracy of the wall heat transfer coefficient using the heat flow meter method, Energy and Buildings 2015; 86(1):754-756 (SCI收录)通讯作者 38、Biao Yan, Enshen Long*, Xi Meng, Influence of user behavior on unsatisfactory indoor thermal environment ,Energy Conversion and Management 2014;86(10):1-7 (SCI收录) 通讯作者 39、Lili Zhang, Enshen Long*, Jun Wang ,Field Research on the Rural House Thermal Environment in Southwest Region of Shandong Province ,Lecture Notes in Electrical Engineering, 2014;261:149-156 (EI收录) 通讯作者 40、Yan Wang, Xi Meng, Yulan Liu, Enshen Long* ,Angle Factor Calculation for the Thermal Radiation Environment of the Human Body ,Lecture Notes in Electrical Engineering 2014;261:447-455 (EI收录) 通讯作者 41、徐龙,王海,高艳娜,王军,龙恩深*,复合相变材料对轻质围护结构建筑室内热环境调节性能研究,建筑科学,2013年第12期,通讯作者 42、Long Enshen, Wang Liang, Are the relative variation rates (RVRs) approximate in different cities for the same building with the same outer-window reform?, Building and Environment 2005;40 (4): 545-556 (SCI收录) 43、 Long Enshen, Are the energy efficient rates (RVRs) approximate under different climatic locations for the building with the same reform?, Building and Environment 2005;40 (4): 557-562 (SCI收录) 44、Long Enshen, General descriptions of research method, buildings, analysis object, assumptions and weather conditions of background cities, Building and Environment 2005;40 (4): 443-450 (SCI收录) 45、Long Enshen, Wang Yong, Are the relative variation rates (RVRs) approximate in different cities when the same energy efficiency reform is taken to the same building? Building and Environment 2005;40 (4): 453-464 (SCI收录) 46、 Long Enshen, Wang Yong and Ma Xiaofei, Identifications: the RVRs are approximate in different cities with the same energy efficient measures, Building and Environment 2005;40 (4): 465-471 (SCI收录) 47、Long Enshen, Are the relative variation rates (RVRs) approximate in different cities with the same increase of shape coefficient? Building and Environment 2005;40 (4): 473-480 (SCI收录) 48、Long Enshen, Identifications: the relative variation rates (RVRs) of cooling and heating are approximate in different cities with the same increase of shape coefficients, Building and Environment 2005;40 (4): 481-488(SCI收录) 49、Long Enshen, Lin Zhenguo, Are the relative variation rates (RVRs) of energy consumption approximate in different cities for the same increase of ventilation rate? Building and Environment 2005;40 (4): 489-496 (SCI收录) 50、Long Enshen, Xiao Yimin, Identifications: the relative increase rates of cooling or heating energy consumption are approximate in different cities with the same increase of ventilation rate, Building and Environment 2005;40 (4): 497-505 (SCI收录) 51、Long Enshen, Chen Jinhua, Are the annual relative variation rates of energy consumption approximate in different cities with the same shading coefficient?, Building and Environment 2005;40 (4): 507-515 (SCI收录) 52、Long Enshen, Zhou Jie, Classified identifications: the annual relative variation rates (RVRs) of energy consumption are approximate in different cities with the same shading coefficient, Building and Environment 2005;40 (4): 517-528 (SCI收录) 53、Long Enshen, Zang Zixuan, Hourly classified identifications: the annual relative variation rates (RVRs) are approximate in different cities for the same building under the same shading coefficient, Building and Environment 2005;40 (4): 529-536 (SCI收录) 54、Long Enshen, Zang Zixuan, MA Xiaofei, Are the energy conservation rates (RVRs) approximate in different cities for the same building with the same outer-wall thermal insulation measures?, Building and Environment 2005;40 (4): 537-544 (SCI收录) 55、龙恩深,窗墙比对居住建筑的冷热耗量指标及节能率的影响,暖通空调,2007年第02期 56、龙恩深,任意小区或建筑供暖期煤耗的预测公式及其应用,暖通空调,2006年第10期 |
