CN
EN
朱颖心
电话:010-62782746
传真:010-62773461
E-mail:zhuyx@mail.tsinghua.edu.cn

联系地址:中国北京海淀区 澳门新葡萄新京8883建筑技术科学系(澳门新葡萄新京8883二校门东北侧 旧土木工程馆219室)

邮政编码:100084

 

【研究方向】

可持续建筑与建筑节能研究

人体热舒适理论研究

 

【教育简历】

19799-19848     澳门新葡萄新京8883热能工程系 暖通空调专业本科生,获工学学士学位

19848-19898     澳门新葡萄新京8883热能工程系 暖通空调专业研究生,获工学博士学位

 

【专业履历】

19899-199312  澳门新葡萄新京8883热能工程系讲师

19927-199310  日本名古屋大学工学部建筑学科、日本学术振兴会外国人特别研究员

199312-19988  澳门新葡萄新京8883热能工程系副教授

19988-20009     澳门新葡萄新京8883热能工程系教授

199711-20009   澳门新葡萄新京8883热能工程系党委书记

20009-至今               澳门新葡萄新京8883教授

20027-200212   日本名古屋大学理工综合研究中心客座教授

200512-20089   澳门新葡萄新京8883 澳门新葡萄新京8883 建筑环境与设备研究所 所长

20089-20206     澳门新葡萄新京8883 副院长

20089-20186     澳门新葡萄新京8883 建筑技术科学系 系主任

20053-至今                澳门新葡萄新京8883建筑节能教育部工程研究中心 副主任

20093-至今                城乡生态规划与绿色建筑教育部重点实验室 副主任

 

【社会兼职】

20037月-                            北京土木建筑学会暖通空调专业委员会副主任委员

20101月-                            中国建筑学会暖通空调分会理事

2013年-                                  中国建筑学会绿色建筑专业委员会绿色小城镇学组组长

2015年-                                  中国建筑学会暖通空调分会空调专业委员会副主任委员

20019月-200612        住建部高等教育建筑环境与设备工程专业评估委员会委员

20071月-201912        住建部高等教育建筑环境与能源应用工程专业评估委员会副主任委员

19988月-200512        全国高等学校建筑环境与设备工程专业学科指导委员会委员

200512—201812      全国高等学校土建类教学指导委员会副主任委员

20061—201812        全国高等学校建筑环境与能源应用工程学科专业指导委员会主任委员

201812                          教育部高等学校土木类教学指导委员会副主任委员

201812—                          教育部高等学校土木类教学指导委员会建筑环境与能源应用工程分委员会主任委员

2008                                  住建部绿色建筑评价标识专家委员会委员

2013                                  中国建筑学会绿色建筑专业委员会绿色小城镇学组组长

20199—20249          住建部科学技术委员会建筑节能与绿色建筑专业委员会委员

20093                            《暖通空调》编委

2020                                  《建筑节能》编委会副主任委员

2014—20181                     Indoor Air编委

20181                            Indoor Air 副主编

2011                                   Building and Environment 编委

2009-2014                              Energy and Buildings 编委

2001-2013                              Journal of Asia Architecture and Building Engineering 编委

20079                            Building Simulation: An International Journal编委

20081-2015.12                  Journal of Building Performance Simulation 编委

20077—201512        国际建筑性能模拟学会理事会中国代表/Board member of International Building Performance Simulation Association (IBPSA)

2013—                                       国际建筑性能模拟学会会士 IBPSA Fellow

2010—                                       国际室内空气学会科学院会士/ Fellow of ISIAQ Academy

2014—                                       国际室内空气学会热舒适委员会主席 Chair of STC 33 (Thermal comfort) of ISIAQ

 

【课程教学】

主讲/合讲课程

1.    建筑环境学                  本科生专业基础课,3学分,48学时,建筑环境与设备工程专业

          国家级精品课(2004年)

2.    暖通空调与冷热源       本科生必修专业课,5学分,80学时,建筑环境与设备工程专业,

           国家级线上线下混合式一流课程(2020年)

3.    绿色建筑与可持续发展社会   本科生公共选修课,1学分,16学时,面向所有专业

参讲课程

1.         暖通空调课程设计       本科生必修专业课,11学分,192学时,建筑环境与设备工程专业

慕课(学堂在线)

2.         暖通空调                               2学分,国家级线上一流课程(2018年)

3.         建筑环境学                           2学分

4.         绿色建筑与可持续发展       1学分

 

主要研究课题

[1]      国家自然科学基金面上项目52178079"热环境对睡眠热舒适影响的关键问题研究"2022.1-2025.12,负责人。

[2]      国家自然科学基金面上项目51678330"建筑环境适应性热舒适的机理研究"2017.1-2020.12,负责人。

[3]      国家重点研发计划课题2018YFC0705003"地下交通建筑节能关键技术与设备开发"2018.7~2021.6,负责人

[4]      国际能源署-建筑与社区节能国际合作项目:IEA-EBC Annex 69: Strategy and Practice of Adaptive Thermal Comfort in Low Energy Buildings(适应性热舒适在低能耗建筑中的应用策略与实践),2015.1- 2021.12,负责人

[5]      国家十二五科技支撑计划课题 2014BAJ04B03大型航站楼绿色建筑关键技术研究与示范2014.1-2017.12,负责人

[6]      973项目子课题 2012CB720104-2,座舱热舒适设计参数优化,2012.1-2016.9,负责人

[7]      国家自然科学基金重点项目 50838003,动态热环境与人体热舒适的基础研究,2009.1-2012.12,负责人

[8]      国家十一五科技支撑计划课题 2006BAJ01A01建筑节能设计方法与模拟分析软件开发2006.9-2010.12,负责人

[9]      中国工程院中国工程科技中长期发展战略研究项目土建工程科技领域课题:低碳可持续发展约束下的城镇化建设问题,2009.9-2010.10,执笔人

[10]   国家十一五科技支撑计划子课题2006BAJ02A0601建筑室内单区域环境评估体系研究2006.9-2010.12,负责人

[11]   国家自然科学基金面上项目 50478008建筑环境气流紊动特性的形成与迁移规律研究2005.1-2007.12,负责人

[12]   国家自然科学基金面上项目 50278044人体动态热舒适机理与评价研究2003.1-2005.12,负责人

[13]   国家十五科技攻关项目课题,绿色建筑的规划设计导则和评估体系研究2004.1-2005.12,子课题负责人

[14]   科技部奥运科技十大专项课题:绿色奥运建筑评估体系,2002.8-2004.8,主要研究者

[15]   国家自然科学基金重点项目 E59836250住区微气候的热物理问题1999.1-2003.12,子课题负责人

[16]   科技部科技计划项目地铁灾害虚拟现实(VR)及北京地铁控制中心(OCC)防灾决策系统2005.1-2006.12,清华方负责人

[17]   国家教委资助优秀青年教师基金课题:地铁热环境与防灾控制模拟软件开发与验证,1995.1-1997.12,负责人

 

国家、地方与行业标准

[1]      绿色小城镇评价标准 CSUS/GBC 06-2015,参编

[2]      绿色办公建筑评价标准 GB/T 50908-2013,参编单位负责人

[3]      北京市工程建设标准:绿色建筑评估标准 DBJ/T01-101-2005,参编

[4]      国家环境保护总局环境标志产品技术要求:生态住宅(住区),HJ/T 351-2007,参编

 

【科研获奖】

[1]      林波荣、徐宏庆、李晓锋、朱颖心、曹彬、邵双全、肖伟、李紫微、王者、代宏峰,绿色公共建筑环境与节能设计关键技术研究与应用,2019年国家科技进步奖二等奖

[2]      李强、朱颖心、郭雁池、肖斌、吴志晖、张雯、潘建、魏庆芃、王建萍、李雄、徐涛、余娟、陈阳、王亦知、孙施曼:绿色机场规划设计、建造及评价关键技术研究,2018年度中国航空运输协会民航科学技术奖一等奖(2020319日公告)

[3]      林波荣、徐宏庆、李晓锋、朱颖心、刘加根 等,绿色公共建筑环境与节能设计关键技术研究与应用,北京市科学技术奖一等奖,201812

[4]      郑健、赵奕、刘燕、李晓锋、邵长虹、朱颖心、姚涵、郑云杰 等,绿色铁路客站标准及评价体系研究,2012年度中国铁道学会科学技术一等奖,20143

[5]      林波荣、田军、郑建伟、王若愚、朱颖心、何文捷、刘加根、黄飞跃、刘雪峰、刘晓华 等,华侨城体育中心扩建工程,全国绿色建筑创新一等奖,2011

[6]      李国庆、王奕然、朱颖心、顾庆宜、张春生、褚敬止 等,新型城市轨道交通通风空调多功能集成系统研究,北京市科学技术三等奖,200912

[7]      袁镔、朱颖心、林波荣、陆颖洁 等,山东交通学院图书馆,全国绿色建筑创新综合一等奖,20073

[8]      秦佑国、朱颖心、滕树龙、江亿、林波荣、欧阳沁 等:绿色奥运建筑评估体系,2005年北京市科学技术一等奖(20062月)

[9]      郎红阳、石旭东、朱颖心、李晓锋 等:故宫午门博物馆,2005年联合国教科文组织亚太文化遗产保护奖,2005年全国十大建设科技成就,200510

[10]   朱颖心、江亿、杨旭东、李先庭、李晓锋、秦绪忠、左会刚:地下铁道热环境研究,教育部科技进步成果二等奖,20001

 

【个人荣誉】

[1]      2020 吴元炜暖通空调奖,中国建筑学会暖通空调分会

[2]      2018年度 澳门新葡萄新京8883教学优秀奖

[3]      2018 井上宇市亚洲国际奖,日本“空气调和×卫生工学”学会

[4]      2013 澳门新葡萄新京8883“教书育人”奖

[5]      2012 澳门新葡萄新京8883优秀博士学位论文指导教师

[6]      2008年度 北京市高等学校教学名师,2008624日,北京市教委

[7]      2007年度 宝钢教育基金会优秀教师奖

[8]      2003 澳门新葡萄新京8883“教书育人”奖

[9]      2003 澳门新葡萄新京8883“良师益友”奖

[10]   1997年度 北京市优秀教师

 

【教学获奖】

[1]      朱颖心、石文星,《暖通空调与冷热源》,国家级线上线下混合式一流课程(2020年)

[2]      朱颖心,《暖通空调》,国家精品在线开放课程(2018年),国家级线上一流课程(2020年)

[3]      朱颖心、石文星,《对工科专业课程教学方法的思考》,2013年澳门新葡萄新京8883高等教育学会优秀论文一等奖

[4]      朱颖心《建筑环境学(第三版)》,2012年澳门新葡萄新京8883优秀教材评选一等奖,20126

[5]      朱颖心为首的澳门新葡萄新京8883建筑环境与设备专业教学团队:国家级教学团队,2010年,教育部

[6]      朱颖心为首的澳门新葡萄新京8883建筑环境与设备专业教学团队:北京市优秀教学团队,2010年,北京市教委

[7]      朱颖心、石文星,《空调与制冷技术》,澳门新葡萄新京8883校级精品课程,2009

[8]      朱颖心,2008年度北京市高等学校教学名师,20086月,北京市教委

[9]      朱颖心、江亿、石文星、李晓锋、魏庆芃,建筑环境与设备工程本科专业实践教学改革,2008年北京市教育教学成果(高等教育)一等奖,北京市人民政府

[10]   朱颖心,2007年度宝钢教育基金会优秀教师奖

[11]   江亿、朱颖心、石文星、李晓锋、魏庆芃,建筑环境与设备工程专业实践教学环节改革,2006年澳门新葡萄新京8883教学成果特等奖,20068

[12]   朱颖心,《建筑环境学》,全国高等学校精品课程(2004年)

[13]   肖勇全、张志刚、朱颖心、许传海、付祥钊,建筑环境与设备工程专业平台课程体系构建与教学实践,2005年山东省高等教育教学成果一等奖

 

【主要论文与论著】

专著

[1]      朱颖心、魏庆芃、林波荣、余娟、赵康、张德银、黄彦祥 等,航站楼高大空间节能设计和运行应用指南,中国建筑工业出版社,20209

[2]      朱颖心、张寅平、李先庭、秦佑国、詹庆旋、林波荣,《建筑环境学 (第四版)》(国家“十二五”规划教材),中国建筑工业出版社,20168

[3]      朱颖心、张寅平、李先庭、秦佑国、詹庆旋,《建筑环境学 (第三版)国家“十一五”规划教材,中国建筑工业出版社,20107

[4]      江亿、林波荣、曾剑龙、朱颖心,《住宅节能》,中国建筑工业出版社,20063

[5]      朱颖心、张寅平、李先庭、秦佑国、詹庆旋,《建筑环境学 (第二版)》(国家“十五”规划教材),中国建筑工业出版社,20057

[6]      绿色奥运建筑评估体系课题组 著,《绿色奥运建筑评估体系》,中国建筑工业出版社,20038月,ISBN 7-112-05970-4(参著)

[7]      金招芬、朱颖心、亢燕铭、刁乃仁,《建筑环境学》,中国建筑工业出版社,2001

[8]      王继铭、卜诚、屠峥嵘、朱颖心,《建筑设备》,中国建筑工业出版社,1997

 

外文期刊

[1]     Jia Xinyu, Cao Bin, Zhu Yingxin. A Climate Chamber Study on Subjective and Physiological Responses of Airport Passengers from Walking to a Sedentary Status in Summer. Building and Environment, 207(2022) 108547.

[2]     Huang Yenhsiang, Jia Xinyu, Zhu Yingxin, Zhang Deyin, Lin Borong. Research on indoor spaces and passenger satisfaction with terminal buildings in China, Journal of Building Engineering, 43(2021) 102873

[3]     Wang Zihan, Cao Bin, Zhu Yingxin. Questionnaire survey and field investigation on sleep thermal comfort and behavioral adjustments in bedrooms of Chinese residents. Energy and Buildings, 2021, 253: 111462.

[4]     Jia Xinyu, Huang Yenhsiang, Cao Bin, Yingxin Zhu, Wang Chunqing. Field Investigation on Thermal Comfort of Passengers in an Airport Terminal in the Severe Cold Zone of China. Building and Environment, 2021, 189: 107514.

[5]     Xinyu Jia, Bin Cao, Yingxin Zhu, Yenhsiang Huang. Field Studies on Thermal Comfort of Passengers in Airport Terminals and High-Speed Railway Stations in Summer. Building and Environment, 2021, 206: 108319

[6]     Hecheng Yang, Yue Deng, Bin Cao, Yingxin Zhu, Study on the local and overall thermal perceptions under non-uniform thermal exposure using a cooling chair. Building and Environment. 176 (2020) 106864

[7]     Xinyu Jia, Bin Cao, Yingxin Zhu, Bing Liu. Thermal comfort in mixed-mode buildings: A field study in Tianjin, China. Building and Environment, 185(2020) 107244

[8]     Huan Wang, Hong Zhang, Xiaowei Hu, Maohui Luo, Guijin Wang, Xianting Li, Yingxin Zhu. Measurement of airflow pattern induced by ceiling fan with quad-view color sequence particle streak velocimetry. Building and Environment, 152 (2019), 122-134. 2019 Best Paper

[9]     Nan Zhang, Bin Cao, Yingxin Zhu. Effects of pre-sleep thermal environment on human thermal state and sleep quality. Building and Environment, 148 (2019), 600-608.

[10]   Maohui Luo, Zhihao Ke, Wenjie Ji, Zhe Wang, Bin Cao, Xiang Zhou, Yingxin Zhu. The time-scale of thermal comfort adaptation in heated and unheated buildings. Building and Environment, 151 (2019), 175-186.

[11]   Yang Geng, Borong Lin, Juan Yu, Hao Zhou, Wenjie Ji, Hongzhong Chen, Zhongchen Zhang, Yingxin Zhu. Indoor environmental quality of green office buildings in China: Large-scale and long-term measurement. Energy and Buildings, 150 (2019), 266-280.

[12]   Wenjie Ji, Bin Cao, Yang Geng, Yingxin Zhu, Borong Lin. A study on the influences of immediate thermal history on current thermal sensation, Energy & Buildings 198 (2019) 364-376

[13]   Hecheng Yang, Bin Cao, Yi Ju, Yingxin Zhu. The effects of local cooling at different torso parts in improving body thermal comfort in hot indoor environments. Energy and Buildings, 198 (2019), 528-541.

[14]   Yang Geng, Wenjie Ji, Zhe Wang, Borong Lin, Yingxin Zhu. A review of operating performance in green buildings: Energy use, indoor environmental quality and occupant satisfaction" by John H. Scofield. Energy and Buildings, 183 (2019),500-514.

[15]   Tongling Wu, Bin Cao, Yingxin Zhu. A field study on thermal comfort and air-conditioning energy use in an office building in Guangzhou. Energy and Buildings. 168 (2018) 428-437.

[16]   Wenjie Ji, Maohui Luo, Bin Cao, Yingxin Zhu, Yang Geng, Borong Lin. A new method to study human metabolic rate changes and thermal comfort in physical exercise by CO2 measurement in an airtight chamber. Energy and Buildings. 177(2018) 402-412.

[17]   Hecheng Yang, Bin Cao, Yingxin Zhu. Study on the effects of chair heating in cold indoor environments from the perspective of local thermal sensation. Energy and Buildings. 180(2018)16-28.

[18]   Nan Zhang, Bin Cao, Yingxin Zhu. Indoor environment and sleep quality: A research based on online survey and field study. Building and Environment, 137(2018)198-207.

[19]   V. F, Licina, …… Bin Cao, Yingxin Zhu, et al. Development of the ASHRAE Global Thermal Comfort Database II, Building and Environment, 142 (2018) 502-512

[20]   Maohui Luo, Zhe Wang, Gail Brager, Bin Cao, Yingxin Zhu. Indoor climate experience, migration, and thermal comfort expectation in buildings. Building and Environment, 141 (2018) 262-272.

[21]   Yang Geng, Wenjie Ji, Borong Lin, Jiajie Hong, Yingxin Zhu. Building energy performance diagnosis using energy bills and weather data, Energy and Buildings, 172(2018) 181-191

[22]   Ziwei Li, Hongzhong Chen, Borong Lin, Yingxin Zhu. Fast Bidirectional Building Performance Optimization at the Early Design Stage. Building Simulation, 2018(2) 1-15

[23]   Yanchen Liu, Zhe Wang, Borong Lin, Jiajie Hong, Yingxin Zhu. Occupant satisfaction in Three-Star-certified office buildings based on comparative study using LEED and BREEAM, Building and Environment 132(2018) 1-10

[24]   Maohui Luo, Zhe Wang, Kevin Ke, Bin Cao, Yongchao Zhai, Xiang Zhou. Human metabolic rate and thermal comfort in buildings: The problem and challenge. Building and Environment, 131 (2018) 44-52.

[25]   Zhe Wang, Maohui Luo, Yang Geng, Borong Lin, Yingxin Zhu. A Model to Compare Convective and Radiant Heating Terminals for Intermittent Space Heating. Applied Energy, 215 (2018) 211-226.

[26]   Zhe Wang, Richard de Dear, Maohui Luo, Borong Lin, Yingdong He, Ali Ghahramani, Yingxin Zhu. Individual difference in thermal comfort: A literature review. Building and Environment, 138(2018) 181-193.

[27]   Maohui Luo, Juan Yu, Qin Ouyang, Bin Cao, Yingxin Zhu. Application of dynamic airflows in buildings and its effects on perceived thermal comfort. Indoor and Built Environment, 2018, 27(9) 1162-1174

[28]   Bin Cao, Maohui Luo, Min Li, Yingxin Zhu. Thermal comfort in semi-outdoor spaces within an office building in Shenzhen: A case study in a hot climate region of China. Indoor and Built Environment, 2018, 27(10) 1431-1444

[29]   Maohui Luo, Bin Cao, Qin Ouyang, Yingxin Zhu. Indoor human thermal adaptation: the dynamic process and weighting factor, Indoor Air, 2017, 27: 273-281

[30]   Weilin Cui, Haiying Wang, Tongling Wu, Qin Ouyang, Songtao Hu, Yingxin Zhu: The influence of a low air pressure environment on human metabolic rate during short-term (<2 h) exposures. Indoor Air. 2017, 27: 282-290

[31]   Weilin Cui, Tongling Wu, Qin Ouyang, Yingxin Zhu: Passenger thermal comfort and behavior: a field investigation in commercial aircraft cabins. Indoor Air. 2017, 27: 94-103

[32]   Yang Geng, Wenjie Ji, Borong. Lin, Yingxin Zhu. The impact of thermal environment on occupant IEQ perception and productivity. Building and Environment, 121 (2017) 158-167

[33]   Nan Zhang, Bin Cao, Zhaojun Wang, Yingxin Zhu, Borong Lin. A comparison of winter indoor thermal environment and thermal comfort between regions in Europe, North America, and Asia. Building and Environment, 117(2017) 208-217

[34]   Wenjie Ji, Bin Cao, Maohui Luo, Yingxin Zhu. Influence of short-term thermal experience on thermal comfort evaluations: A climate chamber experiment. Building and Environment. 114 (2017) 246-256

[35]   Wenjie Ji, Bin Cao, Yang Geng, Yingxin Zhu, Borong Lin. Study on human skin temperature and thermal evaluation in step change conditions: From non-neutrality to neutrality. Energy and Buildings. 156 (2017) 29-39

[36]   M.L. Zhu, Q. Ouyang, H.G. Shen, Y.X. Zhu. Field study on the objective evaluation of sleep quality and sleeping thermal environment in summer. Energy and Buildings 133 (2016) 843-852

[37]   Tongling Wu, Bin Cao, Weilin Cui, Yingxin Zhu, Qin Ouyang. Measurements of the additional thermal insulation of aircraft seat with clothing ensembles of different seasons. Building and Environment, 108(2016) 23-29

[38]   Bin Cao, Maohui Luo, Min Li, Yingxin Zhu. Too cold or too warm? A winter thermal comfort study in different climate zones in China. Energy and Building, 133(2016) 469-477

[39]   Borong Lin, Zhe Wang, Hongli Sun, Yingxin Zhu, Qin Ouyang. Evaluation and comparison of thermal comfort of convective and radiant heating terminals in office buildings. Building and Environment, 106(2016) 91-1024

[40]   Borong Lin, Zhe Wang, Yanchen Liu, Yingxin Zhu, Qin Ouyang. Investigation of Winter Indoor Thermal Environment and Heating Demand of Urban Residential Buildings in China's Hot-Summer-Cold-Winter Climate Region, Building and Environment, 101(2016) 9-18

[41]   Maohui Luo, Xiang Zhou, Yingxin Zhu, Dongqian Zhang: Exploring the dynamic process of thermal adaptation, a comparative study in teaching buildings, Energy and Buildings, 127(2016) 425-432

[42]   Maohui Luo, Xiang Zhou, Yingxin Zhu, Jan Sundell. Revisiting an overlooked thermal comfort parameter, the metabolic rate, Energy and Buildings, 118 (2016) 152-159

[43]   Maohui Luo, Wenjie Ji, Bin Cao, Qin Ouyang, Yingxin Zhu: Indoor climate and thermal physiological adaptation: Evidences from migrants with different cold indoor exposures, Building and Environment, 98 (2016) 30-38

[44]   Maohui Luo, Bin Cao, Wenjie Ji, Qin Ouyang, Borong Lin, Yingxin Zhu. The underlying linkage between personal control and thermal comfort: psychological or physical effects? Energy and Building, 111(2016) 56-63

[45]   Maohui Luo, Richard de Dear, Wenjie Ji, Cao Bin, Borong Lin, Qin Ouyang, Yingxin Zhu. The dynamics of thermal comfort expectations: The problem, challenge and implication. Building and Environment. 95(2016) 322-329

[46]   Yingxin ZHU, Qin OUYANG, Bin CAO, Xiang ZHOU, Juan YU, Dynamic Thermal Environment and Thermal Comfort (Keynote: Indoor Air 2014), Indoor Air, 2016(26) 125-137

[47]   Yenhsiang Huang, Lin Borong, Nie Yao, and Zhu Yingxin. Functional Relationship Between Lighting Energy Consumption And The Main Parameters For Double Atrium Offices, Procedia Engineering 121(2015) 1869–1879

[48]   Zhe Wang, Borong Lin, Yingxin Zhu: Modeling and measurement study on an intermittent heating system of a residence in Cambridgeshire, Building and Environment, 92 (2015) 380-386

[49]   Zhe Wang, Richard de Dear, Borong Lin, Yingxin Zhu, and Qin Ouyang: Rational Selection of Heating Temperature Set Points for China’s Hot Summer - Cold Winter Climatic Region, Building and Environment, 93(2015) 63-70

[50]   Zhe Wang, Haitian Zhao, Borong Lin, Yingxin Zhu, Juan Yu. Investigation of indoor environment quality of Chinese large-hub airport terminal buildings through longitudinal field measurement and subjective survey, Building and Environment 94(2015) 593-605

[51]   Zhe Wang, Zhen Zhao, Borong Lin, Yingxin Zhu, Qin Ouyang. Residential Heating Energy Consumption Modeling through a Bottom-up Approach for China's Hot Summer - Cold Winter Climatic Region, Energy and Buildings, 109(2015) 65-74

[52]   Yingxin Zhu, Maohui Luo, Qin Ouyang, Li Huang, Bin Cao: Dynamic characteristics and comfort assessment of airflows in indoor environments: A review, Building and Environment 91 (2015) 5-14

[53]   Zufeng Pei, Borong Lin, Yanchen Liu, Yingxin Zhu, Comparative study on the indoor environment quality of green office buildings in China with a long-term field measurement and investigation, Building and Environment, 84(2015) 80-88

[54]   Maohui Luo, Bin Cao, Jérôme Damiens, Borong Lin, Yingxin Zhu, Evaluating thermal comfort in mixed-mode buildings: A field study in a subtropical climate, Building and Environment, 88(2015) 46-54

[55]   Jie Ma, Xiaofeng Li, Yingxin Zhu. An hourly simulation method for outdoor thermal environment evaluation, Building Simulation 2015, 8(2)113-122

[56]   Weilin Cui, Qin Ouyang, Yingxin Zhu, Field study of thermal environment spatial distribution and passenger local thermal comfort in aircraft cabin, Building and Environment, 80(2014) 213-220

[57]   Bin Cao, Yingxin Zhu, Min Li, Qin Ouyang: Individual and district heating: A comparison of residential heating modes with an analysis of adaptive thermal comfort, Energy and Buildings, 78(2014)17-24

[58]   Li Huang, Edward Arens, Hui Zhang, Yingxin Zhu, Applicability of whole-body heat balance models for evaluating thermal sensation under non-uniform air movement in warm environments, Building and Environment, 75(2014) 108-113

[59]   Maohui Luo, Xiang Zhou, Bin Cao, Yingxin Zhu, Can personal control influence human thermal comfort? A field study in residential buildings in China in winter, Energy and Buildings, 72 (2014) 411-418

[60]   Zhou Xiang, Ouyang Qin, Zhu Yingxin, Experimental study of the influence of anticipated control on human thermal sensation and thermal comfort, Indoor Air, 2014, 24: 171-177

[61]   Yingxin ZHU, Ling SONG & Jérôme Damiens, State of the Art of Green Building Standards and Labeling System Development in China, International Journal of Sustainable Building Technology and Urban Development, 19 Sept. 2013

[62]   朱颖心、宋凌,中華人民共和国の绿色建築評價ツールと評價ランクの発展,《空气調和•衞生工学》,第87卷第5号,35-392013

[63]   Juan Yu, Guoguang Cao, Ouyang Qin, Weilin Cui and Yingxin Zhu, People who live in a cold climate: thermal adaptation differences based on availability of heating, Indoor Air,2013, 23(4) 303-310

[64]   Cao Bin, Shang Qi, Dai Zizhu, Yingxin Zhu. The impact of Air-conditioning usage on sick building syndrome during summer in China. Indoor and Built Environment, 2013, 22, 3: 490–497.

[65]   Li Huang, Qin Ouyang, Yingxin Zhu, Lingfei Jiang. A study about the demand for air movement in warm environment. Building and Environment, (2013) 61: 27-33

[66]   Weilin Cui, Guoguang Cao, Qin Ouyang, Yingxin Zhu, Influence of dynamic environment with different airflows on human performance. Building and Environment, 62(2013) 124-132

[67]   Weilin Cui, Guoguang Cao, Jung Ho Park, Qin Ouyang, Yingxin Zhu, Influence of indoor air temperature on human thermal comfort, motivation and performance, Building and Environment, 68 (2013) 114-122

[68]   de Dear RJ, Akimoto T, Arens EA , Brager G, Candido C, Cheong KWD, Li B, Nishihara N, Sekhar SC, Tanabe S, Toftum J, Zhang H, Zhu Y. Progress in thermal comfort research over the last twenty years. Indoor Air. 2013 , 23:442-461.

[69]   Juan Yu, Qin Ouyang, Yingxin Zhu, Henggen Shen, Guoguang Cao, Weilin Cui, A Comparison of the Thermal Adaptability of People Accustomed to Air Conditioned Environments and Naturally Ventilated Environments, Indoor Air, 2012, 22: 110–118

[70]   Jie Ma, Xiaofeng Li, Yingxin Zhu: A simplified method to predict the outdoor thermal environment in residential district, Building Simulation, 5(2) 157-167, 2012

[71]   Zhen Zeng, Xiaofeng Li, Cheng Li, Yingxin Zhu, Modeling ventilation in naturally ventilated double skin façade with a ventilation blind. Building and Environment, 2012. 57:1-6

[72]   Li Huang, Qin Ouyang, Yingxin ZHU, Perceptible Airflow Fluctuation Frequency and Human Thermal Response, Building and Environment, 2012, 54: 14-19

[73]   Li Huang, Yingxin Zhu, Qin Ouyang, Bin Cao: A Study on the Effects of Thermal, Luminous, and Acoustic Environments on Indoor Environmental Comfort in Offices, Building and Environment, 2012, 49: 304-309

[74]   Cheng Li, Xiaofeng Li, Yaxuan Su, Yingxin Zhu. A new zero-equation turbulence model for micro-scale climate simulation. Building and Environment. 2012, 47: 243-255.

[75]   Jinjing Hua, Qin Ouyang, Yiran Wang, Hui Li, and Yingxin Zhu: A Dynamic Air Supply Device Used to Produce Simulated Natural Wind in an Indoor Environment, Building and Environment, 47(2012) 349-356, 2012

[76]   Bin Cao, Qin Ouyang, Yingxin Zhu, Li Huang, Hu Hongbo, Deng Gaofeng: Development of a multivariate regression model for overall satisfaction in public buildings based on field studies in Beijing and Shanghai, Building and Environment, 47(2012) 394-399, 2012

[77]   Bin Cao, Yingxin Zhu, Qin Ouyang, Xiang Zhou, Li Huang, Field study of human thermal comfort and thermal adaptability during the summer and winter in Beijing, Energy and Buildings, 43(2011)1051-1056, 2011L Huang, YX Zhu, Q Ouyang, B Cao, Field survey of indoor thermal comfort in rural housing of northern China in heating season, Journal of Southeast University (English Edition), 2010, 26 (2)169-172

[78]   J Yu, YX Zhu, Q Ouyang, B Cao, Experimental study on the effects of climatic characteristics on people's adaptability to thermal environment, Journal of Southeast University (English Edition), 2010, 26 (2)279-282

[79]   Yingxin ZHU, Borong LIN, Bin YUAN, Low-cost green buildings practice in China: Library of Shandong Transportation College, Frontiers of Energy and Power Engineering in China, 2010, 4(1) 100-105

[80]   Feng Ning, Ma Jie, Lin BR, Zhu YX, Impact of landscape on wind environment in residential area, Journal of Central South University of Technology, 16 (Suppl. 1) 80-83, Dec. 2009

[81]   Yu Qiong, Zhou XR, Lin BR, Zhu YX, Simplified prediction model for lighting energy consumption in office building scheme design, Journal of Central South University of Technology, 16 (Suppl. 1) 28-32, Dec. 2009

[82]   Gu Lijing, Lin Borong, Gu Daojin, Zhu Yingxin, An endpoint damage oriented model for life cycle environmental impact assessment of buildings in China, Chinese Science Bulletin, 53 (23), 3762-3769, Dec. 2008

[83]   Borong Lin, Xiaofeng Li, Yingxin Zhu & Youguo Qin, Numerical simulation studies of the different vegetation patterns’ effect on outdoor pedestrian thermal comfort, Journal of Wind Engineering and Industrial Aerodynamics, 96 (2008) 1707-1718, 2008

[84]   Lijing Gu, Borong Lin, Yingxin Zhu, Daojin Gu, Mingxing Huang, Jiazi Gai, Integrated assessment method for building life cycle environmental and economic performance, Building Simulation, an International Journal, 2008 (2) 169-177 2008

[85]   Chunhai Xia, Yingxin ZHU & Boronmg LIN, Building Simulation as Assistance in the Conceptual Design, Building Simulation, an International Journal, 2008 (1) 46-52, 2008

[86]   Xia Chunhai, Zhu Yingxin, Borong Lin. Renewable energy utilization evaluation method in green buildings. Renewable Energy, 2008, 33 (5)883-886.

[87]   HJ Li, XC Chen, Q Ouyang, YX Zhu, Wavelet Analysis on Fluctuating Characteristics of Airflow in Building Environments, Building and Environment, 42(12) 4028-4033, 2007

[88]   Xia Chunhai, Zhu Yingxin, Zhou Xiang. Application of Underground Pipe System in Residential Building in Different Region. Journal of Harbin Institute of Technology (New Series), v 14, n SUPPL., January, 2007, p 348-351.

[89]   Gu Lijing, Gu Daojing, Lin Borong, Zhu Yingxin, Study on the effect of different envelopes on life cycle environmental load of residential buildings, Journal of Harbin Institute of Technology (New Series), Vol.14 Sup., Jan. 2007, 14(sup.) pp431-434.

[90]   Chen Haibo, Zhu Yingxin, Energy saving and thermal comfort problems of residential buildings which adopt concentrated HVAC system, Journal of Harbin Institute of Technology (New Series), Vol.14 Sup., Jan. 2007: p 176-178

[91] Zhou X, Ouyang Q, Lin G, Zhu Y, Impact of Dynamic Airflow on Human Thermal Response, INDOOR AIR. 16 (5) 348-355, 2006

[92] LI Liang, LI Xiaofeng, LIN Borong, Zhu Yingxin, Improved k-e two-equation turbulence model for canopy flow, Atmospheric Environment, 40 (4) 762-770, Feb. 2006

[93] Ouyang Qin, Dai Wei, Li Hongjun, Zhu Yingxin, Study on Dynamic Characteristics of natural and mechanical wind in built environment using spectral analysis, Building and Environment, 41 (4) 418-426, 2006

[94]   Xia Chunhai, Zhou Xiang, Ouyang Qin, Zhu Yingxin, Numerical Simulation and Analysis of Underground Duct System, Acta Energiae Aolaris Sinica, 27(9) 923-928, 2006

[95]   C. H. Xia, Y. X. Zhu, H. B. Chen, Z. Han, G. H. Xu, A case study of continuous commissioning of VAV system in China, Journal of Harbin Institute of Technology (New Series), Oct . 2006

[96]   Yingxin ZHU, Borong LIN, Sustainable Housing and Urban Construction in China, Energy and Buildings, 36 (12) 1287-1297, Dec. 2004

[97]   LIN Borong, TAN Gang, WANG Peng, SONG ling, ZHU Yingxin: Study on the thermal performance of the Chinese traditional vernacular dwellings at Wannan area in summer: field measurements and data analysis, Energy and Buildings, 36 (1) 73-78, Jan. 2004

[98]   Yingxin Zhu, Yinping Zhang, Gang Li, Fengjun Yang, Heat transfer processes during an unfixed solid phase change material melting outside a horizontal tube, International Journal of Thermal Sciences, 40 (6) 550-563, June, 2001

[99]   ZHANG Yinping, SU Yan, ZHU Yingxin, HU Xianxu, A general model for analyzing the thermal performance of the heat charging and discharging processes of latent heat thermal energy storage systems, Journal of Solar Energy Engineering-Transactions of the ASME, 123 (3) 232-236 AUG 2001

[100]    Yingxin Zhu, Yan Zhang, Modeling of Thermal Processes for Internal Melt Ice-On-Coil Tank Including Water-Ice Density Difference, Energy and Buildings, 33 (4) 363-370, April 2001

[101]    Yingxin Zhu, Yan Zhang, Dynamic Modeling of Encapsulated Ice Tank for HVAC System Simulation, International Journal of HVAC & R Research, 6 (3) 213-228, July 2000

[102]    Yanbing Kang, Yinping Zhang, Yi Jiang and Yingxin Zhu, A General Model for Analyzing the Thermal Characteristics of a Class of Latent Heat Thermal Energy Storage System, Journal of Solar Energy Engineering, 121 (4) 185-193, NOV 1999

[103]    中原信生、朱穎心,空調システムの働的シミュル-ションの働向とその意,《空気調和·衛生工学》, 68卷第3號,pp1-10, 19943

Nobuo Nakahara & Yingxin Zhu, The State of the Art on the Dynamic Simulation of HVAC System and Its Significance (Japanese), Journal of SHASE (Society of Heating, Air-conditioning, and Sanitation Engineering) of Japan , 68 (3) 1-10, Mar 1994

[104]    Yingxin Zhu, Hideharu Niwa, Xiangyang Chen & Nobuo Nakahara, Study on the Dynamic Behavior and Evaluation of Energy·Environment Performance in HAVC Reference System for BOFD (English), Transactions of AIJ (Architecture Institute of Japan), No.461, pp69-79, July 1994

朱穎心、丹羽英治、陳向陽、中原信生,VAV調システムの挙働BOFDのためのエネルギ一·境性能評價する研究,《日本建学会画系文集》,第461号,pp69-79, 19947

 

中文期刊

[1]      纪文杰、杜衡、朱颖心、曹彬、连之伟、刘淑丽、杨昌智,对热环境评价指标标准有效温度SET”的重新解读,《澳门新葡萄新京8883学报(自然科学版)》,2021-04-26

[2]      朱颖心,如何营造健康舒适的建筑热环境——建筑环境与人体舒适及健康关系的探索,《世界建筑》,2021(03) 42-45

[3]      贾欣雨、朱颖心、曹彬,我国大型航站楼座椅区夏季室内旅客热舒适调研,《建筑科学》,202137(02)

[4]      黄彦祥、朱颖心、林波荣,航站楼旅客满意度与空间关系解析,《建筑科学》,202137(02)

[5]      赵海湉、周政翰、林波荣、刘实、朱颖心、孙弘历、刘建华、张菁华,不同空调系统末端热舒适现场测试对比研究,《暖通空调》,202151(07)

[6]      马晓明、李晓锋、朱颖心,基于TRNSYS的地铁车站公共区冷负荷预测模型,《都市快轨交通》,202134(02)

[7]      朱颖心,碳中和目标下的建筑环境营造,《建筑节能》,202108

[8]      赵海湉、林波荣、王需、朱颖心、孙弘历、刘建华、张菁华、陈珂、周政翰、彭昱达,一种基于数据驱动的空调系统能耗逐日评价指标,《暖通空调》,202010

[9]      赵海湉、王需、林波荣、朱颖心、张菁华、孙弘历,使用需求参数对建筑大数据能耗预测影响规律初探,《建筑节能》,202007

[10]   孟瑶、牟迪、曹彬、朱颖心,温和地区自然通风办公建筑的实际热环境评价研究,《建筑节能》,202006

[11]   余娟、林波荣、黄彦祥、赵海湉、朱颖心,我国航站楼用能和室内环境质量调研与实测分析,《澳门新葡萄新京8883学报(自然科学版)》,2020年,第6卷第12期,977-984

[12]   张宏、曹彬、刘锦红、刘加平、朱颖心、谢静超,热湿气候区远海岛礁自然通风建筑热舒适实验研究,《暖通空调》,2019年,49(8) 11-17

[13]   纪文杰、曹彬、朱颖心,北方冬季供暖期及其前后的室内热湿环境分析及热适应性研究,《暖通空调》,201949(8) 103-107.

[14]   纪文杰、曹彬、朱颖心,建立一种新的热适应预测评价模型——预测热感觉PTS模型,《暖通空调》,201949(6) 39-45.

[15]   王子涵、曹彬、林波荣、朱颖心,北京某既有住区建筑环境实测与老年住户居住舒适性评价研究,《西部人居环境学刊》,201934(5): 92-99.

[16]   纪文杰、罗茂辉、曹彬、朱颖心,长期热经历对热舒适评价的长期热经历对热舒适评价的影响研究及热适应性探讨,《暖通空调》,201848(1) : 71,78-82

[17]   朱旻琳、欧阳沁、朱颖心、沈恒根,偏热环境下睡眠热舒适研究综述,《暖通空调》,201747(10)35-44

[18]   朱旻琳、欧阳沁、朱颖心、沈恒根,偏热环境下气流对睡眠人体的冷补偿上限初探,《暖通空调》 201706

[19]   朱颖心,热舒适的,多少算合适?《世界建筑》,2015年第7期,35-37

[20]   王者、刘加根、林波荣、朱颖心,地道通风技术在贵安新区清控人居科技示范楼中的应用,《生态城市与绿色建筑》,2015年,第2期,36-41

[21]   余娟、欧阳沁、朱颖心,偏热环境下空调非等温可感送风对人体热舒适影响的实验研究,《暖通空调》,2015年第4

[22]   曹彬、罗茂辉、朱颖心、王昭俊、周翔、刘刚,基于实际建筑环境的人体热适应研究(3)--冬季不同气候区人体热适应特征对比,《暖通空调》 2015年第1

[23]   曹彬、黄莉、欧阳沁、朱颖心,基于实际建筑环境的人体热适应研究(1)——夏季空调与非空调公共建筑对比、《暖通空调》,2014年,44(8) 74-79.

[24]   曹彬、李敏、欧阳沁、朱颖心,基于实际建筑环境的人体热适应研究(2)——集中供暖与分户独立采暖住宅对比,《暖通空调》,2014年,44(10) 79-83.

[25]   罗茂辉、李敏、曹彬、冯潇潇、朱颖心、欧阳沁,北京冬季住宅供暖热舒适与经济性研究,《暖通空调》2014年,第44卷第2期,21-25

[26]   曹彬、黄莉、欧阳沁、朱颖心,基于实际建筑环境的人体热适应研究(1——夏季空调与非空调公共建筑对比,《暖通空调》2014年第44卷第8期,74-79

[27]   李丞、李晓锋、苏雅璇、朱颖心,用于建筑绕流模拟的零方程模型,《澳门新葡萄新京8883学报(自然科学版)》,2013年,第53卷第5期,589-594600

[28]   崔惟霖、欧阳沁、余娟、曹国光、李敏、朱颖心,相同热感觉条件下不同环境温度与风速组合对人体舒适性及工作效率的影响,《暖通空调》,2013年,第43卷第7

[29]   马杰、李晓锋、朱颖心,住区微气候的数值模拟方法研究,《太阳能学报》,2013年,3412期,2133-2138

[30]   王亦然、华金晶、欧阳沁、李鑫、朱颖心,不同湍流强度模拟自然风的人体热舒适研究,《暖通空调》,2013年,第43卷第4

[31]   林波荣、刘念雄、彭渤、朱颖心,国际建筑生命周期能耗和CO2排放比较研究,《建筑科学》,2013年,第43卷第8

[32]   刘加根、朱颖心、章宇峰、庄炜茜,南京南火车站渗透风模拟及实测验证研究,《生态城市与绿色建筑》,201202期,107-111

[33]   曹彬、朱颖心、欧阳沁、周翔、罗茂辉,不同气候区住宅建筑冬季室内热环境及人体热适应性对比,《 澳门新葡萄新京8883学报(自然科学版) 2012年,52(4) 499-503

[34]   朱颖心、林波荣,国内外不同类型绿色建筑评价体系辨析,《暖通空调》,2012年,第42卷第10期,9-1425

[35]   曹彬、朱颖心、欧阳沁、黄莉,北京校园建筑夏冬两季室内热舒适性现场调查研究,《暖通空调》,2012年第42卷第5期,84-89

[36]   黄莉、朱颖心、欧阳沁,动态气流作用下的人体可感频率,《暖通空调》,2012年第42卷第5期,96-99

[37]   朱颖心、谷立静,建筑光伏一体化的全生命周期环境影响分析,《生态城市与绿色建筑》,2010年创刊号,42-45

[38]   曹彬、朱颖心、欧阳沁、周翔、黄莉,北京地区冬季室内人体热舒适性及热适应性调查,《暖通空调》,2010年,第40卷第5期,98-101

[39]   余娟、朱颖心、欧阳沁、沈恒根、周翔,基于生理指标评价人体热舒适、工作效率和长期健康的研究路线探讨,《暖通空调》,2010年第40卷第3期,1-5

[40]   华金晶、欧阳沁、朱颖心、李卉,一种基于直流无刷电机控制的工位型个体化动态送风装置的研发与应用研究,《建筑科学》,2010年,第26卷第10期,53-59

[41]   曹彬、朱颖心、欧阳沁、黄莉、程浩蕃、胡红波、邓高峰,公共建筑室内环境质量与人体热舒适性的关系研究,《建筑科学》,2010年,第26卷第10期,126-130

[42]   周翔、朱颖心、欧阳沁、张旭,环境控制能力对人体热感觉影响的实验研究,《建筑科学》2010年第26卷第10期,177-180

[43]   宋凌、朱颖心,多管地道降温的模拟研究,《暖通空调》,2009年,第39卷第9

[44]   韩铮、朱颖心,不同风系统末端装置的能效比比较,《暖通空调》,2009年,第39卷第2

[45]   李俊、李晓锋、朱颖心,地铁屏蔽门漏风量的计算方法及其对空调负荷的影响分析,《建筑科学》 2009 (12)

[46]   陈海波、朱颖心,基于案例调查的公共建筑节能进展缓慢的障碍分析,《建筑科学》,20096

[47]   夏春海、朱颖心,面向建筑方案的节能设计研究——设计流程和工具,《建筑科学》,20096

[48]   陈海波、朱颖心、李震,公共机构信息机房环境控制与能耗问题及对策,《建筑节能》,2008年第9

[49]   林威、林波荣、朱颖心,水平外百叶遮蔽系数计算方法比较研究,《建筑科学》,24(10) 55-632008

[50]   谷立静、林波荣、顾道金、朱颖心,中国建筑生命周期环境影响评价的终点破坏模型《科学通报》,53 (15)20081858-1863

[51]   朱颖心、周翔、曹彬、欧阳沁、黄莉、李宏军,偏热环境下操作温度、服装热阻、季节对人体热感觉影响的实验研究,《暖通空调增刊》,200810月,第38卷,112-118

[52]   朱颖心、王刚、江亿,区域供冷系统能耗分析,《暖通空调》,2008年,第38卷第1

[53]   夏春海、朱颖心、周潇儒,基于模拟的空调系统运行水平评价方法,《暖通空调》,2008年第38卷第8期,117120

[54]   夏春海、朱颖心、林波荣,建筑可再生能源利用评价方法研究,《太阳能学报》,200728(6)676-681

[55]   夏春海、朱颖心、林波荣,建筑方案阶段建筑性能模拟方法研究综述,《暖通空调》,第37卷第12期,32-402007

[56]   顾道金、谷立静、朱颖心、林波荣、盖甲子,建筑建造与运行能耗的对比分析,《暖通空调》,第37卷第5期,58-6020075

[57]   韩铮、夏春海、朱颖心、徐国海,OCM方法在变风量系统性能验证中的应用,《建筑科学》,第23卷第4期,107-11220074

[58]   朱颖心、欧阳沁、李宏军、陈晓春,建筑环境中气流动态特征研究,《化工学报》,第57卷增刊,8-14200612

[59]   顾道金、朱颖心、谷立静,中国建筑环境影响的生命周期评价,《澳门新葡萄新京8883学报(自然科学版)》,2006年第46卷,第12期,19531956

[60]   林波荣、朱颖心、李晓锋,基于模拟技术的绿色建筑规划设计实例分析,《建筑科学》,200622 (4A)8-11

[61]   陈晓春、李宏军、欧阳沁、朱颖心,小波变换在建筑环境气流湍动特性研究中的应用,《暖通空调》,200637(1)

[62]   周翔、朱颖心,具备1/f 紊动特性的仿自然风产生方法研究,《暖通空调增刊》,2006

[63]   夏春海、朱颖心、徐国海,变风量系统中环状风道的网络计算方法,《暖通空调》,2006年,37(12)

[64]   夏春海、朱颖心、韩铮、徐国海,Commissioning在变风量改造工程中的应用,《暖通空调》,200636(11)

[65]   袁圆、林波荣、朱颖心,基于负荷动态模拟的冰蓄冷系统设计及控制优化研究,《暖通空调》,2006年,36(190) 75-79

[66]   夏春海、周翔、欧阳沁、朱颖心,地道通风系统的数值模拟与分析,《太阳能学报》2006年,第27卷,第9期,923-928

[67]   朱培根、朱颖心,地铁车厢内人员新风量的研究,《暖通空调》,2006年第36卷第3

[68]   李亮、李晓锋、朱颖心,地铁隧道火灾自然排烟模式数值模拟研究,《暖通空调》,2005年第35卷第12期,6-9

[69]   欧阳沁、戴威、朱颖心,自然风与机械风的谱特征分析,《澳门新葡萄新京8883学报(自然科学版)》,2005年第45卷第12

[70]   陈海波、朱颖心,办公建筑变风量系统设计中的热舒适问题,《暖通空调》,2005年第35卷第9期,75-79

[71]   欧阳沁、戴威、周翔、朱颖心,自然通风环境下的热舒适分析与思考,《暖通空调》,2005年,第35卷,第8期,16-19

[72]   朱颖心、欧阳沁、戴威,建筑环境气流紊动特性研究综述,澳门新葡萄新京8883学报(自然科学版),2004年第44卷第12期,1622-1625

[73]   朱培根、朱颖心、李晓峰,地铁通风与热模拟方案及其分析,《流体机械》,2004年第32卷第11

[74]   李晓锋、张志勤、林波荣、朱颖心,围合式住宅小区微气候的实验研究《澳门新葡萄新京8883学报》,43(12) 1638-16412003

[75]   宋凌、林波荣、朱颖心,徽派民居夏季热环境模拟分析,《澳门新葡萄新京8883学报》,2003年,第43卷,第6期,826-828

[76]   张寅平、王馨、朱颖心、林坤平、徐煦、周翔、陈斌娇、李俊、陈亮亮、江亿,医用降温服热性能与应用效果研究,《暖通空调》,SARS特集,20036月,第33卷。

[77]   林波荣、谭刚、王鹏、宋凌、朱颖心、翟光逵,徽派民居的热环境测试分析,《澳门新葡萄新京8883学报》,2002年,第42卷,第8 1071-1074

[78]   孟斌斌、朱颖心、林波荣,部分负荷下一次泵水系统变流量性能研究,《暖通空调》,2002年,第32卷,第6期,108-110

[79]   江泳、朱颖心,地铁公共区冬季温度设计标准探讨,《暖通空调》,2002年,第32卷,第4期,20-22

[80]   欧阳沁、江泳、朱颖心、赵彬,关于地铁隧道区间段阻塞工况临界通风速度的研究,《地铁与轻轨》,2002年第2

[81]   林波荣、王鹏、赵彬、朱颖心,传统四合院民居风环境的数值模拟研究,《建筑学报》,2002年第5

[82]   林波荣、李晓锋、朱颖心,太阳辐射下建筑外微气候的实验研究——建筑外表面温度分布及气流特征,《太阳能学报》,第22卷,第3期,20017月,327-333

[83]   康艳兵、张寅平、江亿、朱颖心,相变蓄热球体堆积床传热模型及热性能分析,《澳门新葡萄新京8883学报(自然科学版)》,2000年第40卷第2期,106-109

[84]   张寅平、朱颖心、江亿,水-空气处理系统全热交换模型和性能分析,《澳门新葡萄新京8883学报(自然科学版)》,1999年,第10期,第39卷,35-38

[85]   朱颖心、张雁,内融冰冰式冰盘管蓄冷槽传热性能研究,《应用基础与工程科学学报》,1999年,第3期,第7卷,307-312

[86]   朱颖心、江亿,用于空调系统设计的全年双负荷曲线分析法(TLCA),《暖通空调》,1998年第4期,43-46

[87]   李晓锋、朱颖心,示踪气体浓度衰减法在民用建筑自然通风中的应用,《暖通空调》,1997年,第27卷,第4期,7-10

[88]   彦启森、朱颖心,一种室内空气热状况模型简化的新方法——理论分析与实验研究,《制冷学报》,1991年第1期,1-6

[89]   彦启森、江亿、陆致成、朱颖心,用于开发空调自控系统的空调系统实时仿真装置,《制冷学报》,1987年,第1期,21-26

 

教学研究论文

[1]      朱颖心、石文星. 专业课慕课建设与翻转课堂,《传承与发扬澳门新葡萄新京8883优秀教学传统和经验文集》,20215月,澳门新葡萄新京8883出版社

[2]      朱颖心、石文星."暖通空调与冷热源"慕课建设与混合式教学,《暖通空调》,20207月,第50卷,第7

[3]      朱颖心、李先庭,课程体系优化是工科专业教育理念更新的关键,《澳门新葡萄新京8883教育研究》,2011年增1期,16-21

[4]      朱颖心、石文星,对工科专业课程教学方法的思考, 《高等建筑教育》,201120(5) 78-82

[5]      肖勇全、张志刚、朱颖心、付祥钊,建环专业平台课程体系构建与实践,《暖通空调》,20046月,第34卷第6期,39-42

[6]      朱颖心,工程实践是培养学生专业能力的最好课堂,《高等建筑教育》,200312月,第4期(第12卷),67-69

[7]      朱颖心,建筑环境学课程建设与教学方法,《高等建筑教育》,20039月,第3期(第12卷),26-29

[8]      Yingxin Zhu, Educating and Training of HVAC Engineers and Technicians in China, Proceedings of the 7th International Energy Agency Conference on Heat Pump Technologies, May 2002, Beijing, China (Keynote Report)

[9]      朱颖心,暖通空调课程设计的改革与实践,《制冷与空调》,20028月,第2卷,第4期,7-11

[10]   朱颖心、江亿、赵荣义、狄洪发,工程类学科专业课程体系改革与建设,《澳门新葡萄新京8883教育研究》,1997年第2期,101-104

 

国际学术会议大会主旨报告和邀请报告

1.     How to create comfortable and healthy indoor environment?A new opportunity for HVAC. ISHVAC 2019, 14 July, 2019, Harbin, China (Plenary report)

2.     How to create comfortable and healthy indoor environment? Healthy Buildings Asia 2019, 25 Oct. 2019, Changsha, China (Keynote report)

3.     How to create comfortable and healthy indoor environment? A new challenge for sustainable buildings. Special lecture for Uichi Inouye Memorial Award Asia International Award, Waseda University, 10th May, 2018, Tokyo, Japan (Invited talk)

4.     How comfortable is adequate? Rethinking on indoor thermal environment creation. 10th Anniversary Conference of Korean Institute of Architectural Sustainable Environment and Building Systems (KIAEBS), Nov. 2017, Seoul, Korea (Plenary report)

5.     How comfortable is adequate? The 10th International Symposium on Heating, Ventilation and Air-conditioning (ISHVAC 2017), 22rd Oct. 2017, Jinan, China (Plenary report)

6.     Personal Thermal Comfort System, A New Challenge to Building Energy Simulation. The 3rd Asia Conference of International Building Performance Simulation Association, 28 Nov. 2016, Jeju, Korea (Keynote speech)

7.     Adaptive thermal comfort in low energy office building under subtropical climate. Singapore Berkeley Building Efficiency and Sustainability in the Tropics (SinBerBEST) Annual Symposium, March 2016, Singapore (Plenary report)

8.     Low Energy Design in mixed-mode office buildings under subtropical climate: A case study in Shenzhen. International Conference of Mitigating and Adapting Built Environments for Climate Change in the Tropics, March 2015, Jakarta, Indonesia (Keynote speech)

9.     Dynamic Thermal Environment and Thermal Comfort. INDOOR AIR 2014, July 2014, Hong Kong (Keynote speech)

10.     How to assess occupants' thermal comfort in mixed-mode buildings?——A field study in subtropical climate. The 2nd Int. Sym. on the Interaction between Human and Building Environment, Feb. 2014, Seoul, Korea (Plenary report)

11.     Occupants' behavior adaptation-The key feature of the sustainable buildings. International Symposium on Creative Sustainability in Architecture and Urbanism toward the Green Growth, March, 2014, Seoul, Korea (Plenary report)

12.     State of the Art of Green Building Standard and Labeling System development in China. International conference on Sustainable Building Asia, July 2013, Seoul, Korea (Plenary report)

13.     Natural ventilation and thermal comfort in dynamic thermal environments. INDOOR AIR 2011, June 2011, Austin, US (Plenary report)

14.     Natural Ventilation and Dynamic Thermal Comfort. AIVC International Conference 2010: Low Energy and Sustainable Ventilation Technologies for Green Buildings, Oct. 2010, Seoul, Korea (Plenary report)

15.     The Route to Low Carbon and Energy Efficient in China. International Conference on Carbon Reduction, Sept. 2010, Hong Kong (Keynote speech)

16.     The Route to Sustainable development for China-Rethink on adaptability of building energy efficient technologies. International Green Building Conference, Oct. 2009, Singapore (Keynote speech)

17.     How developing countries find their own way to urban sustainabilityThinking from the building energy research in China. International Symposium on Realizing Low Carbon Cities: Bridging science and policy, Feb. 2009, Nagoya, Japan (Invited talk)

18.     Buildings and EnergyChinese Perspective. International Forum-Integrating Climate Change Mitigation in Urban Development in Asian Cities, Dec. 2007, Nagoya, Japan (Invited talk)

19.     Air flow Fluctuation and Dynamic Thermal Environment. The 5th International Symposium on Heating, Ventilation and Air-conditioning (ISHVAC 2007), Sept. 2007, Beijing, China (Plenary report)

20.     Sustainable Building Market Transformation in ChinaChance and Challenge. International Workshop on Strategic Market Transformation for the Promotion of Sustainable Buildings, Dec. 2006, Tokyo, Japan (Invited talk)

21.     Research and application of green building assessment system in China: from GOBAS to GBAS. 6th International Symposium on Architectural Interchanges in Asia, Oct. 2006, Daegu, Korea (Plenary report)

22.     Development of Sustainable Building Rating System and Policy in China. AIK 1st Korea-Japan-China international conference, March, 2006, Seoul, Korea (Plenary report)

23.     Green Building Development in China. Design 2005 Symposium-East Meets West, April 2005, Nottingham, UK (Plenary report)

24.     Airflow Fluctuation & Thermal Environment. Joint SymposiumNew Challenges in Building Services, Nov. 2005, Hong Kong (Plenary report)

25.     Sustainable Building Development in China. 2nd International Workshop on Sustainable Habitat Systems, Fukuoka, Japan, October 2005 (Invited talk)

26.     GOBAS——China Green Olympic Building Assessment System. The 6th International Conference on Eco-Balance, 25-27 Oct., 2004, Tsukuba, Japan (Keynote speech)

27.     Tsinghua Green Building Research CenterA Low Energy Demo Building. 2004 Asia-Pacific Conference of International Solar Energy Society, Oct. 2004, Gwangju, Korea (Keynote speech)

28.     Airflow fluctuations and thermal environment: A literature review. The 4th international Symposium on HVAC (ISHVAC’03), Beijing, China, Oct. 2003 (Plenary report)

29.     Educating and Training of HVAC Engineers and Technicians in China. The 7th International Energy Agency Conference on Heat Pump Technologies, May 2002, Beijing, China (Plenary report)

 

国内大会报告/邀请报告

1.     面向碳中和的公共建筑室内环境营造再认识,第十八届“澳门新葡萄新京8883建筑节能学术周”主题论坛:公共建筑节能——工程实践助力实现双碳目标,2022326日,北京

2.     双碳目标下供热舒适度及室温问题研究,第四届中国供热学术年会,2021822

3.     碳中和目标下的建筑环境营造,SSCAE城市与建筑国际高峰论坛,202182

4.     从热舒适研究谈室内环境营造的发展方向,第二届华人能源与人工环境国际学术会议,2021717日,成都

5.     从热舒适研究谈建筑双碳目标的实现,上海交通大学邬达克讲堂,202175日,上海

6.     室内热环境与人体的舒适健康,中国国际暖通高峰论坛,2021512日,北京

7.     健康的低碳建筑热环境营造,第六届大连市绿色建筑公益周,2021426

8.     住宅用什么样的空调更节能?第十七届“澳门新葡萄新京8883建筑节能学术周” 中国低碳城镇住宅发展论坛,2021327日,北京

9.      提高青年教师工程实践能力的途径,第二十二届全国暖通空调制冷学术年会教育论坛,20201014日,太原

10.     绿色建筑与室内健康环境,2019建筑科技城市更新技术论坛,20191128日,上海

11.     关于博士生培养的一点体会,第十四届全国人工环境学科博导论坛,2019921,长沙

12.     建环专业慕课与翻转课堂,中国矿业大学,201984日,徐州

13.     建环专业慕课与翻转课堂,CAR-ASHRAE学生设计竞赛颁奖礼暨竞赛十周年纪念典礼,2019411日,上海

14.     如何营造健康舒适的室内环境——可持续建筑领域面临的新挑战,2018中国供暖大会,20181213日,北京

15.     如何营造健康舒适的室内环境——可持续建筑领域面临的新挑战,第21届暖通空调制冷学术年会,20181024日,三门峡市

16.     绿色建筑与健康室内环境,第十届江苏省绿色建筑发展大会,20171214日,南京

17.     绿色建筑与健康室内环境,吉林建筑大学,2017117日,长春

18.     中国建筑能源供应基础设施建设中的低碳途径,第八届国际基础设施投资与建设高峰论坛,201761-2日,澳门

19.     我们应该如何追求舒适?——关于绿色建筑室内环境营造的思考,中国绿色建筑产业专家论坛, 201564日,北京

20.     动态热环境与人体热舒适,中国环境科学学会室内环境与健康分会学术年会,20121117日,长沙


——关注我们——
联系我们
网址:www.lvudq.com
邮箱:jzxy@tsinghua.edu.cn
地址:北京市海淀区澳门新葡萄新京8883 100084
© 2024 版权所有 澳门新葡萄新京8883
Baidu
sogou