教授、博导/泰山学者青年专家
专业:建筑环境与能源应用工程
电子信箱:yaowanxiang@163.com
联系电话:13612062502
教育经历:
2022.5-2023.5:日本北九州市立大学,访问学者
2019.9-2021.12:天津大学机械工程学院,博士后
2009.9-2014.7:同济大学机械与能源工程学院,博士
2007.9-2009.7:天津城建大学能源与安全工程学院,硕士
2002.9-2006.7:南京工业大学城市建设与安全环境学院,学士
工作经历:
2023.9-至今:青岛理工大学,教授
2018.12-2023.8:天津城建大学能源与安全工程学院,副教授
2022.05-2023.05:日本北九州市立大学,研究员
2018.12-2022.3:天津城建大学科技处,科长
2014.12-2018.12:天津城建大学能源与安全工程学院,讲师
2014.12-2018.12:天津城建大学科技处,科员
研究方向:
1. 建筑节能及可再生能源利用
2. 室内热环境及人体热舒适
3. 建筑光环境与自然采光
4. 健康建筑与室内污染物控制
5. 生物气溶胶与人体健康
6. 气候变化应对及影响
7. 能源-经济-环境耦合影响
主要科研业绩:
山东省泰山学者青年专家、天津市131人才工程第二层次人选、印度尼西亚ITS' World Class Professor (WCP-Like)世界知名教授(2023年中国唯一);获省部级以上奖励4项,包括2024年中国商业联合会科技进步奖二等奖(排名第一)、2019年天津市科技进步奖二等奖(排名第一)、2020-2021年度天津市工程专业学位优秀指导教师奖(唯一)、2020年中国铁路工程集团有限公司科学技术奖一等奖(排名第五);主持科研项目14项,其中国家级3项,省部级4项,包括国家自然科学基金项目3项(青年、面上)、天津市自然科学基金项目2项(面上、重点)、天津市科委项目2项、天津市建委项目2项、国家重点实验室项目3项、省部级重点实验室项目2项;参与国家自然科学基金项目2项,天津市建委项目2项;参编天津市绿色建筑和建筑节能相关标准3项;出版学术专著2本,《太阳辐射模型及其应用》和《热管置入式墙体研究及应用》;已发表论文78篇,其中SCI收录68篇,获批专利71项,其中发明专利23项,实用新型专利48项,软件著作权6项。作为教授获印尼泗水理工大学世界知名教授项目邀请,担任Progress in Energy & Fuels期刊编委,Energy、Applied Energy、Energy Conversion and Management、Journal of Cleaner Production、Sustainable Cities and Society、Journal of Environmental Management、Renewable Energy、Energy and Buildings、Journal of Building Engineering、Journal of Cleaner Production等30多个SCI期刊审稿人。受邀以分会场主席身份主持印尼泗水理工大学承办的国际会议,在第二届华人能源与人工环境国际学术会议(CEBE2021)作分会场报告,第三届华人能源与人工环境国际学术会议(CEBE2023)作邀请报告。
代表性成果:
科研项目:
1. 国家自然科学基金项目,52478091,热活性化墙体动态传热机制及对室内热环境的影响机理研究,2025.01-2028.12,48万元,在研,主持;
2. 国家自然科学基金项目,52178083,各向异性太阳辐射透射特性及对建筑得热的影响机理研究,2022.01-2025.12,58万元,在研,主持;
3. 国家自然科学基金项目,51508372,基于雾霾散射-削弱效应的太阳辐射对建筑得热及能耗的影响机理研究,2016.01-2018.12,24万元,已结题,主持;
4. 国家自然科学基金项目,51278349,城市各向异性散射辐射与遮阳对建筑得热的影响,2013.01-2016.12,76万元,已结题,参加;
5. 国家自然科学基金项目,51208363,东南沿海地区高层建筑遮阳一体化技术设计方法研究,2013.01-2015.12,25万元,已结题,参加;
6. 天津市自然科学基金项目,17JCYBJC22100,基于雾霾散射-削弱效应的各向异性天空亮度分布及其对建筑光环境的影响机理研究,2017.04-2019.09,10万元,已结题,主持;
7. 天津市自然科学基金项目,22JCZDJC00750,基于纳米流体的热管式太阳能光伏/光热系统光谱吸收特性及传热机理研究,2022.10-2025.09,20万元,在研,主持;
8. 天津市科委企业科技特派员项目,17JCTPJC52700,雾霾影响下太阳能光伏系统能效提升关键技术研究,2017.10-2018.09,5万元,已结题,主持;
9. 天津市科委科普项目,18KPHDSF00170,太阳能的资源分布、检测及其应用科普知识普及,2018.10-2019.09,8万元,已结题,主持;
10. 天津市建委科技项目,2017-9,各向异性太阳散射辐射测试关键技术研究与应用,2017.11-2019.06,18万元,已结题,主持;
11. 天津市建设系统软课题项目,2015-软7,基于模拟技术的建筑能耗快速评估方法研究,2015.10-2016.09,1万元,已结题,主持;
12. 能源清洁利用国家重点实验室(浙江大学)开放基金课题,ZJUCEU2020024,基于微管径热管阵列的太阳能光伏/光热一体化系统能源转换机理研究,2021.01-2022.12,6万元,已结题,主持;
13. 浙江省太阳能利用及节能技术重点实验室开放课题,ZJS-OP-2020-02,基于耐候性原理的积尘对太阳能光伏系统能效的影响机理研究,2021.01-2022.12,7万元,已结题,主持;
14. 建筑安全与环境国家重点实验室开放基金资助项目,BSBE2015-09,太阳能薄膜电池与建筑一体化优化配置及节能运行策略研究,2015.08-2017.07,3万元,已结题,主持;
15. 亚热带建筑科学国家重点实验室开放研究基金项目,2017ZB16,雾霾对各向异性天空亮度分布的影响机理研究,2017.01-2018.12,3万元,已结题,主持;
16. 天津市建委科技项目,2017-39,新型通水式辐射地板热工特性与舒适性研究,2017.07-2019.06,18万元,已结题,参加;
17. 天津市建委科技项目,2015-19,新型太阳能被动式利用技术——热管植入式墙体的研究与开发,2015.07-2017.06,15万,已结题,参加。
主要论著:
1. 张志刚,姚万祥,张伟,热管置入式墙体研究及应用[M],北京:中国建筑工业出版社,2024年1月.
2. 姚万祥,李峥嵘,张志刚,太阳辐射模型及其应用[M],北京:科学出版社,2022年2月.
3. G. Su, Y. Peng, Wanxiang Yao (姚万祥)*, S. Zhang. Distributed control strategy of central heating system based on multi-agent consensus. Applied Thermal Engineering. 262 (2025) 125136. (SCI二区检索号:000788227500004;EI检索号: 20221311837641);影响因子:6. 465.
4. Y. Wang, L. Yin, Q. Dong, F. Fei, Wanxiang Yao (姚万祥)*, J. Sun, et al. From thermal demand characterization to accurate evaluation: Exploring seasonal differences in outdoor thermal comfort of the elderly in China's communities. Urban Climate. 58 (2024) 102220. (SCI二区检索号:001111797700001);影响因子:6. 4.
5. F. Jia, Y. Cao, W. Gao, Wanxiang Yao (姚万祥)*, X. Meng**, C. Wang, et al. A new quantitative method for evaluating the impact of garden greening on outdoor thermal environment in summer - A case study of Japanese residential gardens. Sustainable Cities and Society. 117 (2024) 105962. (SCI一区检索号:WOS:001284070400001;EI检索号:20242716571181);影响因子:10.5006.
6. Wanxiang Yao (姚万祥) *, C. Yue, A. Xu, X. Kong, W. Cao**, Z. Zheng, et al. Power generation evaluation of solar photovoltaic systems using radiation frequency distribution. Journal of Building Engineering. 98 (2024) 110981. (SCI二区检索号:WOS:001218282700001;EI检索号:20241215781784);影响因子:6. 7000.
7. C. Yue, P. Xu*, Wanxiang Yao (姚万祥)**, W. Cao, Y. Wang, X. Li, X. Kong. New models of solar photovoltaic power generation efficiency based on spectrally responsive bands. Applied Energy. 375 (2024):123936. (SCI一区检索号:WOS:001295475800001; EI检索号: 20243316874612);影响因子:10.1001.
8. T Lei,T Yang*,Wanxiang Yao (姚万祥)**,J Cao,W Gao,Y Li. Mechanism analysis of climate change impacts on the performance of ice storage systems. Journal of Energy Storage. 99(2024):113184. (SCI二区检索号:WOS:001293481400001;EI检索号:20243316861718);影响因子:8. 9006.
9. Wanxiang Yao (姚万祥),A Xu,X Kong*,Y Wang,X Li,W Gao. Analysis of dust deposition law at the micro level and its impact on the annual performance of photovoltaic modules. Energy. 306 (2024):132448. (SCI一区检索号:WOS:001272911400001;EI检索号:20242916718204);影响因子:9. 0002.
10. Wanxiang Yao (姚万祥)*,M Song,X Li,X Meng,Y Wang,X Kong,J Jiang. A new modified method of all-sky radiance distribution based on the principle of photothermal integration. Applied Energy. 367(2024):123480. (SCI一区检索号:未生成;EI检索号:20242116110373);影响因子:9. 0002.
11. Wanxiang Yao (姚万祥)*,M Song,Y Huang,P Xu,X Li,G Su,W Gao. A new anisotropic solar radiation model based on the principle of photothermal integration.Renewable Energy. 226 (2024):120436. (SCI一区检索号:WOS:001230783800001; EI检索号:25401464);影响因子:9. 0002.
12. C Liu,Wanxiang Yao (姚万祥)*,J Dong,W Tian,J Shang,P Xu,W Gao. New distribution models of the transmitted solar radiation on building interior surfaces. Journal of Building Engineering. 87(2024):108952. (SCI二区检索号:WOS:001218282700001;EI检索号:20241215781784);影响因子:6. 7000.
13. C Wang,M Hou,Wanxiang Yao (姚万祥)**,W Gao,F Jia,Wang. Research on indoor thermal environment evaluation and thermal adaptation in winter of Japanese wood-framed detached houses. Case Studies in Thermal Engineering. 55(2024):104126. (SCI二区检索号:WOS:001186638000001;EI检索号:25218393);影响因子:6. 3996.
14. Wanxiang Yao (姚万祥)*, Qi Yue, L. Cao, Lijie Ren, Leijie Jiang, Xiang Kong**, Weijun Gao. The impact of spectral distribution on photovoltaic power generation and its quantitative evaluation model. Applied Energy. 358 (2024) :122581. (SCI一区);影响因子:11. 2.
15. Zhengrong Jiang, Weijun Gao, Wanxiang Yao (姚万祥)*. Research on the wind environment in an enclosed courtyard: Effect of the opening position, size and wind angle. Urban Climate. 52 (2023):101737. (SCI二区检索号:001111797700001);影响因子:6. 4.
16. Yi Liu, Wanxiang Yao (姚万祥)*, Weijun Gao. Thermal environment evaluation and thermal comfort zone deviation ——a case study of Chinese seaweed house in summer. Journal of Building Engineering. 78 (2023): 107703. (SCI二区检索号:001077656500001; EI检索号: 20233814745989);影响因子:6. 4.
17. Wanxiang Yao (姚万祥)*, Xiangru Kong, Jie Xu, Leijie Jiang, Wanfeng Tian, Weijun Gao. New solar radiation transmittance models of transparent envelope based on spectral splitting and their influence on building heat gain [J]. Journal of Building Engineering. 76(2023): 107291. (SCI二区检索号:001045251300001; EI检索号: 20232814383559);影响因子:6. 3996.
18. Wanxiang Yao (姚万祥)*, Chunze Liu, Xiangru Kong, Zhigang Zhang, Yan Wang, Weijun Gao. A systematic review of heat pipe applications in buildings [J]. Journal of Building Engineering. 76(2023): 107287. (SCI二区检索号:001048959400001; EI检索号: 20233014432445);影响因子:6. 3996.
19. Fan Fei, Luyao Wang, Yan Wang, Wanxiang Yao (姚万祥)* , Hiroatsu Fukuda**, Yuling Xiao, Lei Tian, Tongtong Ji. A new method for evaluating the synergistic effect of urban water body and vegetation in the summer outdoor thermal environment [J]. Journal of Cleaner Production. 414(2023): 137680. (SCI一区检索号: 001016826100001);影响因子:11. 1.
20. Yan Wang, Qiwei Dong, Huikun Guo, Liyuan Yin, Weijun Gao, Wanxiang Yao (姚万祥)*, Lixin Sun. Indoor thermal comfort evaluation of traditional dwellings in cold region of China: A case study in Guangfu Ancient City [J]. Energy and Buildings. 288(2023): 113028. (SCI二区检索号: 000975547000001; EI检索号: 20231413853085);影响因子:6. 7000.
21. Chen Xu, Yan Wang*, Jinghao Hui, Luyao Wang, Wanxiang Yao (姚万祥)**, Lixin Sun. Study on winter thermal environmental characteristics of the atrium space of teaching building in China's cold region [J]. Journal of Building Engineering. 67(2023): 105978. (SCI二区检索号: 001010827100001; EI检索号: 20230913659089);影响因子:6. 3996.
22. 张志刚,刘莹,姚万祥*,空气源热泵热水器在寒冷地区冬季的能效分析,太阳能学报,2023年1月.
23. 张志刚,苏珂,姚万祥*,热管置入式墙体在实际建筑中的传热特性研究,太阳能学报,2022年10月.
24. Wanxiang Yao (姚万祥)*, Xiangru Kong, Ai Xu, Puyan Xu, Yan Wang, Weijun Gao. New models for the influence of rainwater on the performance of photovoltaic modules under different rainfall conditions [J]. Renewable and Sustainable Energy Reviews.173(2023):113119. (SCI一区检索号: 000909786200001; EI检索号: 20225213299951);影响因子:16. 798.
25. Wanxiang Yao (姚万祥)*, Xiaorui Li, Weixue Cao, Guodong Li, Lijie Ren, Weijun Gao. Research on the influence of indoor thermal environment and activity levels on thermal comfort in protective clothing [J]. Energy and Buildings. 279(2022): 112681. (SCI二区检索号: 000895075900006; EI检索号: 20224813199273);影响因子:7. 2014.
26. Wanxiang Yao (姚万祥)*, Xiangru Kong, Xiao Han, Yan Wang, Jingfu Cao, Weijun Gao. Research on the efficiency evaluation of heat pipe PV/T systems and its applicability in different regions of China [J]. Energy Conversion and Management. 269(2022): 116136. (SCI一区检索号: 000860504800007; EI检索号: 20223612690307);影响因子:11. 533.
27. Wanxiang Yao (姚万祥)*, Xiao Han, Yu Huang, Zhimiao Zheng, Yan Wang, Xiao Wang. Analysis of the influencing factors of the dust on the surface of photovoltaic panels and its weakening law to solar radiation -A case study of Tianjin [J]. Energy. 256(2022): 124669. (SCI一区检索号: 000854015200003; EI检索号: 20222712329902);影响因子:8. 857.
28. Zhigang Zhang, Qiaoli Liu, Wei Zhang, Wanxiang Yao (姚万祥)*. Research on temperature distribution characteristics and energy saving potential of wall implanted with heat pipes in heating season [J]. Renewable Energy. 195(2022):1037-1049. (SCI一区检索号: 000830769100007; EI检索号: 20222712329159);影响因子:8. 634.
29. Wanxiang Yao (姚万祥)*, Kang Zhang, Weixue Cao*, Xianli Li, Yan Wang, Xiao Wang. Research on the correlation between solar radiation and sky luminance based on the principle of photothermal integration [J]. Renewable Energy. 194(2022):1326-1342. (SCI一区检索号: 000822701300008; EI检索号: 20222512258462);影响因子:8. 634.
30. Zhigang Zhang, Yu Wang, Wanxiang Yao (姚万祥)*, Feng Gao, Chunhui Shou. Effect of thermo-physical parameters on heat transfer characteristics of the wall implanted with heat pipes[J]. Applied Thermal Engineering. 210(2022):118375. (SCI二区检索号:000788227500004;EI检索号: 20221311837641);影响因子:6. 465.
31. Wanxiang Yao (姚万祥)*, Wanfeng Tian, Jiacheng Shang, Haiyan He, Jiajun Dong, Weixue Cao. Distribution Characteristics of Transmitted Diffuse Solar Radiation on the Indoor Surface [J]. Journal of Thermal Science. 31(2021):1939-1947. (SCI三区检索号: 000801117000002; EI检索号: 20222212183304);影响因子:2. 031.
32. Gang Su, Shuangyang Zhang, Wanxiang Yao (姚万祥)*, Mengru Hu, Haodong Hao. Study on the evaluation method of diffuse radiation models—taking 5 typical cities in China as examples [J]. Energy and Built Environment.4.2(2023):236-243.(EI检索号: 20223712743198).
33. Gang Su, Shuangyang Zhang, Mengru Hu, Wanxiang Yao (姚万祥)*, Ziwei Li, Yue Xi. The modified layer-by-layer weakening solar radiation models basedon relative humidity and air quality index [J]. Energy. 2021, 239: 122488. (SCI一区检索号:000753479800007);影响因子:8. 857.
34. Zhigang Zhang, Ming Wu, Wanxiang Yao (姚万祥)*. Performance of the wall implanted with heat pipes on indoor thermal environment [J]. Indoor and Built Environment. 2021, 31(4): 878-894. (SCI三区检索号:000683958200001);影响因子:3. 067.
35. Wanxiang Yao(姚万祥)*, Chunfeng Xu, Shujie Pan. Reply to the letter on the clear-sky ASHRAE radiation model related to [The modified ASHRAE model based on the mechanism of multi-parameter coupling][J]. Energy Conversion & Management. 2020; 214: 112823. (SCI一区检索号:000534066900004;EI检索号:20202008654394);影响因子:11. 533.
36. Wanxiang Yao (姚万祥)*, Chunfeng Xu, Jun Zhao, Xiao Wang, Yan Wang, Xianli Li, Jingfu Cao. The modified ASHRAE model based on the mechanism of multi-parameter coupling[J]. Energy Conversion and Management. 2020, 209: 112642. (SCI一区检索号:000524307600050;EI检索号:20200908240326);影响因子:11. 533.
37. Wanxiang Yao (姚万祥)*, Zhimiao Zheng, Jun Zhao, Xiao Wang, Yan Wang, Xianli Li, Jidong Fu. The factor analysis of fog and haze under the coupling of multiple factors -- taking four Chinese cities as an example[J]. Energy Policy. 2020, 137: 111138. (SCI一区检索号:000515439900071; EI检索号:20195107876181);影响因子:7. 576.
38. Qun Zhao, Wanxiang Yao (姚万祥)*, Chunxiao Zhang*, Xiao Wang, Yan Wang. Study on the influence of fog and haze on solar radiation based on scattering-weakening effect. Renewable Energy. 134(2019): 178-185. (SCI一区检索号:000456760900017; EI检索号:20184806153388);影响因子:8. 634.
39. Wanxiang Yao (姚万祥), Chunxiao Zhang*, Haodong Hao, Xiao Wang, Xianli Li. A support vector machine approach to estimate global solar radiation with the influence of fog and haze. Renewable Energy. 128(2018): 155-162. (SCI一区检索号:000437079600013;EI检索号:20182305288460);影响因子:8. 634.
40. Wanxiang Yao (姚万祥), Chunxiao Zhang*, Xiao Wang, Zhigang Zhang, Xianli Li, Hanyu Di. A new correlation between global solar radiation and the quality of sunshine duration in China. Energy Conversion & Management. 164(2018):579-587. (SCI一区检索号:000430882100049;EI检索号:20181204923108);影响因子:11. 533.
41. Wanxiang Yao (姚万祥)*, Chunxiao Zhang, Xiao Wang, Jingsi Sheng, Yanbiao Zhu, Suli Zhang. The research of new daily diffuse solar radiation models modified by air quality index (AQI) in the region with heavy fog and haze. Energy Conversion and Management. 139(2017):140-150. (SCI一区检索号:000397683900012,EI检索号:20170903394696);影响因子:11. 533.
42. Wanxiang Yao (姚万祥)*, Zhengrong Li, Xiao Wang, Qun Zhao, Zhigang Zhang, Lin Lin. A simplified model exploration research of new anisotropic diffuse radiation model. Energy Conversion and Management.126(2016):724-735. (SCI一区检索号:000385326400064,EI检索号:20163502763821);影响因子:11. 533.
43. Wanxiang Yao (姚万祥), Zhengrong Li*, Tongbin Xiu, Yuan Lu, Xiaobiao Li. New decomposition models to estimate hourly global solar radiation from the daily value. Solar Energy. 120(2015):87-99. (SCI二区检索号:000362142100009,EI检索号:20153101094488);影响因子:7. 188.
44. Wanxiang Yao (姚万祥)*, Zhengrong Li. Reply to “On the correct use of the Gueymard diffuse radiation model for tilted surfaces” by Christian A. Gueymard. Energy Conversion and Management. 101(2015):789-794. (SCI一区检索号:000358271100075,EI检索号:20153101087864);影响因子:11. 533.
45. Wanxiang Yao (姚万祥), Zhengrong Li*, Yuyan Wang, Fujian Jiang, Lingzhou Hu. Evaluation of global solar radiation models for Shanghai, China [J]. Energy Conversion and Management. 84(2014):597–612. (SCI一区检索号:000338601100060,EI检索号:20142217772931);影响因子:11. 533.
46. Wanxiang Yao (姚万祥), Zhengrong Li*, Qun Zhao, Yuan Lu, Ruiyang Lu. A new anisotropic diffuse radiation model [J]. Energy Conversion and Management. 95(2015):304-313. (SCI一区检索号:000352169300028,EI检索号:20151000592182);影响因子:11. 533.
47. 姚万祥,李峥嵘*,赵群,等。几种散射辐射模型精度的对比[J]. 同济大学学报(自然科学版). 42(2014):937-943. (EI检索号:20142917947297).
48. 李峥嵘,姚万祥*,赵群,等。水平面日太阳散射辐射模型对比研究[J].太阳能学报. 34(2013):794-799. (EI检索号:20133516670822).
49. 姚万祥*,李峥嵘,陆瑞阳,等。基于各向异性太阳辐射的遮阳控制策略研究[J]. 西安建筑科技大学学报(自然科学版). 2013(05):681-687(CSCD收录).
50. Wanxiang Yao (姚万祥), Zhengrong Li*, Yuan Lu, Fujian Jiang, Cui Li. New models for separating hourly diffuse and direct components of global solar radiation[C]. ISHVAC261(2014):653-663.
51. 姚万祥*,李峥嵘,李翠,等。各种天气状况下太阳辐射照度与太阳光照度关系[J]. 同济大学学报(自然科学版). 41(2013):784-788.(EI检索号:20132716471498).
52. 李峥蝾,姚万祥,李翠. lsotropic diffuse radiation models a review. ICEE.
53. 李峥蝾,姚万祥,李翠. The development and present situation of solar diffuse radiation model . ICEE.
54. Wanxiang Yao (姚万祥),Cui Li,Tongbin Xiu,Wenxiao Dong,Minggang Luo,Bin Cao. A case study of low carbon energy plan analysis. ICETCE.
55. 姚万祥,张志刚,赵树兴,张建,刘金祥, 毛细管辐射空调系统双表面传热的研究. 建筑热能通风空调.
56. 姚万祥,张志刚,赵树兴,杜雪娜,张建. 毛细管辐射空调系统运行的经济性分析. 煤气与热力.
57. 姚万祥,张志刚,赵树兴. 砂加气混凝土墙体节能能性分析. 煤气与热力.
58. Li,W Zhou,Y Wang,S Miao,Wanxiang Yao (姚万祥),W Gao. Interpretable deep learning framework for hourly solar radiation forecasting based on decomposing multi-scale variations. Applied Energy. 377(2025)124409. (SCI一区检索号:WOS:001312164400001;EI检索号:20243717018541);影响因子:10. 1001.
59. K Liu,J Jiang,K Takasu,Y Zhang,K Zu,W Gao,R Yu,Wanxiang Yao (姚万祥). Carbon removal flotation performance and economic analysis of different coal fly ash using waste fried oil as a collector. Separation and Purification Technology. 354(2025)129131. (SCI一区检索号:WOS:001294931600001;EI检索号:20243316874547);影响因子:8. 1000.
60. F Fei,Y Xiao,L Wang,Y Wang,H Fukuda,Wanxiang Yao (姚万祥),H Yu,Q Dong. A novel approach for quantifying the influence intensity of urban water and greenery resources on microclimate for efficient utilization. Sustainable Cities and Society. (2024)105597. (SCI一区检索号:WOS:001284070400001;EI检索号:20242716571181);影响因子:10. 5006.
61. L Tian,Wanxiang Yao (姚万祥),ZA Liu,Q Shen,L Zhang,F Fei,Y Xia,H Fukuda. Effectiveness of enhanced roof ventilation unit (ERU) based on venturi cap in different wind environments and new evaluation models:A numerical study. Journal of Building Engineering. 87(2024)109135. (SCI二区检索号:WOS:001222757200001;EI检索号:25346207);影响因子:6. 7000.
62. C Weixue,Z Xudong,Wanxiang Yao (姚万祥),R Mengnan,Z Qiuli,C Zizhe,S Feng. Experimental study on the cooling performance of medical protective clothing coupled with phase-change cold storage materials. Applied Thermal Engineering. 243(2024)122607. (SCI二区检索号:WOS:001173393700001;EI检索号:24830216);影响因子:6. 1004.
63. T Wang,D Wang,W Yao,Wanxiang Yao (姚万祥),C Wang,F Jia,Y Liu. Analysis of asymmetric thermal sensation under the coupling effect of temperature difference in multiple parts of human body. Journal of Building Engineering. 84(2024)108598. (SCI二区检索号:WOS:001181656900001;EI检索号:20240715537606);影响因子:6. 7000.
64. X Wang,Y Zhou,Wanxiang Yao (姚万祥),Y Xia,T Xu,H Yang,H Xie,W Gao. The Challenge of the Ground Heat Exchangers:A review of heat transfer efficiency. Energy Conversion and Management. 302(2024)118115. (SCI一区检索号:WOS:001169945800001;EI检索号:24676238);影响因子:9. 8996.
65. Y Zhou,W Gao,T Kato,Wanxiang Yao (姚万祥),C Shi,J Wang. Investigating key factors influencing consumer plastic bag use reduction in Nanjing, China:A comprehensive SEM-ANN analysis. Process Safety and Environmental Protection. 181(2024)395-406. (SCI二区检索号:WOS:001127670400001;EI检索号:20234915159304);影响因子:6. 9002.
66. F Fei,Y Wang,L Wang,H Fukuda,Wanxiang Yao (姚万祥). Influence of greenery configuration on summer thermal environment of outdoor recreational space in elderly care centers-Building and Environment. Building and Environment. 245(2023)110857. (SCI一区检索号:WOS:001084123600001;EI检索号:20233914797670);影响因子:7. 1000.
67. Hongbin Zhao,Xingru Kong, Wanxiang Yao (姚万祥), Xuening Fei,Jiaxuan Zhao,Shuxing Zhao,Tianle Feng. Control technology of pathogenic biological aerosol: Review and prospect.[J].Building and Environment. 243(2023)110679.(SCI一区检索号:W0S:001051567000001,EI检索号:20233214499008) 影响因子:7.1000.
68. Fan Fei, Yan Wang, Luyao Wang, Hiroatsu Fukuda, Wanxiang Yao (姚万祥), Yue Zhou, Xiaohan Dong. Mechanisms of urban blue-green infrastructure on winter microclimate using artificial neural network[J]. Energy & Buildings. 2023. 293. 113188. (SCI二区检索号:W0S:001011220700001,EI检索号:23875538) 影响因子:6.6002.
69. Luyao Wang, Yan Wang , Fan Fei , Wanxiang Yao (姚万祥), Lixin Sun . Study on winter thermal environment characteristics and thermal comfort of university classrooms in cold regions of China[J]. Energy & Buildings. 291(2023) 113126. (SCI二区检索号:W0S:000998701400001,EI检索号:23663746) 影响因子:6.6002.
70. You Li, Yafei Wang, Wanxiang Yao (姚万祥), Weijun Gao, Hiroatsu Fukuda, Weisheng Zhou. Graphical decomposition model to estimate hourly global solar radiation considering weather stochasticity[J]. Energy Conversion and Management. 086(2023)116719.(SCI一区检索号:W0S:001010588200001,EI检索号:23660566) 影响因子:9.8996.
71. Yafei Wang, Weijun Gao, You Li, Fanyue Qian, Wanxiang Yao (姚万祥). Techno-economic analysis of the transition toward the energy self-sufficiency community based on virtual power plant.Frontiers in Energy Research. 11(2023):1010846. (SCI四区检索号:WOS:000935959700001;EI检索号:20230813627525);影响因子:2.6002.
72. Xianli Li, Xinya Zhang, Zhiyuan Wang, Changfeng Wang , Wanxiang Yao (姚万祥), Xin Xu , Shaojuan Zheng. Dust accumulation effect of glazing cover inner surface on the performance of transpired solar air collector. [J]. Renewable Energy. 195(2022)648-656.(SCI 区检索号: ,EI检索号: ) 影响因子:9.0002.
73. Xianli Li, Shaojuan Zheng*, Gang Tian, Lian Zhang, Wanxiang Yao (姚万祥). A new energy saving ventilation system assisted by transpired solar air collectors for primary and secondary school classrooms in winter[J]. Building and Environment. 2020;177;106895. (SCI一区检索号:000550148800015,EI检索号:20201708572042);影响因子:7. 1000.
74. Weixue Cao, Xudong Zhang, Wanxiang Yao (姚万祥), Run Sun, Yutong Du, Quanbin Shi, Zipeng Li. Comparative study on ventilation and air conditioning system schemes based on virus pollution control in hospital infusion room. Aerobiologia. 39.4(2023)429-439.(SCI三区检索号W0S:001075185600001) 影响因子:7. 1000.
75. Fan Fei, Yan Wang*, Wanxiang Yao (姚万祥), Weijun Gao, Luyao Wang. Coupling mechanism of water and greenery on summer thermal environment of waterfront space in China's cold regions [J]. Building and Environment. 214(2022):108912. (SCI一区检索号: 000780275300005; EI检索号: 20220911736365);影响因子:7. 1000.
76. Xianli Li*, Hao Qin, Yan Zhang, Wanxiang Yao (姚万祥), Yan Li, Huamin Liu. Dust effect on the optical-thermal properties of absorber plate in a transpired solar air collector[J]. Energy Conversion and Management. 169(2018):13–21. (SCI一区检索号:000436885900002,EI检索号:20182105219793);影响因子:9.8996.
77. Jiaxin Wang, Junwei Li*, Min Zhang*, Baohang Zhang, Zhehui Li, Yuting Wang,Yulong Wu, Qianjin Zhang, Wanxiang Yao (姚万祥). Preparation of Rare Earth Two - dimensional Nano Thin Film Using PET as Carrier. Micro and Nano Letters. 13(2018):344-346. (SCI四区检索号:000426547200016,EI检索号:20181004882856);影响因子:1.4999.
78. Xianli Li, Hao Qin, Zhanping You, Wanxiang Yao(姚万祥). Prediction of the particles collection and pressure-drop characteristics across fibrous media [J]. Science and technology for the built environment. 24(2018):638-647. (SCI四区检索号:000436865600009,EI检索号:20181204924746);影响因子:1.7001.
专利及软件著作权:
1. 发明专利,“一种用于装配式辐射空调系统的模块化吊顶”(专利号:ZL 201910510723.9),第一发明人;
2. 发明专利,“一种送风量可控的全方位送风装置”(专利号:ZL 201811463895.7),第一发明人;
3. 发明专利,“一种变径圆管连接装置”(专利号:ZL 201811463901.9),第一发明人;
4. 种送风量可控的全方位送风装发明专利,“一种快速拆装式变径风管连接器”(专利号:ZL 201811463909.5),第一发明人;
5. 发明专利,“磁流体空调系统”(专利号:ZL 201811213670.6),第一发明人
6. 发明专利,“太阳能光伏-光热-热风一体化集热装置”(专利号:ZL 201811170098.X),第一发明人;
7. 发明专利,“太阳能光热、光伏及空调一体化系统”(专利号:ZL20181 1035927.3),第一发明人;
8. 发明专利,“一种便携式太阳能电池测试装置”(专利号:ZL 201810932997.2),第一发明人;
9. 发明专利,“自清洁光热光伏一体化隔热通风可透光玻璃屋顶”(专利号:ZL 201810452248.X),第一发明人;
10. 发明专利,“自动保温隔热可通风围挡装置”(专利号:ZL 201810092614.5),第一发明人;
11. 发明专利,“太阳能海水蒸发、浓缩、结晶一体化装置”(专利号:ZL 201711018836.4),第一发明人;
12. 发明专利,“高精度定轴距可旋转的人工光源测试平台”(专利号:ZL 201710707127.0),第一发明人;
13. 发明专利,“ 可发电调光隔热通风遮阳的装置”(专利号:ZL 201710631356.9),第一发明人;
14. 发明专利,“全朝向多角度倾斜面太阳辐射自动测量装置”(专利号:ZL 201710448480.1),第一发明人;
15. 发明专利,“自动卷轴式易拆高密封智能防雾霾纱窗”(专利号:ZL 201710107520.6),第一发明人;
16. 发明专利,“全天候光热光伏一体化自动控制热管热水器”(专利号:ZL 201710001712.9),第一发明人;
17. 发明专利,“一种渐缩渐扩喷管式热管太阳能热水器”(专利号:ZL 201610938764.4),第一发明人;
18. 发明专利,“一种可拆卸式快速制热加湿除尘散热器”(专利号:ZL 201610911101.3),第一发明人;
19. 发明专利,“一种仿自然风多维度双通道可调节无叶风扇”(专利号:ZL 201610861824.7),第一发明人;
20. 发明专利,“基于BIM建筑能耗的模拟方法及系统”(专利号:ZL 202311240738.0),第三发明人;
21. 发明专利,“可移动式多功能集热箱”(专利号:ZL 201711339420.2),第四发明人;
22. 发明专利,“基于光致发光原理的被动式节能增产大棚” (专利号:ZL 202010810821.7),第二发明人;
23. 发明专利,“一种梯级利用温差发电的太阳能-燃气复合三联供系统”(专利号:ZL 201910303340.4),第三发明人;
24. 实用新型专利,“智能多功能温度空气质量调控窗”(专利号:ZL 201721721033.0),第一发明人;
25. 实用新型专利,“高精度可定位全自动三维可调太阳辐射测试装置”(专利号:ZL 201920001211.5),第一发明人;
26. 实用新型专利,“移动式太阳能冷热电三联供智能拖挂车厢”(专利号:ZL 202120356507.6),第一发明人;
27. 实用新型专利,“基于冷能梯级利用的超低温送风装置”(专利号:ZL 202120356506.1),第一发明人;
28. 实用新型专利,“基于气动输配的冰蓄冷空调系统”(专利号:ZL 201721887642.3),第一发明人;
29. 实用新型专利,“一种家用除螨温控适体空调床”(专利号:ZL 201822036087.4),第一发明人;
30. 实用新型专利,“多能互补梯级利用的氢-太阳能冷热电三联供系统”(专利号:ZL 202121679132.3),第一发明人;
31. 实用新型专利,“一种移动式模块化高精度人工气候室”(专利号:ZL 202122984072.2),第一发明人;
32. 实用新型专利,“可移动模块化辐射屏蔽墙”(专利号:ZL 201721363963.3),第三发明人;
33. 实用新型专利,“基于荷叶疏水性原理的自清洁太阳能光伏集热系统”(专利号:ZL 201721402724.4),第一发明人;
34. 实用新型专利,“光致发光流体节能照明装置”(专利号ZL 201821553040.9),第一发明人;
35. 实用新型专利,“一种智能化超低温辐射吊顶”(专利号:ZL 202123359645.9),第一发明人;
36. 实用新型专利,“一种微型便携式生物质制气制油装置”(专利号:ZL 202020998105.1),第一发明人;
37. 实用新型专利,“基于太阳能分光谱综合利用的高效聚光型系统”(专利号:ZL 202120075312.4),第一发明人;
38. 实用新型专利,“基于智能控制的增产型太阳能光伏温室大棚”(专利号:ZL 202020998247.8),第一发明人;
39. 实用新型专利,“模块化、自清洁、可旋转的太阳能屋面装置”(专利号ZL 202020998188.4),第一发明人;
40. 实用新型专利,“模块化移动式全自动空间扫描测试装置”(专利号:ZL 202022556917.3),第一发明人;
41. 实用新型专利,“一种用于大型空调系统的多级复叠式制冷系统”(专利号:ZL 201920001211.5),第一发明人;
42. 实用新型专利,“管路快速修复器”(专利号:ZL 201822009730.4),第一发明人
43. 实用新型专利,“高效跟踪式太阳能集热及采光照明一体化装置”(专利号:ZL 201721142619.1),第一发明人;
44. 实用新型专利,“太阳能-热管一体化热风采暖装置”(专利号:ZL 201721123419.1),第一发明人;
45. 实用新型专利,“ 冷却-绝热-遮阳一体化天窗”(专利号:ZL 201922393884.2),第一发明人;
46. 实用新型专利,“一种模块化可调温、换气、除湿的智能防护服套装”(专利号:ZL 202122821955.1),第一发明人;
47. 实用新型专利,“一种微型便携式生物质制气制油装置”(专利号:ZL 202020998105.1),第一发明人;
48. 实用新型专利,“移动式室内微环境调控机器人”(专利号:ZL 201721721077.3),第一发明人;
49. 实用新型专利,“一种转轮式二氧化碳固化装置”(专利号:ZL 202122764559.X),第一发明人;
50. 实用新型专利,“智能多功能温度空气质量调控窗”(专利号:ZL 201721721033.0),第一发明人;
51. 实用新型专利,“一种闭式空调冷凝水梯级利用装置”(专利号:ZL 202121694457.9),第一发明人;
52. 实用新型专利,“太阳能光热耦合喷射-吸附式制冷系统”(专利号:ZL 202220004641.4),第一发明人;
53. 实用新型专利,“可调节遮阳控温装置”(专利号:ZL 201920693904.5),第一发明人;
54. 实用新型专利,“智能室内环境检测系统”(专利号:ZL 201820274862.7),第一发明人;
55. 实用新型专利,“太阳能-磁流体换热装置”(专利号:ZL 201821368986.8),第一发明人;
56. 实用新型专利,“基于智能穿戴设备的室内环境控制系统”(专利号:ZL 201820796978.7),第一发明人;
57. 实用新型专利,“基于热舒适性的地板辐射供冷送风系统”(专利号:ZL 201721847714.1),第一发明人;
58. 实用新型专利,“基于人体热舒适的智能调节太阳能炕”(专利号:ZL 202021952670.0),第一发明人;
59. 实用新型专利,“一种模块化可拆卸高安全性电热膜辐射采暖系统”(专利号:ZL 201820428303.7),第一发明人;
60. 实用新型专利,“一种自校正可移动式光热一体化检测装置”(专利号:ZL 202020071877.0),第三发明人;
61. 实用新型专利,“一种多功能高效室内空气净化机”(专利号:ZL 202010497279.4),第三发明人;
62. 实用新型专利,“基于智能机械手臂的六自由度全方位搬运机器人” (专利号:ZL 201820080071.0),第三发明人;
63. 实用新型专利,“一种太阳能集热器玻璃盖板的干燥式智能清洁装置” (专利号:ZL 202020105240.9),第三发明人;
64. 实用新型专利,“一种凹球面型太阳能空气集热器” (专利号:ZL 201921398139.0),第三发明人;
65. 实用新型专利,“一种重力辅助热管与热电冷却器相结合的散热柜” (专利号:ZL 202120627525.3),第三发明人;
66. 实用新型专利,“可收缩发电调光双层皮玻璃幕墙” (专利号:ZL 201721712822.8),第三发明人;
67. 实用新型专利,“一种发射吸附式智能越障擦窗机器人” (专利号:ZL 202010497247.4),第三发明人;
68. 实用新型专利,“一种低温环境用游艇码头防冰装置” (专利号:ZL 202020001509.9),第三发明人;
69. 实用新型专利,“一种模块化智能控温太阳能热管阵列干燥装置” (专利号:ZL 202120075313.9),第三发明人;
70. 实用新型专利,“集群式太阳能面板的智能化高效清洁装置” (专利号:ZL 201721717838.8),第四发明人;
71. 实用新型专利,“定时定向传感器搭载平台” (专利号:ZL 201720749366.8),第二发明人;
72. 软件著作权,“太阳辐射基本参数计算程序V3.0”(证书号:软著登字第1484541号);
73. 软件著作权,“建筑能耗快速评估软件V1.0”(证书号:软著登字第2063269号);
74. 软件著作权,“基于神经网络的太阳散射辐射求解Matlab工具箱V1.0”(证书号:软著登字第2250609号);
75. 软件著作权,“基于神经网络算法的太阳散射辐射预测及评估MATLAB工具箱 V1.0”(证书号:软著登字第2250616号);
76. 软件著作权,“模型性能的不同评定方法MATLAB工具箱V1.0”(证书号:软著登字第3219796号);
软件著作权,“基于GPI的模型性能评价软件V1.0”(证书号:软著登字第3322988号)。
奖励
1. 2024年中国商业联合会科技进步奖二等奖——适应气候变化的建筑自然能利用与光热智能调控关键技术研究及应用(第一);
2. 2019年天津市科技进步奖二等奖——太阳能高效利用及智能检测关键技术研究与应用(第一);
3. 2020-2021年度天津市工程专业学位优秀指导教师奖(唯一)
4. 2020年中国铁路工程集团有限公司科学技术奖一等奖——地下综合交通枢纽环境控制综合技术研究与示范(第五);
5. 2017年天津市知识产权创新创业发明与设计大赛二等奖——太阳能资源的开发利用及其检测装置(第一);
6. 2018年天津市知识产权创新创业发明与设计大赛二等奖——基于热管的太阳能光热高效利用技术(第一);
7. 2018年天津市知识产权创新创业发明与设计大赛三等奖——太阳能辐射测量和防护装置及其开发利用(第一);
8. 2020年天津市知识产权创新创业发明与设计大赛三等奖——基于热舒适性的辐射供冷、采暖系统(第一);
9. 2020年天津市知识产权创新创业发明与设计大赛三等奖——室内微环境智能检测及调控装置(第一);
10. 2020年天津市知识产权创新创业发明与设计大赛三等奖——新型高效节能空调制冷系统关键技术(第一);
11. 2020年天津市知识产权创新创业发明与设计大赛优秀奖——太阳能光伏-光热-热风一体化的高效复合利用关键技术(第一);
12. 2019青年“生态创想·绿色行动”环保大赛三等奖——热管在太阳能热传输中的高效利用(指导老师);
13. 第十五届挑战杯天津市大学生课外学术科技作品竞赛二等奖——太阳能高效利用及智能检测关键技术(指导老师);
14. 2019年天津城建大学“互联网+”大学生创新创业大赛(主赛道)三等奖——各向异性散射辐射对透明围护结构传热的影响研究(指导老师);
15. 2019年天津城建大学“互联网+”大学生创新创业大赛(主赛道)三等奖——寒冷干燥地区积尘对光伏系统发电性能的影响探究(指导老师);
16. 2020年“挑战杯”天津城建大学大学生创业计划竞赛三等奖——基于智能控制的增产型太阳能光伏温室大棚(指导老师);
第七届中国国际“互联网+”大学生创新创业大赛天津赛区比赛高教主赛道铜奖——移动式太阳能冷热电三联供智能拖挂车厢(指导老师)。