2025年
1. 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.基于多智能体共识的集中供暖系统的分布式控制策略https://doi.org/10.1016/j.applthermaleng.2024.125136
2. 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.使用废弃炸油作为捕收剂的不同煤粉灰的碳去除浮选性能及经济分析https://doi.org/10.1016/j.seppur.2024.129131
3. 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.基于分解多尺度变化的小时级太阳辐射预测的可解释深度学习框架https://doi.org/10.1016/j.apenergy.2024.124409
2024年
1. 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. 光谱分布对光伏发电的影响及其定量评估模型https://doi.org/10.1016/j.apenergy.2023.122581
2. 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. 日本木结构独立住宅冬季室内热环境评价与热适应性研究。https://doi.org/10.1016/j.csite.2024.104126
3. 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.建筑物内表面传输太阳辐射的新分布模型https://doi.org/10.1016/j.jobe.2024.108952
4. 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):120436.一种基于光热集成原理的新各向异性太阳辐射模型https://doi.org/10.1016/j.renene.2024.120436
5. 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. 一种基于光热集成原理的全天辐射分布新改进方法https://doi.org/10.1016/j.apenergy.2024.123480
6. 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.微尺度上粉尘沉积规律分析及其对光伏模块年度性能的影响https://doi.org/10.1016/j.energy.2024.132448
7. 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.气候变化对冰蓄冷系统性能影响的机制分析https://doi.org/10.1016/j.est.2024.113184
8. 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. 基于光谱响应带的新一代太阳能光伏发电效率模型https://doi.org/10.1016/j.apenergy.2024.123936
9. 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.使用辐射频率分布评估太阳能光伏系统的发电能力https://doi.org/10.1016/j.jobe.2024.110981
10. 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. 一种新的定量方法用于评估夏季园艺绿化对户外热环境影响 - 以日本住宅花园为例https://doi.org/10.1016/j.scs.2024.105962
11. 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.从热需求特征到准确评估:探索中国社区老年人户外热舒适度的季节性差异https://doi.org/10.1016/j.uclim.2024.102220
12. 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.研究影响中国南京消费者减少使用塑料袋的关键因素:综合SEM-ANN分析https://doi.org/10.1016/j.psep.2023.11.043
13. 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.地源热交换器的挑战:热传递效率的综述https://doi.org/10.1016/j.enconman.2024.118115
14. 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. 人体多部位温差耦合作用下的非对称热感觉分析https://doi.org/10.1016/j.jobe.2024.108598
15. 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.医用防护服结合相变冷储材料的冷却性能实验研究https://doi.org/10.1016/j.applthermaleng.2024.122607
16. 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.基于文丘里罩的增强型屋顶通风装置(ERU)在不同风环境下的效能及新的评估模型:一项数值研究https://doi.org/10.1016/j.jobe.2024.109135
17. 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)105597.一种量化城市水资源和绿地对微气候影响强度的新方法,以实现高效利用https://doi.org/10.1016/j.scs.2024.105597
2023年
1. 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 Build Environment.
4.2(2023):236-243.关于漫射辐射模型评价方法的研究——以中国5个典型城市为例https://doi.org/10.1016/j.enbenv.2021.12.001
2. 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.不同降雨条件下雨水对光伏模块性能影响的新模型https://doi.org/10.1016/j.rser.2022.113119
3. 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.中国寒冷地区教学楼中庭空间冬季热环境特性研究https://doi.org/10.1016/j.jobe.2023.105978
4. 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. 中国寒冷地区传统住宅室内热舒适性评价:以广福古城为例https://doi.org/10.1016/j.enbuild.2023.113028
5. 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. 评估夏季室外热环境城市水体与植被协同效应的新方法https://doi.org/10.1016/j.jclepro.2023.137680
6. 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.建筑物中热管应用的系统综述https://doi.org/10.1016/j.jobe.2023.107287
7. 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.基于光谱分割的透明围护结构新型太阳辐射透射模型及其对建筑热增益的影响https://doi.org/10.1016/j.jobe.2023.107291
8. 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. 热环境评估与热舒适区偏差——中国海藻房夏季案例研究https://doi.org/10.1016/j.jobe.2023.107703
9. 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.封闭庭院风环境研究:开口位置、大小和风向的影响https://doi.org/10.1016/j.uclim.2023.101737
10. 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.基于病毒污染控制的医院输液室通风和空调系统方案的比较研究
11. 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.基于虚拟电厂的能源自给自足社区过渡的技术经济分析
12. 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.考虑天气随机性的估计小时太阳辐射的图形分解模型https://doi.org/10.1016/j.enconman.2023.116719
13. 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.中国寒冷地区大学教室冬季热环境特征及热舒适性研究https://doi.org/10.1016/j.enbuild.2023.113126
14. 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. 城市蓝绿基础设施对冬季微气候影响的机制使用人工神经网络https://doi.org/10.1016/j.enbuild.2023.113188
15. 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.病原生物气溶胶的控制技术:回顾与展望https://doi.org/10.1016/j.buildenv.2023.110679
16. 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.老年中心户外休闲空间绿化配置对夏季热环境的影响-建筑与环境https://doi.org/10.1016/j.buildenv.2023.110857
2022年
1. 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. 热管植入墙体内热传递特性受热物理参数影响的效果https://doi.org/10.1016/j.applthermaleng.2022.118375
2. 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.基于光热集成原理的太阳辐射与天空亮度相关性研究https://doi.org/10.1016/j.renene.2022.05.139
3. 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. 供暖季节内置热管墙体的温度分布特征及节能潜力研究https://doi.org/10.1016/j.renene.2022.06.054
4. 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.光伏板表面灰尘影响因素分析及其对太阳辐射减弱规律的研究——以天津为例https://doi.org/10.1016/j.energy.2022.124669
5. 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.热管光伏/热系统效率评估研究及其在中国不同地区的适用性https://doi.org/10.1016/j.enconman.2022.116136
6. 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.关于室内热环境和活动水平对防护服热舒适性影响的研究https://doi.org/10.1016/j.enbuild.2022.112681
7. 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.中国寒冷地区滨水空间夏季热环境的水绿耦合机制https://doi.org/10.1016/j.buildenv.2022.108912
8. 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.玻璃覆盖层内表面积尘对穿孔式太阳能空气集热器性能的影响https://doi.org/10.1016/j.renene.2022.06.084
2021年
1. 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.热管植入墙体对室内热环境的影响
2. 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. 基于相对湿度和空气质量指数修改的逐层减弱太阳辐射模型https://doi.org/10.1016/j.energy.2021.122488
3. 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.室内表面传输的散射太阳辐射的分布特性
2020年
1. 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.多因素耦合作用下的雾霾因子分析——以中国四个城市为例https://doi.org/10.1016/j.enpol.2019.111138
2. 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.回复关于[基于多参数耦合机制的改进ASHRAE模型]的晴空辐射模型的信件https://doi.org/10.1016/j.enconman.2020.112823
3. 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. 基于多参数耦合机制的ASHRAE模型的改进https://doi.org/10.1016/j.enconman.2020.112642
4. 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;106895.一种由太阳能空气集热器辅助的新型节能通风系统,用于冬季的中小学教室https://doi.org/10.1016/j.buildenv.2020.106895
2019年
1. 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. 基于散射减弱效应的雾和霾对太阳辐射影响的研究https://doi.org/10.1016/j.renene.2018.11.027
2018年
1. 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. 中国太阳辐射与日照时长质量之间的一个新相关性https://doi.org/10.1016/j.enconman.2018.03.037
2. 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): 155-162.一种利用支持向量机方法估算受雾和霾影响的太阳辐射的方法https://doi.org/10.1016/j.renene.2018.05.069
3. 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.纤维介质中颗粒收集和压降特性的预测
4. 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. 使用PET作为载体制备稀土二维纳米薄膜
5. 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. 气流式太阳能空气集热器中吸收板的尘埃效应对其光学-热性能的影响https://doi.org/10.1016/j.enconman.2018.05.023
2017年
1. 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关于研究在重雾和霾区域,通过空气质量指数(AQI)修正的新的日常漫射太阳辐射模型https://doi.org/10.1016/j.enconman.2017.02.041
2016年
1. 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. 一种新型各向异性漫射辐射模型的简化探索研究https://doi.org/10.1016/j.enconman.2016.08.037
2015年
1. 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. 一种新的各向异性漫射辐射模型https://doi.org/10.1016/j.enconman.2015.01.016
2. 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.对Christian A. Gueymard所著的“关于倾斜表面正确使用Gueymard漫射辐射模型”的回复https://doi.org/10.1016/j.enconman.2015.05.052
3. 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. 新的分解模型用于从日值估算每小时的太阳辐射https://doi.org/10.1016/j.solener.2015.05.038
2014年
1. 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. 上海地区太阳辐射模型的评估https://doi.org/10.1016/j.enconman.2014.04.017