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[2] ʹÓÃÕß¿É¿ØÐ͹«¹²½¨ÖþȺÌåÓÃÄÜÐÐΪ½»»¥×÷ÓûúÀí¼°½ÚÄÜÇý¶¯²ßÂÔÑо¿£¬ÉÂÎ÷Ê¡´´ÐÂÄÜÁ¦Ö§³Å¼Æ»®-ÇàÄê¿Æ¼¼ÐÂÐÇÏîÄ¿£¬2023KJXX-043£¬2023~2024

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[4] Î÷±±Å©´å·Ö²¼Ê½¶àÄÜ»¥²¹ÏµÍ³¹©ÐèË«ÏòñîºÏ»úÖÆÑо¿£¬¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÇàÄêÏîÄ¿£¬52008328£¬2021~2023

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[1] Ye Zhang, Xi Luo*, Yongkai Sun, Xiaojun Liu. Impact of air-conditioning usage behavior of student groups on air-conditioning load simulation in university dormitories. Energy and Buildings. 303(2024)113765.

[2] ÁõÑ޷壬ÑîÑà×Ó£¬ÂÞÎ÷*. ¹ØÖÐÅ©´å²»Í¬ÀàÐͼÒÍ¥Ïļ¾ÈáÐÔÓÃÄܸººÉ¶àÄ¿±êÓÅ»¯µ÷¶ÈÑо¿. Ì«ÑôÄÜѧ±¨. 2023,44(8):110-118 

[3] Ning Liu, Menglin Xing, Xi Luo*, Xiaojun Liu. Characterising the effect of model dormitory on energy-saving  intention of college students through the lens of reference points. Journal of Building Engineering. 77(2023)107488.

[4] ÁõÑ޷壬ÄÂæã¬ÂÞÎ÷*£¬ºúóãÑ©£¬ºúµÂÔó. ¹âÕÕ×ÊÔ´¸»¼¯ÇøÌ«ÑôÄܼ¯Öй©ÈÈϵͳÈÝÁ¿ÅäÖü°ÈÈÍø¹Ü¾¶Ð­Í¬Éè¼ÆÓÅ»¯Ñо¿. Ì«ÑôÄÜѧ±¨. 2023,44(1):85-93

[5] ÁõÏþ¾ý, ÂÞÎ÷, ¸ßäìæç, Íõ¸Õ. È«ÃæÍƽøÏç´åÕñÐËʵÏÖ¹²Í¬¸»Ô£µÄÏØÓòÑù±¾. ¾­¼ÃÒª²Î. 2023,11,25-27.

[6] Xi Luo*, Yaru Gao, Xiaojun Liu, Yongkai Sun, Na Li, Jianghua Liu. ACHRA: A novel model to study the propagation of clean heating acceptance among rural residents based on social networks. Applied Energy.333£¨2023£©120664.

[7] Xi Luo*, Yanzi Yang, Yanfeng Liu, Tianliang Zhao. Classification of energy use patterns and multi-objective optimal scheduling of flexible loads in rural households. Energy and Buildings.183£¨2023£©112811.

[8] Xi Luo*, Min Zhang, Xiaojun Liu. Analysis of factors affecting rural residents' willingness to adjust energy use behaviors based on a multi-group analysis. Energy Reports.9£¨2023£©523-538.

[9] Yanfeng Liu, Ting Mu, Xi Luo*. Multi-objective optimization of equipment capacity and heating network design for a centralized solar district heating system. Building Simulation. 2023,(16)51-67.

[10] Yanfeng Liu, Hui Ming, Xi Luo*, Liang Hu, Yongkai Sun. Timetabling Optimization of Classrooms and Self-study Rooms in University Teaching Buildings Based on the Building Controls Virtual Test Bed Platform Considering Energy Efficiency. Building Simulation. 2023,(16)263-277.

[11] ÁõÑ޷壬Ã÷»Û£¬ÂÞÎ÷*£¬ºúÁÁ£¬ËïÓ¿­. ¼äЪ¹©Å¯Ä£Ê½Ï¸ßУ½Ìѧ½¨Öþ¶àÄ¿±êÅÅ¿ÎÓÅ»¯Ñо¿. Ì첩×ۺϿËÂÞµØÑÇappѧ±¨£¨×ÔÈ»¿Æѧ°æ£©. 2022,54£¨5£©710-717.

[12] ËïÓ¿­£¬ÂÞÎ÷*£¬ÍõµÇ¼×£¬ÁõÑ޷壬Áõ¼Óƽ. Î÷±±µØÇøÄÜÔ´Éú²úÏû·ÑÌØÕ÷Ó뷢չ·¾¶Ñо¿. Öйú¹¤³Ì¿Æѧ. 2022,24(6)1-14.

[13] Tingting Zhou, Xi Luo*, Xiaojun Liu, Guangchuan Liu, Na Li, Yongkai Sun, Menglin Xing, Jianghua Liu. Analysis of the inflfluence of the stay-at-home order on the electricity consumption in Chinese university dormitory buildings during the COVID-19 pandemic. Energy and Buildings. 277 (2022) 112582.

[14] Na Li, Xi Luo*, Fuzhou Luo, Dingyu Zhang, Jianhua Liu, Yaru Gao, Menglin Xing, Tingting Zhou, Kexin Zhu. Exploring the influencing factors of Chinese rural households' clean heating choice consdiering the attitude-behavior gap based on two-level classification methods. Energy and Buildings, 273(2022)112357.

[15] ÁõÑ޷壬ÁõÕýѧ£¬ÂÞÎ÷*£¬ºúÁÁ£¬ÍõÑÇÐÇ. »ùÓÚÈáÐÔ¸ººÉµÄ¹ÂÁ¢¶àÄÜ»¥²¹½¨ÖþÄÜԴϵͳÓÅ»¯Éè¼Æ. Ì«ÑôÄÜѧ±¨. 2022,43(6):24-32.

[16] Yanfeng Liu, Peng Wang, Xi Luo*, Min Zhang, Tianliang Zhao, Yanzi Yang, Yongkai Sun, Xiaodan Liu, Jianghua Liu. Analysis of flexbile energy use behavior of rural residents based on two-stage questionnaire: A case study in Xi'an China. Energy and Buildings, 269(2022)112246.

[17] Menglin Xing, Xi Luo*, Xiaojun Liu, Zhenchuan Ma, Na Li. Impacts of Building Energy Consumption on Energy-Saving Intention of College Students. Buildings. 2022,12(769).

[18]ÁõÑÞ·å,ÍõÑÇÐÇ£¬ÂÞÎ÷*£¬ºúóãÑ©£¬ÁõÕýѧ. »ùÓÚ¶¯Ì¬ÔËÐвßÂÔµÄÌ«ÑôÄÜ·Ö²¼Ê½¹©ÄÜϵͳÉè¼ÆÔËÐÐÁªºÏÓÅ»¯. Ì«ÑôÄÜѧ±¨. 2022,43(5):244-251.

[19] Jianghua Liu, Xi Luo*, Xiaojun Liu, Na Li, Menglin Xing, Yaru Gao, Yanfeng Liu. Rural residents' acceptance of clean heating: An extended technology acceptance model considering rural residents' livelihood capital and perception of clean heating. Energy and Buildings. 267(2022)112154.

[20] Xi Luo*, Yongkai Sun, Xiaojun Liu, Yaru Gao, Haili Sun, Yanfeng Liu. Course timetable optimization for a university teaching building considering the building energy efficiency and time-varying thermal perception of students. Building and Environment. 219(2022)109175.

[21] Xi Luo*, Wence Shi, Yusen Jiang, Yanfeng Liu, Jinwen Xia. Distributed peer-to-peer energy trading based on game theory in a community microgrid considering ownership complexity of distributed energy resources. Journal of Cleaner Production. 351(2022)133572.

[22] Na Li, Xi Luo*, Menglin Xing, Jianghua Liu, Yaru Gao, Tingting Zhou, Min Zhang, Jin Li, Yanfeng Liu. Exploring the formation conditions and dynamic trends of rural residents' clean heating behaviour in northern China based on reinforcement learning. Journal of Cleaner Production. 344(2022)131142.

[23]Yongkai Sun, Xi Luo*, Hui Ming. Analyzing the Time-Varying Thermal Perception of Students in Classrooms and Its Influencing Factors from a Case Study in Xi'an, China. Buildings. 2022,12(75).

[24]Yanfeng Liu, Deze Hu, Xi Luo*, Ting Mu. Design Optimization of Centralized-Decentralized Hybrid Solar Heating System Based on Building Clustering. Energies. 2022,15(1019).

[25]Xiaojun Liu, Min Zhang, Xi Luo*, Peng Wang, Ting Mu, Hui Ming, Deze Hu, Tianliang Zhao, Yanzi Yang. Impact of socio-economic characteristics on energy consumption behaviors of suburban rural residents: evidence from on-site surveys in the Guanzhong Plain of China. International Journal of Low-Carbon Technologies. 2022,17,38-57.

[26]Xi Luo*, Yanfeng Liu, Xiaojun Liu. Bi-level multi-objective optimization of design and subsidies for standalone hybrid renewable energy systems: A novel approach based on artificial neural network. Journal of Building Engineering. 41(2021)102744.

[27]Xi Luo*, Yanfeng Liu, Pingan Feng, Yuan Gao, Zhenxiang Guo. Optimization of a solar-based integrated energy system considering interaction between generation, network, and demand side. Applied Energy. 294(2021)116931.

[28]Yanfeng Liu, Weihua Zhou, Xi Luo*, Dengjia Wang, Xiaxue Hu, Liang Hu. Design and operation optimization of multi-source complementary heating system based on air source heat pump in Tibetan area of Western Sichuan, China. Energy and Buildings. 242(2021)110979.

[29]Xi Luo*, Jinwen Xia, Yanfeng Liu. Extraction of dynamic operation strategy for standalone solar-based  multi-energy systems: A method based on decision tree algorithm. Sustainable Cities and Society. 70(2021)102917.

[30]Yongkai Sun, Xi Luo*, Xiaojun Liu. Optimization of a university timetable considering building energy efficiency: An approach based on the building controls virtual test bed platform using a genetic algorithm. Journal of Building Engineering. 35(2021)102095.

[31]Yanfeng Liu, Yaxing Wang, Xi Luo*. Design and operation optimization of distributed solar energy system based on dynamic operation strategy. Energies. 2021,14(69).

[32]Xi Luo*, Yanfeng Liu. A multiple-coalition-based energy trading scheme of hierarchical integrated energy systems. Sustainable Cities and Society. 64(2021)102518.

[33]Xi Luo*, Xiaojun Liu, Yanfeng Liu, Jiaping Liu, Yaxing Wang. Benefit-based cost allocation for residentially distributed Photovoltaic systems in China: A cooperative game theory approach. Frontiers of Engineering Management. 2021,8(2):271-283.

[34]ÁõÑÞ·å,ÖÜ뻪,ÂÞÎ÷*,ºúóãÑ©. ´¨Î÷¸ßɽϿ¹ÈÇø¿ÕÆøÔ´ÈȱöàÔ´»¥²¹¹©ÈÈϵͳÈÈÔ´·½°¸±ÈÑ¡¼°ÓÅ»¯Éè¼Æ. Ì«ÑôÄÜѧ±¨. 2021,42(10):478-486.

[35]Xi Luo*,Yanfeng Liu, Xiaojun Liu. Multi-objective optimizaiton and cost-based output pricing of a standalone hybrid energy system integrated with desalination. The Engineering Economist. (2020)1853862.

[36]Xiaodan Liu, Xiaojun Liu, Xi Luo*, Mengmeng Wang, Hanliang Fu, Bojun Wang, Yongkai Sun, Wei Hu. Analysis on the influencing mechanism of informational policy instrument on adopting energy consumption monitoring technology in public buildings. Energy Efficiency. 13(2020)1485-1503.

[37]Xi Luo*, Yanfeng Liu, Jiaping Liu, Xiaojun Liu. Energy scheduling for a three-level integrated energy system based on energy hub models: A hierarchical Stackelberg game approach. Sustainable Cities and Society. 52(2020)101814.  

[38]Xi Luo*, Yanfeng Liu, Jiaping Liu, Xiaojun Liu. Optimal design and cost allocation of a distributed energy resource (DER) system with district energy networks: A case study of an isolated island in the South China Sea. Sustainable Cities and Society. 51(2019)101762.

[39]Xi Luo*, Jiaping Liu, Yanfeng Liu, Xiaojun Liu. Bi-level optimization of design, operation, and subsidies for standalone solar/diesel multi-generation energy systems. Sustainable Cities and Society. 43(2019)101592.

[40]Xi Luo*, Ying Zhu, Jiaping Liu, Yanfeng Liu. Design and analysis of a combined desalination and standalone CCHP (combined cooling heating and power) system integrating solar energy based on a bi-level optimization model. Sustainable Cities and Society. 43(2018)166-175.

[41]Xi Luo*, Jiaping Liu. Cost allocation of residential distributed PV project based on cooperative game theory. International Journal of Earth Sciences and Engineering. 2016, 9(5):2106-2112.

[42]ÂÞÎ÷*, Áõ¼Óƽ. »ùÓÚÏÄÆÕÀûÖµµÄ¾Óס½¨Öþ·Ö²¼Ê½¹â·ü·¢µçϵͳ·ÑÓ÷Ö̯·ÖÎö, ͳ¼ÆÓëÐÅÏ¢ÂÛ̳,2016,31(11):75-80.

[43]Xi Luo*, Jiaping Liu. Economic Analysis of Residential Distributed Solar Photovoltaic, Frontiers of Engineering Management,2015,2(2):125-130.

[44]ÂÞÎ÷*, Áõ¼Óƽ. ¾Óס½¨Öþ·Ö²¼Ê½¹â·ü·¢µçϵͳ¾­¼ÃÐÔ·ÖÎö,Ì첩×ۺϿËÂÞµØÑÇappѧ±¨,2015,47(3):437-441.

[45]ÂÞÎ÷*, ¬²ÅÎä. ³ÇÕò»¯½ø³ÌÖоÓס½¨ÖþʹÓÃÊÙÃüµÄÓ°ÏìÒòËØ·ÖÎö, Ì첩×ۺϿËÂÞµØÑÇappѧ±¨,2015,47(6):920-924.

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