博士生导师
[1] Mingzhu Xia, Yanping Yuan*,Xudong Zhao, Xiaoling Cao, Zhonghua Tang. Cold storage condensation heat recovery system with a novel composite phase change material, Applied Energy,2016,175:259–268. (IF=5.613)
[2] Sun Liangliang, Li Ming, Yuan Yanping*, Cao Xiaoling, Lei Bo, Yu Nanyang. Effect of tilt angle and connection mode of PVT modules on the energy efficiency of a hot water system for high-rise residential buildings, Renewable Energy,2016,93:291-301. (IF=3.476)
[3] Yuan Yanping*, Li Tianyu, Nan Zhang, Xiaoling Cao, Xiaojiao Yang. Investigation on thermal properties of capric–palmitic–stearic acid/activated carbon composite phase change materials for high-temperature cooling application, Journal of Thermal Analysis and Calorimetry,2016,124(2):881-888. (IF=2.042)
[4] Yuan Yanping*, ZHANG Haiquan, YANG Fan, Zhang Nan, Xiaolin Cao. Inorganic Composite sorbents for water vapor Sorption: A Research Progress, Renewable & sustainable Energy Reviews,2016,54:761-776.(IF=5.901)
[5] Zujing Zhang, Yanping Yuan*, kequan Wang, Xiangkui Gao, Xiaoling Cao. Experienmental study on Influencing Factors of air curtain systemss barrier efficiency for mine refuge chamber, Process Safety and Environmental Protection,2016,102:534-546 (IF=2.551)
[6] Cui Wenlong, Yuan yanping*, Liangliang Sun, Xiaoling Cao, Xiaojiao Yang. Experimental studies on the supercooling and melting-freezing characteristics of Nano-coppersodium acetate trihydrate composite phase-change materials, Renewable Energy,2016,99:1029-1037. (IF=3.476)
[7] Yuan Yanping*, Cao Xiaoling, Xiang Bo, Du Yanxia. Effect of installation angle of fins on melting characteristics of annular unit for latent heat thermal energy storage, Solar Energy,2016,136:365–378. (IF=3.685)
[8] Yuan Yanping*, Cao Xiaoling, Wang Junqing, Sun Liangliang. Thermal interaction of multiple ground heat exchangers under different intermittent ratio and separation distance, Applied Thermal Engineering,2016,108:277–286. (IF=3.043)
[9] Zhang haiquan, Yuan Yanping*, Qingrong Sun, Xiaoling Cao, Liangliang Sun. Steady-state equation of water vapor sorption for CaCl2-based chemical sorbents and its application, Scientific Reports, Doi:10.1038/srep34115 (2016). (IF=5.228)
[10] Yuan Yanping*, zhang haiquan, Nan Zhang, Qinrong Sun,Xiaoling Cao. Effect of water content on the phase transition temperature, latent heat and water uptake of PEG polymers acting as endothermal hydroscopic materials, Journal of Thermal Analysis and Calorimetry, 2016,126(2):699-708. (IF=2.042)
[11] Yuan Yanping*, ZHANG Nan, Li Tianyu,Xiaoling Cao, Weiyue Long. Thermal performance enhancement of palmitic-stearic acid by adding graphene nanoplatelets and expanded graphite for thermal energy storage: A comparative study. Energy,2016, 97: 488-497.(IF=4.884)
[12] Zhang, Haiquan, Yuan Yanping*, Zhang Nan, Sun Qingrong, Cao Xiaoling. Core-shell microstructured nanocomposites for synergistic adjustment of environmental temperature and humidity. Scientific Reports, DOI: 10.1038/srep36974 (2016). (IF=5.228)
[13] Yuan Yanping*, Gao Xiangkui, Wu Hongwei, Zhang Zujin, Cao Xiaoling, Sun Liangliang Yu Nanyang, Coupled Cooling Method and Application of Latent Heat Thermal Energy Storage Combined with Pre-cooling of Building Envelope: Model Development and Validation, DOI: 10.1016/j.energy.2016.11.058 (2016). (IF=4.228)
[14] Zhang zhaoli, Yanping Yuan*, Haiquan Zhang, Xiaoling Cao, Liangliang Sun; Patrick E. Phelan. Thermal properties of ternary carbonate/ T-ZnOw for heat transfer in high-temperature concentrating solar power systems, Composites Part A, DOI:10.1016/j.compositesa.2016.11.026. (IF=3.719)
[15] Zujing Zhang, Yanping Yuan*, Kequan Wang. Effects of number and layout of air purification devices in mine refuge chambers. Process Safety and Environmental Protection, DOI: 10.1016/j.psep.2016.11.023. (IF=2.078)
[16] Haiquan Zhang, Yanping Yuan*, Qinrong Sun, Xiaoling Cao. Enhanced thermal energy storage performance of polyethylene glycol by using interfacial interaction of copper-based metal oxide. Advanced Engineering Materials,DOI: 10.1002/adem.201600601. (IF=1.817)
[1] Zhang Nan, Yuan Yanping*, Li Tianyu, Cao Xiaoling, Yang Xiaojiao. Study on Thermal Property of Lauric-palmitic-stearic Acid/Vermiculite Composite as Form-stable Phase Change Material for Energy Storage, Advances in Mechanical Engineering,2015,7(9):1–8. (IF=0.575)
[2] Liangliang Sun, Wenju Hu, Yanping Yuan*, Xiaoling Cao, Bo Lei.DynamicPerformance of the Shading-Type Building-Integrated Photovoltaic Claddings, Procedia Engineering,2015,121:930-937
[3] Zhaoli Zhang, Yanping Yuan*, Nan Zhang, and Xiaoling Cao. Thermophysical Properties of Some Fatty Acids/Surfactants as Phase Change Slurries for Thermal Energy Storage, Journal of Chemical and Engineering Data, 10.1021/acs.jced.5b00371.(IF=2.037)
[4] Zhang Zhaoli, Yuan Yanping*, Zhang Nan, Xiaoling Cao. Experimental investigation on thermophysical properties of capric acid-lauric acid phase change slurries for thermal storage system, Energy,2015,90:359-368 (IF=4.884)
[5] Zhang Haiquan, Yuan Yanping*, Yang Fan, Zhang Nan, Xiaoling Cao. Inorganic Composite Adsorbent CaCl2/MWNT for Water Vapor Adsorption, RSC Advances,2015,5: 38630-38639. (IF=3.84)
[6] Cao Xiaoling, Yuan Yanping*, Sun Liangliang, Lei Bo. Restoration performance of vertical ground heat exchanger with various intermittent ratios, Geothermics,2015,54: 115-121. (IF=2.949)
[7] Yuan Yanping*, Zhang Nan, Tao Wenquan, Cao Xiaoling, He Yaling. Fatty acids as phase change materials: a review, Renewable & Sustainable Energy Reviews,2014,29: 482-498. ESI highly cited paper and hot papers. (IF=5.901)
[8] Liu Cheng, Yuan Yanping*, Zhang Nan, Cao Xiaoling, Yang Xiaojiao. A novel PCM of lauric-myristic-stearic acid/expanded graphite composite for thermal energy storage, Materials Letters,2014,120:43-46. (IF=2.489)
[9] Yang Xiaojiao, Yuan Yanping*, Zhang Nan, Cao Xiaoling, Liu Cheng. Preparation and properties of myristic-palmitic-stearic acid/expanded graphite composites as phase change materials for energy storage, Solar Energy,2014,99:259-266. ESI highly cited paper. (IF=3.469)
[10] Yuan Yaguang, Yuan Yanping*, Zhang Nan. Preparation and thermal characterization of capric–myristic–palmitic acid/expanded graphite composite as phase change material for energy storage, Materials Letters.125(2014):154-157. (IF=2.489)
[11] Zhang Nan, Yuan Yanping*, Yuan Yaguang. Lauric–palmitic–stearic acid/expanded perlite composite as form-stable phase change material: Preparation and thermal properties, Energy and Buildings, 2014, 82: 505-511. (IF=2.884)
[12] Zhang Nan, Yuan Yanping*, Yuan Yaguang, Cao Xiaoling, Yang Xiaojiao. Effect of carbon nanotubes on the thermal behavior of palmitic-stearic acid eutectic mixtures as phase change materials for energy storage, Solar Energy, 2014, 110: 64-70.(IF=3.469)
[13] Zhang Nan, Yuan Yanping*, Du Yanxia, Cao Xiaoling, Yuan Yaguang. Preparation and properties of palmitic-stearic acid eutectic mixture/expande d graphite composite as phase change material for energy storage, Energy,2014,78:950-956. (IF=4.884)
[14] Zhang Nan, Yuan Yanping*, Wang Xi, Cao Xiaoling, Yang Xiaojiao, Hu Shuchun. Preparation and characterization of lauric-myristic-palmitic acid ternary eutectic mixtures/expanded graphite composite phase change material for thermal energy storage, Chemical Engineering Journal,2013,231:214-219. (IF=4.321)
[15] Yuan Yanping*, Cao Xiaoling, Sun Liangliang, Lei Bo, Yu Nanyang. Ground source heat pump system: A review of simulation in China, Renewable & Sustainable Energy Reviews,2012,16:6814-6822. (IF=5.901)
[1]白力,袁艳平,曹晓玲,王帅. 癸酸/棕榈酸相变石膏板传热特性的实验研究.材料导报,2012, 26(11):118-121. (CSCD)
[2]袁艳平,马国川,雷波,曹晓玲. 夏季最热月铁路隧道内空气温度预测用外界计算温度的选择.暖通空调,2012, 42(12):98-102.
[3]袁艳平,曹晓玲,白力,杨晓娇. 矩形单元内癸酸融化特性的数值模拟和实验研究.西南交通大学学报,2012, 47(2):236-240(EI收录:20122315093476)
[4]秦萍,袁艳平,毕海权. 工程热力学传热学教学改革及教学法研究.制冷与空调(四川),2012, (06):614-617。
[5] 袁艳平,曹晓玲,白力,杨晓娇. 矩形单元内癸酸熔化特性的数值模拟与实验.西南交通大学学报,2012.47(2):236-240.
[6]白力,袁艳平,曹晓玲,王帅. 癸酸/棕榈酸相变石膏板传热特性的实验研究.材料导报:B研究篇,2012.26(11).118-121.
[7]胡春妍,袁艳平,杨晓娇,曹晓玲,张楠. 脂肪酸二元低共熔混合物粘度的实验研究.材料导报,2013,27:113-115. (CSCD)
[8]袁艳平,雷波,马国川. 特长铁路隧道全年运行热环境模拟分析.中国科技论文,2013,8(5):441-448.
[9]王晓瑜,袁艳平,张冬洁,徐建炎. 顶吹熔炼炉余热锅炉数值模拟.中国有色冶金, 2013, (3):50-54.
[10]刘程,袁艳平,张楠,曹晓玲,杨晓娇. 脂肪酸三元低共熔混合物相变温度和潜热的理论预测.材料导报,2014, 28(1):165-168.
[11]许凯,袁艳平,曹晓玲,杨晓娇,余南阳. 建筑节能窗传热维数的数值分析.工业建筑,2014,44(supp):75-79.
[12]高祥骙,袁艳平,余南阳,曹晓玲. 矿井避难硐室热环境研究综述.煤炭科学技术,2014,42(supp):107-113.
[13]袁亚光,袁艳平,张楠,李天宇,曹晓玲. 月桂酸-棕榈酸-硬脂酸/膨胀石墨复合相变材料的制备及性能研究.化工学报,2014, 65(supp):286-292. (EI)
[14]胡春妍,袁艳平,曹晓玲,杨晓娇. 环形单元内月桂酸熔化过程的传热机制研究.化工学报,2014,65(supp):71-77. (EI)
[15]孙亮亮,袁艳平,曹晓玲,雷波. 热水型PV/T组件结构参数的敏感性分析.化工学报,2014,65(supp):235-239. (EI)
[16]汪玺,袁艳平,邓志辉,杨晓娇,曹晓玲. 相变蓄热水箱的设计与运行特性研究.太阳能学报,2014,35(4):670-676. (EI)
[17]曹晓玲,袁艳平,汪玺. 肉豆蔻酸膨胀石墨复合相变材料的制备及性能研究.太阳能学报,2014,35(8):1493-1498. (EI)
[18]汪鹏,袁艳平,邓高峰,姜波, 王权. 中韩绿色建筑评价对比分析(1):GBCC 2011与ESGB 2006.制冷与空调(四川),2014,(03):379-385。
[19]许凯,袁艳平,曹晓玲,杨晓娇. 墙体对窗户传热特性影响的数值分析.建筑科学,2014,(02):94-98+103。
[20]张亚峰,袁艳平,曹晓玲,何磊. 基于问卷调查和现场测试的麦加轻轨站台热环境研究.制冷与空调(四川),2014,(04):464-468。
[21]王帅,袁艳平. 两种不同流道构型全热交换器芯体综合性能的理论分析与对比.建筑科学,2015,31(6):52-57
[22]张文婷,袁艳平,曹晓玲,余南阳. 夏热冬冷地区供暖基准温度的影响因素分析.建筑科学,2015. 31(2):126-130
[23]邓高峰,袁艳平,王权,汪鹏,余南阳. 中韩绿色建筑评价对比分析(2):GBCC 2011与ESGB 2014.制冷与空调(四川),2015. 29(1):26-33.
[24]乔雷,袁艳平,张冬洁,曹晓玲,邓志辉. 底吹熔炼炉余热锅炉流动与传热数值模拟及结构优化.中国有色冶金,2015,4:43-48.
[25]张伟,袁艳平,贺文晟,雷波,卢军. 高原河谷地区地下水源热泵供暖系统设备选配及优化运行.建筑科学,2015,31(12):
[26]袁艳平. 第八届全国高等院校-制冷、暖通空调学科发展与教学研讨会论文集.西南交通大学出版社.2015.02
[27]胡春研,袁艳平,曹晓玲,张楠,余南阳. 偏心单元内月桂酸融化传热研究机结构优化设计.太阳能学报,2015.36(8):2008-2015.
[28]詹凯,袁艳平,孙亮亮,曹晓玲,余南阳. 太阳能热水集热器面积余倾角的组合优化.太阳能学报,2015.36(11):2651-2658.
[29]李天宇,袁艳平,张楠,曹晓玲,孙亮亮. 正癸酸/膨胀珍珠岩相变水泥板的热特性研究. 制冷与空调, 2016,30(4):483-489.
[30]崔文龙,袁艳平,杨晓娇. 硬壳电热暖手器取暖舒适温度范围研究. 制冷与空调, 2016,30(4):493-501.
[31]王权,袁艳平,邓高峰,余南阳,姜波. 新旧版《绿色建筑评价标准》的评价差异性分析—以寒冷地区某二星级绿色住宅建筑为例.建筑科学, 2016,32(2):137-142.
[32]贺文晟,袁艳平,张伟,余南阳,曹晓玲. 高原河谷地区地下水源热泵采暖经济性分析.制冷与空调, 2016,30(1):104-108
[33]袁艳平,向波,曹晓玲,张楠,孙亮亮. 建筑相变储能技术研究现状与发展. 西南交通大学学报, 2016,51(3):585-598.
[34]王帅,袁艳平. 基于TRANSYS模拟的成都地区夏季空调热排风全热回收适宜性动态分析. 暖通空调,2016,46(6):128-132
[35]王权,袁艳平,邓高峰,余南阳,姜波. 中韩绿色建筑评价标准中节能条款的对比分析. 建筑科学, 2016,32(6):159-170.
[36]张伟,袁艳平,贺文晟,雷波,卢军. 高原河谷地区地下水源热泵供暖系统设备选配及优化运行.建筑科学,2016,31(12):135-140.
[37]詹凯,袁艳平,孙亮亮. 基于灰色关联改进TOPSIS法的热水系统最优太阳能保证率[J]. 太阳能学报, 2016,37(5):1218-1226.
[38]王俊清,袁艳平,曹晓玲,秦萍. 基于混合解换热模型的地源热泵系统井群热干扰特性. 农业工程学报,2016,32(10):194-200.
[39]孙亮亮,袁艳平,姚 盼. 双水箱太阳能集中热水系统关键参数优化及建筑类型的适用性研究[J]. 太阳能学报,2016,37(10):2569-2577.
[40]欧阳丽萍,袁艳平,孙亮亮,姚盼,曹晓玲. 太阳能光伏光热系统集热器连接方式的优化.太阳能学报(已录用)
[41]崔富,袁艳平,赵君文,曹晓玲,孙亮亮. Cu含量对高温相变材料Al-Cu合金热特性的影响.化工学报(已录用)
[42]姚盼,袁艳平,孙亮亮,曾乃晖,邓志辉. 基于交互正交试验的热水系统太阳能保证率影响因素研究. 太阳能学报(已录用)。
[43]姚盼,袁艳平. 太阳能热水系统集热面积、水箱容积与倾角的组合优化.太阳能学报. (已录用)
[44]杨凡,袁艳平,张海全,张楠,曹晓玲. 复合吸附剂CaCl2/MWNT低湿环境下吸附性能的实验研究.材料导报.(已录用)
[45]崔文龙,袁艳平,孙亮亮,曹晓玲,向波. 三水合乙酸钠在相变单元的传热特性及其过冷度改善.化工学报.(已录用).
[46]向波,袁艳平,杨晓娇,曹晓玲,余南阳. 基于碳夹点分析的四川省可再生能源利用.制冷与空调.(已录用).
[47]龙伟月,袁艳平,曹晓玲,向波,孙亮亮. 基于正交试验法的二维方腔相变传热影响因素的数值分析.太阳能学报.(已录用).
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