20篇代表性英文论文：

[1] Xiong Yaxuan*, Tian Xi, He Miao, Ren Jing, Xu Qian, Wu Yuting, Zhao Yanqi, Ding Yulong. Effects of CO2 capture on waste concrete/sodium nitrate form-stable phase change composites for energy storage. Journal of Cleaner Production, 2024 440:140896. (IF=11.1)
[2] XIONG Yaxuan*, ZHANG Aitonglu, YANG Yang, et al. Effect of carbon capture on carbide slag-steel slag shape-stable phase change materials for thermal energy storage[J]. Renewable energy, 2024,235: 121251. (IF=9.0)
[3] XIONG Yaxuan*, LI Shuo, REN Jing, et al. Effect of ratio of desulfurization gypsum to carbide slag on low-carbon phase change composites for energy storage[J]. Journal of Energy Storage, 2024, 91.DOI:10.1016/j.est.2024.112086. (IF=8.9)
[4] XIONG Yaxuan*, Li Shuo, Ren Jing, et al. Effect of carbon capture on desulfurization gypsum/carbide slag phase-change composites for waste removal and renewable energy storage[J]. Journal of Environmental Chemical Engineering, 2024, 12(3).DOI:10.1016/j.jece.2024.112484. (IF=7.4)
[5] XIONG Yaxuan*, HE Miao, ZHANG Aitonglu, et al. Municipal sludge-based low-carbon phase-change composite towards energy storage: Fabrication and investigation[J]. Applied thermal engineering, 2024,256:124073. (IF=6.1)
[6] Xiong Yaxuan*, Yang Yang, Zhang Aitonglu, Ren Jing, Xu Qian, Wu Yuting, Zhao Yanqi, Investigation on low-carbon shape-stable phase change composite by steel slag and carbide slag for solar thermal energy storage. Journal of Energy Storage, 2023, 76:109736. (IF=9.4)
[7] Xiong Yaxuan*, Tian Xi, Li Xiang, Ren Jing, Xu Qian, Wu Yuting, Ding Yulong. Effects of expanded graphite on NaNO3/semi-coke ash shape-stable phase change composites for thermal energy storage. Journal of Energy Storage, 2023, 72:108648. (IF=9.4)
[8] Xiong Yaxuan*, Zhang Aitonglu, Peng Xiaodong, Yao Chenhua, Wang Nan, Wu Yuting, Xu Qian, Ma Chongfang. Investigation of a sole gas expander for gas pressure regulation and energy recovery. Energy, 2023,281:128258.(IF=9)
[9] Xiong Yaxuan*, Wang Huixiang, Ren Jing, Nevzat Akkurt, Xu Qian, Nie Binjian, Li Chuan, Ding Yulong. Carbide slag recycling to fabricate shape-stable phase change composites for thermal energy storage. Journal of Energy Storage, 2023, 60:106694. (IF=9.4)
[10] Xiong Yaxuan*, Yao Chenhua, Ren Jing, Wu Yuting, Xu Qian, Nie Binjian, Li Chuan, Ding Yulong. Waste semicoke ash utilized to fabricate shape-stable phase change composites for building heating and cooling. Construction and Building Materials, 2022, 361: 129638.(IF=7.4)
[11] Xiong Yaxuan*, Song Chaoyu, Ren Jing, Jin Yuhe, Nie Binjian, Xu Qian, Wu Yuting, Li Chuan, Li Haimeng, Ding Yulong. Sludge-incinerated ash based shape-stable phase change composites for heavy metal fixation and building thermal energy storage, Process Safety and Environmental Protection, 2022, 162:2022.(IF=7.8)
[12] Xiong Yaxuan*, Wang Huixiang, Wu Yuting, Zhang Jinhua, Li Haimeng, Xu Qian, Zhang Xingxing, Li Chuan, Ding Yulong. Carbide slag based shape-stable phase change materials for waste recycling and thermal energy storage, Journal of Energy Storage, 2022, 50:104256. (IF=9.4)
[13] Xiong Yaxuan*, Wang Huixiang, Wang Zhenyu, Wu Yuting, Xu Qian, Wang Gang, Li Chuan, Ding Yulong, Ma Chongfang. Insights into the Enhancement Mechanisms of Molten Salt Nanofluids. International Journal of Photoenergy, 2022, 2022:4912922. (IF=3.2)
[14] Xiong Yaxuan*, Wang Zhenyu, Sun Mingyuan, Wu Yuting, Xu Peng, Xu Qian, Li Chuan, Ding Yulong, Ma Chongfang. Enhanced Thermal Energy Storage of Nitrate Salts by Silica Nanoparticles for Concentrating Solar Power. International Journal of Energy Research, 2021. (IF=4.6)
[15] Xiong Yaxuan*, Sun Mingyuan, Wu Yuting, Xu Peng, Xu Qian, Li Chuan*, Ding Yulong, Ma Chongfang. Effects of Synthesis Methods on Thermal Performance of Nitrate Salt Nanofluids for Concentrating Solar Power. Energy & Fuel, 2020,34:11606-11619. (IF=5.3)
[16] Xiong Yaxuan*, Wang Zhenyu, Wu Yuting, Xu Peng, Ding Yulong, Chang Chun, Ma Chongfang. Performance enhancement of bromide salt by nano-particle dispersion for high-temperature heat pipes in concentrated solar power plants[J]. Applied Energy, 2019, 237:171-179. (IF=11.2)
[17] Xiong Yaxuan, An Shuo, Xu Peng, Ding Yulong, Li Chuan, Zhang Qunli, Chen Hongbin. A novel expander-depending natural gas pressure regulation configuration: Performance analysis[J]. Applied Energy, 2018, 220:21-35. (IF=11.2)
[18] Xiong Yaxuan, Bo Li, Qiang Meng, Wu Yuting, Zhang Xingxing, Xu Peng, Ma Chongfang. A characteristic study on the start-up performance of molten-salt heat pipes: Experimental investigation[J]. Experimental Thermal & Fluid Science, 2017, 82:433-438. (IF=3.2)
[19] Xiong Yaxuan*, Shi Jianfeng, Wu Yuting, Ma Chongfang, Chen Hongbing. Preparation and investigation on density and surface tension of quaternary bromides for concentrating solar power[J]. Solar Energy Materials & Solar Cells, 2016, 157:709-715. (IF=6.9)
[20] Xiong YaXuan, Wu YuTing, Ma ChongFang, Modibo Kane Traore & Zhang YeQiang. Numerical investigation of thermal performance of heat loss of parabolic trough receiver[J]. Science in China Series E: Technological Sciences, 2010, 53(2):444-452. (IF=1.27)

主要中文论文：

1. 樊颜搏，熊亚选*，李想，田曦，杨洋.基于遗传算法的建筑用能多目标优化应用进展[J].综合智慧能源，2024，46（6）.
2. 熊亚选*，尹心成，药晨华等. 兰炭灰固碳对复合相变储热材料性能的影响[J].热力发电，2024，53（7）.
3. 李烁，熊亚选*，胡晓.熔盐熔化过程传热特征数值模拟研究[J].煤气与热力，2024,44（5）.
4. 熊亚选*，尹心成，宋超宇等.污泥焚烧炉渣/硝酸钾复合相变储热材料制备及性能[J].储能科学与技术，2024,13（10）
5. 田曦，熊亚选*，任静，赵彦琦，晋世豪，李烁，杨洋，丁玉龙. 碳捕捉对废弃混凝土复合相变储热材料性能的影响 [J]. 储能科学与技术, 2023, 12(12): 3709-19.
6. 田曦，熊亚选*，任静，赵彦琦，李烁，杨洋，丁玉龙.固碳对废弃混凝土复合相变储热材料性能的影响 [J]. 储能科学与技术, 2023, 12(12): 1-13.
7. 杨洋，熊亚选*，任静，赵彦琦，李烁，田曦，丁玉龙.碳捕捉对电石渣-钢渣复合相变储热材料性能的影响 [J]. 储能科学与技术, 2023, 12(12): 3690-8.
8. 胡子亮，闫小克，熊亚选*，张明宇.诱导方式对锌凝固温坪的影响 [J]. 计量学报, 2023, 1-7.（网络首发）
9. 张岩岩，熊亚选*，陈亚辉，全瑞星，程广贵，赵彦琦，丁玉龙.相变填充床储热系统研究与应用进展 [J]. 储能科学与技术, 2023, 12: 3852-72.
10. 李季桐，王刚，熊亚选*，徐钱.不同工质单效吸收式制冷系统的能量和?分析 [J]. 化工进展, 2023, 42: 104-12.
11. 孟强，田曦，熊亚选*.废旧发泡混凝土定型相变材料制备及热性能研究 [J]. 综合智慧能源, 2023, 1-7.
12. 熊亚选*，李烁，胡晓，彭笑东，张慧，吴玉庭.谷电储热熔盐熔化过程传热储热特性 [J]. 2022供热工程建设与高效运行研讨会, 2022, 11.
13. 王辉祥，熊亚选*，任静，药晨华，宋超宇，吴玉庭，丁玉龙.Na_2CO_3/电石渣复合相变储热材料制备与性能 [J]. 储能科学与技术, 2022, 11: 3819-27.
14. 熊亚选*，王慧慧，宋超宇，吴玉庭，马重芳.纳米熔盐传热储热分布均匀性研究.中国科技论文，2022,17（7）823-830.
15. 熊亚选*，王辉祥，胡子亮，药晨华，宋超宇，丁玉龙.电石渣骨架定型相变材料储热性能研究 [J]. 综合智慧能源, 2022, 44: 71-5.
16. 宋超宇，熊亚选*，张金花，金宇贺，药晨华，王辉祥，丁玉龙. 污泥焚烧炉渣基定型复合相变储热材料的制备和性能.化工学报，2022,73（5）：2279-2287.
17. 药晨华，熊亚选*，任静，宋超宇，王辉祥，丁玉龙.硝酸钠/兰炭灰复合相变储热材料的制备及性能 [J]. 复合材料学报, 2022, 40: 300-9.
18. 熊亚选*，胡子亮，王辉祥，药晨华，宋超宇，丁玉龙.废旧混凝土基定型相变储热材料的储热研究 [J]. 华电技术, 2021, 43: 86-91.
19. 熊亚选*，药晨华，宋超宇，王辉祥，胡子亮，丁玉龙.低成本兰炭灰骨架定型相变储热材料的制备及性能研究 [J]. 华电技术, 2021, 43: 62-7.
20. 熊亚选*，宋超宇，药晨华，王慧慧，王辉祥，胡子亮，吴玉庭，丁玉龙.纳米流体稳定性研究综述 [J]. 华电技术, 2021, 43: 68-74.
21. 熊亚选*，钱向瑶，程磊，冯振赫，徐鹏，王刚.高温矿井制冷降温技术应用与分析 [J]. 煤气与热力, 2021, 41: 13-9+42.
22. 熊亚选*,张慧,吴玉庭,丁玉龙.纳米颗粒对二元硝酸盐表面张力和密度的影响[J].储能科学与技术,2021,10(04): 1297-1304.
23. 熊亚选*,王楠,冯振赫,彭笑东,徐胜勇,徐鹏,吴玉庭,马重芳.新型天然气膨胀机调压性能初步实验[J].中国科技论文,2021,16(06):680-686.
24. 熊亚选*，王楠，徐鹏，王刚.膨胀机燃气调压的发电性能研究 [J]. 煤气与热力, 2021, 41: 58-63+70+101.
25. 熊亚选*,钱向瑶,李烁,孙明远,王振宇,吴玉庭,徐鹏,丁玉龙,马重芳.制备方法对纳米熔盐储热性能及形成机理的影响[J].化工学报,2021,72(05):2857-2868.
26. 张慧,李锐,熊亚选*,冷光辉,吴玉庭,徐鹏,马重芳.SiO2纳米颗粒对二元硝酸盐表面张力的影响[J].化工新型材料,2021,49(01):157-161.
27. 陈睿哲，熊亚选*，张慧，冷光辉，王慧慧.储能供热熔盐换热器设计及运行特性分析 [J]. 华电技术, 2020, 42: 54-9.
28. 王刚,熊亚选*,吴玉庭,徐鹏,冷光辉,马重芳.高温熔盐热管的启动和等温性能[J].化工学报,2020,71(11):5099-5106.
29. 张昊清，魏东，熊亚选*.住宅小区燃气调压系统预测控制策略 [J]. 电子技术与软件工程, 2020, 229-32.
30. 熊亚选*,王振宇,徐鹏,吴玉庭,丁玉龙,马重芳.添加纳米MgO和SiO2颗粒对二元碳酸盐(Li2CO3-K2CO3)比热容的影响[J].化工学报,2018,69(12):4959-4965.
31. 熊亚选*,王振宇,徐鹏,吴玉庭,丁玉龙,马重芳.添加纳米SiO_2对单组分及二元硝酸盐热物性的影响[J].化工学报,2018,69(10):4418-4426.

5项代表性发明专利

（1）固体废旧料固碳复合储热材料的制备系统及方法，202211314611.4，授权发明

（2）污泥基定型相变储热材料的制备系统及方法，202110601621.5，授权发明

（3）高温高湿矿井的井下掘进巷道降温除湿系统，201810870163.3，发明授权

（4）连续供水式房间供热控温与热计量装置及方法，2017105149590，发明授权

（5）一种基于螺杆式膨胀机的燃气流量计量装置及方法，2017105149571，发明授权