Basic Information

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韩小渠 副教授,博导

能源与动力工程学院,热能动力与控制工程系

Contact Information

邮    箱:hanxiaoqu@mail.xjtu.edu.cn

地    址:陕西省西安市碑林区咸宁西路28号,能源与动力工程学院,热能动力与控制工程系

邮    编:710049

电    话:15902970979

办公室:东三甲304​​

Honorary Title

全国大学生能源经济学术创意大赛一等奖、最佳碳交易与碳市场研究奖(指导教师)(2024)
全国能源动力类专业百篇优秀毕业论文(设计)(2023)
西安交通大学本科生优秀毕业论文(设计)(2023)
陕西省普通本科高校高等教育教学成果奖特等奖(2022)
西安交通大学第十七届教学成果奖特等奖(2021)
全国大学生能源经济学术创意大赛一等奖(优秀指导教师)(2022)
研究生国家奖学金(2021)
全国大学生能源经济学术创意大赛二等奖(优秀指导教师)(2021)
西安交通大学优秀专业实习队(指导教师)(2020)

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News

Work Experience

2021.07-至今            西安交通大学,能源与动力工程学院,副教授
2017.07-2021.06       西安交通大学,能源与动力工程学院,讲师、博士后
2015.10-2016.10       雅典国立理工大学(National Technical University of Athens),国家公派联合培养
2011.09-2017.06       西安交通大学,能源与动力工程学院,热能动力与控制工程系,博士,导师:严俊杰 教授
2007.09-2011.07       西安交通大学,能源与动力工程学院,学士

Research Fields

主要研究方向为热力系统节能减污降碳、核能综合利用及灵活性、新型储能技术规划及评价、能源系统生命周期碳核算、低阶燃料(褐煤/生物质/固废等)高效清洁利用、高效动力循环等。

Academic Exchange

代表性期刊论文:

1. Han XQ*, Dai YB, Guo XH, Braimakis K, Karellas S, Yan JJ. A novel dual-stage intercooled and recuperative gas turbine system integrated with transcritical organic Rankine cycle: System modeling, energy and exergy analyses[J]. Energy, 2024, 305, 132252 (SCI: 001267094800001; EI: 20242816672077; IF: 9.0).

2. Li YX, Han XQ*, Nie L, Deng YL, Yan JJ, Roumpedakis, TC, Kourkoumpas DS, Karellas S. Life cycle environmental hotspots analysis of typical electrochemical, mechanical and electrical energy storage technologies for different application scenarios: Case study in China[J]. Journal of Cleaner Production, 2024, 466, 142862 (SCI: 001257641000001; EI: 20242516263682; IF: 9.4).

3. Su MQ, Han XQ*, Dai YB, Wang JS, Liu JP, Yan JJ. Investigation on recirculated regenerative solid desiccant-assisted dehumidification system: Impact of system configurations and desiccant materials[J]. Energy, 2024, 286, 129629 (SCI: 001119003200001; EI: 20240215352280; IF: 9.0)

4. Han XQ, Chang HZ, Wang C*, Tai J, Karellas S, Yan JJ, Song LJ, Bi ZJ. Tracking the life-cycle greenhouse gas emissions of municipal solid waste incineration power plant: A case study in Shanghai[J]. Journal of Cleaner Production, 2023, 398: 136635 (SCI: 000950586600001; EI: 20231013681790; IF: 11.1)

5. Han XQ*, Li YX, Nie L, Huang XF, Deng YL, Yan JJ, Kourkoumpas DS, Karellas S. Comparative life cycle greenhouse gas emissions assessment of battery energy storage technologies for grid applications[J]. Journal of Cleaner Production, 2023, 392: 136251 (SCI: 000994391000001; EI: 20230613555360; IF: 11.1; Google引用48; ESI高被引论文).

6. Su MQ, Han XQ*, Chang HZ, Chong DT, Liu JP, Yan JJ. Performance investigation and exergy analysis of a novel recirculated regenerative solid desiccant dehumidification system[J]. Journal of Building Engineering, 2023, 67: 106029 (SCI: 001010826200001; EI: 20230913658681; IF: 7.144).

7. Su MQ, Han XQ*, Chong DT, Wang JS, Liu JP, Yan JJ. Experimental study on the performance of an improved dehumidification system integrated with precooling and recirculated regenerative rotary desiccant wheel[J]. Applied Thermal Engineering, 2021, 199: 117608 (SCI: 000705560600005; EI: 20214010983290; IF: 5.295;).

8. Han XQ, Yuan TR, Zhang D*, Dai YB, Liu JP, Yan JJ. Waste heat utilization from boiler exhaust gases for zero liquid discharge of desulphurization wastewater in coal-fired power plants: Thermodynamic and economic analysis[J]. Journal of Cleaner Production, 2021, 308: 127328 (SCI: 000662980800002; EI: 20212010350240; IF: 9.297).

9. Han XQ, Zhang D*, Yan JJ, Zhao SR, Liu JP. Process development of flue gas desulphurization wastewater treatment in coal-fired power plants towards zero liquid discharge: Energetic, economic and environmental analyses[J]. Journal of Cleaner Production, 2020, 261: 121144 (SCI: 000533538400006; EI: 20201408369993; IF: 7.246; Google引用168; ESI热点论文、ESI高被引论文).

10. Zhang D, Han XQ*, Wang HH, Yang QZ, Yan JJ. Experimental study on transient heat/mass transfer characteristics during static flash of aqueous NaCl solution[J]. International Journal of Heat and Mass Transfer, 2020, 152: 119543 (SCI: 000528005400037; EI: 20200908214751; IF: 4.947; Advances in Engineering关键科学文章).

11. Han XQ, Chen NN, Yan JJ*, Liu JP, Liu M, Karellas S. Thermodynamic analysis and life cycle assessment of supercritical pulverized coal-fired power plant integrated with No.0 feedwater pre-heater under partial loads[J]. Journal of Cleaner Production, 2019, 233: 1106-1122 (SCI: 000479025500091; EI: 20192607088150; IF: 6.395; Google引用136; ESI热点论文、ESI高被引论文).

12. Han XQ, Liu M, Yan JJ*, Karellas S, Wang JS, Xiao F. Thermodynamic analysis of an improved flue gas pre-dried lignite-fired power system integrated with water recovery and drying exhaust gas recirculation[J]. Drying Technology, 2020, 38(15): 1971-1987 (SCI: 000470465300001; EI: 20191906896486; IF: 4.452).

13. Han XQ, Yan JJ, Karellas S, Liu M*, Kakaras E, Xiao F. Water extraction from high moisture lignite by means of efficient integration of waste heat and water recovery technologies with flue gas pre-drying system[J]. Applied Thermal Engineering, 2017, 110(5): 442-456 (SCI: 000388775600047; EI: 20163602775855; IF: 4.725).

14. Han XQ, Liu M, Wu KL, Chen WX, Xiao F, Yan JJ*. Exergy analysis of the flue gas pre-dried lignite-fired power system based on the boiler with open pulverizing system[J]. Energy, 2016, 106: 285-300 (SCI: 000378659700029; EI: 20161502211353; IF: 6.082).

15. Han XQ, Liu M, Zhai MX, Chong DT, Yan JJ*, Xiao F. Investigation on the off-design performances of flue gas pre-dried lignite-fired power system integrated with waste heat recovery at variable external working conditions[J]. Energy, 2015, 90: 1743-1758 (SCI: 000364245300050; EI: 20153001069227; IF: 6.082).

16. Han XQ, Liu M, Wang JS, Yan JJ*, Liu JP, Xiao F. Simulation study on lignite-fired power system integrated with flue gas drying and waste heat recovery - Performances under variable power loads coupled with off-design parameters in drying process[J]. Energy, 2014, 76: 406-418 (SCI: 000344444600041; EI: 20144300128525; IF: 6.082).

17. Wang AM, Han XQ, Liu M, Yan JJ, Liu JP*. Thermodynamic and economic analyses of a parabolic trough concentrating solar power plant under off-design conditions[J]. Applied Thermal Engineering, 2019, 156: 340-350 (SCI: 000472692600029; EI: 20191706818747; IF: 4.725).

18. Liu RT, Liu M, Han XQ, Yan JJ*. Drying characteristics and kinetics analyses for Yimin lignite at various temperatures[J]. Drying Technology, 2021, 39(7): 912-924. (SCI: 000515023500001; EI: 20200908242245; IF: 2.988).

19. Liu M, Xu C, Han XQ, Liu RT, Qin YZ, Yan JJ*. Integration of evaporative dryers into lignite-fired power plants: A review[J]. Drying Technology, 2020, 38(15): 1996-2014 (SCI: 000470648900001; EI: 20191906896252; IF: 2.988).

20. Liu M, Zhang XW, Han XQ, Li G*, Yan JJ. Using pre-drying technology to improve the exergetic efficiency of bioenergy utilization process with combustion: A case study of a power plant[J]. Applied Thermal Engineering, 2017, 127: 1416-1426 (SCI: 000413608400135; EI: 20173604128356; IF: 4.725).

21. Liu M, Li G*, Han XQ, Qin YZ, Zhai MX, Yan JJ. Energy and exergy analyses of a lignite-fired power plant integrated with a steam dryer at rated and partial loads[J]. Drying Technology, 2017, 35(2): 203-217 (SCI: 000393323100006; EI: 20170203235257; IF: 2.988).

22. Liu M, Wang CY, Han XQ, Li G*, Chong DT, Yan JJ. Lignite drying with solar energy: Thermodynamic analysis and case study[J]. Drying Technology, 2017, 35(9): 1117-1129 (SCI: 000404933900007; EI: 20172803928787; IF: 2.988). 

23. Liu M, Qin YZ, Yan H, Han XQ, Chong DT*. Energy and water conservation at lignite-fired power plants using drying and water recovery technologies[J]. Energy Conversion and Management, 2015, 105: 118-126 (SCI: 000363068900011; EI: 20153201111350; IF: 8.208).

24. Han XQ, Karellas S, Liu M, Braimakis K, Chen WX, Yan JJ*, Kakaras E. Integration of organic Rankine cycle with lignite flue gas pre-drying for waste heat and water recovery from dryer exhaust gas: Thermodynamic and economic analysis[J]. Energy Procedia, 2017, 105: 1614-1621 (EI: 20172503792296)

25. Han XQ, Xue ZN, Liu M, Yan JJ*, Wang JS, Chong DT, Liu JP. Simulation investigation on the dynamic characteristics of a 600 MW supercritical lignite-fired pulverized boiler[J]. Energy Procedia, 2014, 61: 1434-1437.