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重庆大学能源与动力工程学院导师教师师资介绍简介-张亮

本站小编 Free考研考试/2021-10-04

姓名
张 亮
性别



所在部门
热能与动力工程系
职称
副教授

职务

联系电话


邮箱
liangzhang@cqu.edu.cn



*个人简介:
博士、副教授,博士生导师,重庆市巴渝****计划青年****。重庆大学本、硕博学位,美国宾夕法尼亚州立大学博士后。主要从事能源与环境技术中关键热物理问题、燃料电池与传输现象、废弃资源能源转化与综合利用、能源化工过程中节能减排等相关研究。主持国家级项目2项、重庆市项目3项、其他项目3项;主研国家科技部重点研发项目1项、863项目1项、美国Army Research Office项目 1项、横向项目2项; 近年来在在Chemical Engineering Journal, Journal of Power Sources, Bioresource Technology等国内外权威刊物上发表研究论文50余篇,其中SCI一区或二区论文30余篇,SCI他引300余次,其中一篇文章他引100余次。受邀撰写英文专著二章,申请发明专利20余项,获教育部自然科学奖一等奖1项、重庆大学自然科学奖一等奖1项、2015年重庆市优秀博士论文、2015年重庆大学优秀博士论文。担任Journal of Power SourcesBioresource TechnologyInternational Journal of Hydrogen Energy等多个国际期刊审稿人。参加国内外学术会议10余次,在国际会议上做口头报告5次。

*教育及工作经历:
2017/09-至今,重庆大学,能源与动力工程学院,副教授
2015/08-2017/09,重庆大学,能源与动力工程学院,讲师
2014/06-2015/07,美国宾夕法尼亚州立大学,市政与环境工程学院,博士后
2009/09-2014/06,重庆大学,能源与动力工程学院,博士
2013/04-2014/04,美国宾夕法尼亚州立大学,市政与环境工程学院,联合培养博士
2008/09-2009/07,重庆大学,能源与动力工程学院,硕士
2004/09-2008/07,重庆大学,动力工程学院,学士

*研究方向:
主要从事以下相关研究:
l 能源与环境技术中的关键热物理问题
l 燃料电池与传输现象
l 热再生电池
l 废弃资源的能源电化学转化与综合利用
l 能源化工过程中的节能减排

*研究生/本科生培养:
招收对以上方向感兴趣的博士及硕士研究生,并向优秀本科生提供助研、国创、STRP、节能减排竞赛等科研实践与训练机会。欢迎联系与交流。

*获奖及荣誉:
2019年重庆市巴渝****计划青年****
2019年教育部高等学校科学研究优秀成果奖(科学技术)自然科学奖一等奖(排名第五)
2018年重庆大学先进工作者
2018年重庆大学工会工作积极分子
2017年重庆大学自然科学奖一等奖(排名第五)
2017年重庆市留学人员回国创业创新支持计划人选(重点)
2015年重庆市优秀博士学位论文
2015年重庆大学优秀博士学位论文
2011年重庆大学唐立新奖学金

*科研项目:
1. 国家自然科学基金面上项目:梯度孔复合电极热再生电池闭式循环系统热质传递调控及性能强化,65万元,主持
2. 国家自然科学基金青年项目:具有容积式泡沫金属的平板式热再生氨电池传递特性及性能强化, 24万,主持
3. 重庆大学国内外人才引进科研启动项目,20万,主持
4. 重庆市留创计划创新类资助入选项目重点项目:无缓冲条件下微生物燃料电池空气阴极多孔介质内多元多相反应物及荷电粒子传递与转化特性,12万,主持
5. 重庆市基础科学与前沿技术研究专项项目:漂浮式空气阴极循环流微生物燃料电池内多组分传输及性能强化,5万,主持
6. 横向科研项目自然科学类:南极5米太赫兹望远镜热控方案深化设计,45万,共同主持
7. 中央高校科研项目:电化学致变孔隙率多孔介质内多组分传递及转化特性,8万,主持
8. 重庆市留学人员科技项目:低温余热再生氨电池中变孔隙率多孔介质内多组分物质传递特性研究,3万,主持
9. 重点实验室2018年固定人员科研基金项目:废热可再生氨基电池中反应致变孔隙多孔介质内多组分传输,4万,主持
10. 科技部国家重点研发计划课题项目:高温高含尘烟气连续高效余热深度回收技术,1350万,主研
11. 科技部国家高技术研究发展计划(863计划)主题项目:微型直接甲醇燃料电池的水热管理及可靠性研究,125.5万,主研
12. 横向科研项目自然科学类:室内小站自散热能力提升技术项目,30万,主研

*发表论著及专利:
近年主要论文:
1. L Zhang, J Li*, X Zhu, D Ye, Q Liao, Anodic current distribution in a liter-scale microbial fuel cell with electrode arrays. Chemical Engineering Journal, 2013, 223:623-631 (SCI一区, IF=10.652)
2. Y Shi, L Zhang*, J Li, Q Fu, X Zhu, Q Liao, YS Zhang, 3-D printed gradient porous composite electrodes improve anodic current distribution and performance in thermally regenerative flow battery for low-grade waste heat recovery, Journal of Power Sources, 2020, Accept (SCI一区, IF=8.247)
3. L Zhang, X Zhu*, J Li, Q Liao, D Ye, Biofilm formation and electricity generation of a microbial fuel cell started up under different external resistances. Journal of Power Sources. 2011, 196:6029-6053 (SCI一区, IF = 8.247, SCI他引100次)
4. L Zhang, X Zhu*, J Li, Q Fu, Q Liao, Y Li, YX Li, A self-recirculation electrolyte system for unbuffered microbial fuel cells with an aerated cathode, Bioresource Technology. 2017, 241:1173-1177. (SCI一区, IF = 7.539)
5. J Li, L Hu, L Zhang*, D, X Zhu, Q Liao. Uneven biofilm and current distribution in three-dimensional macroporous anodes of bio-electrochemical systems composed of graphite electrode arrays. Bioresource Technology. 2017, 228:25-30. (SCI一区, IF = 7.539)
6. J Li, H Li, J Zheng, L Zhang*, Q Fu, X Zhu, Q Liao. Response of anodic biofilm and the performance of microbial fuel cells to different discharging current densities. Bioresource Technology. 2017, 233: 1-6. (SCI一区, IF = 7.539)
7. L Zhang, X Zhu*, H Kashima, J Li, Q Liao, D Ye, J M Regan, Anolyte recirculation effects in buffered and unbuffered single-chamber air-cathode microbial fuel cells. Bioresource Technology. 2015, 179:26-34 (SCI一区, IF = 7.539)
8. YS Zhang, L Zhang*, J Li, X Zhu, Q Fu, Q Liao, Y Shi, Performance of a thermally regenerative ammonia-based flow battery with 3D porous electrodes: effect of reactor and electrode design, Electrochimica Acta, 2020, 331: 135442 (SCI一区, IF = 6.215)
9. Y Shi, L Zhang*, J Li, Q Fu, X Zhu, Q Liao, YS Zhang, Cu/Ni composite electrodes for increased anodic coulombic efficiency and electrode operation time in a thermally regenerative ammonia-based battery for converting low-grade waste heat into electricity, Renewable Energy, 2020, 159: 162-171 (SCI一区, IF = 6.274)
10. L Zhang, YX Li, X Zhu*, J Li, Q Fu, Q Liao, ZD Wei, Copper foam electrodes for increased power generation in thermally regenerative ammonia-based batteries for low-grade waste heat recovery, Industrial & Engineering Chemistry Research, 2019, 58:7408-7415 (SCI一区, IF = 3.573)
11. L Zhang, J Li*, X Zhu, D Ye, Q Liao, Effect of proton transfer on the performance of unbuffered tubular microbial fuel cells in continuous flow mode. International Journal of Hydrogen Energy, 2015, 10: 3953-3960. (SCI一区, IF = 4.939)
12. L Zhang, J Li*, X Zhu, D Ye, Q Fu, Q Liao, Response of stacked microbial fuel cells with serpentine flow fields to variable operating conditions. International Journal of Hydrogen Energy, 2017, 42:27641-27648. (SCI一区, IF = 4.939)
13. L Zhang*, X Zhu, J Li, H Kashima, Q Liao, J M Regan. Step-feed strategy enhances performance of unbuffered air-cathode microbial fuel cells, RSC Advances, 2017, 7:33961-33966. (SCI二区, IF = 3.119)
14. L Zhang, J Li*, X Zhu, D Ye, Q Fu, Q Liao, Startup performance and anodic biofilm distribution in continuous-flow microbial fuel cells with serpentine flow fields: Effects of external resistance, Industrial & Engineering Chemistry Research, 2017, 56:3767-3774. (SCI一区, IF =3.573)
15. X Zhu*(导师), L Zhang, J Li, D Ye, Q Liao, Performance of a liter-scale microbial fuel cell with electrode array: Effect of array pattern. International Journal of Hydrogen Energy, 2013, 38:15716-15722. (SCI一区, IF = 4.939)
16. Q Fu*, S Xiao, Z Li, Y Li, H Kobayashi, J Li, Y Yang, Q Liao*, X Zhu, X He, D Ye, Liang Zhang, M Zhong, Hybrid solar-to-methane conversion system with a Faradaic efficiency of up to 96%, Nano Energy, 2018, 53:232-239. (SCI一区, IF=16.602)
17. S Xiao, Z Li, Q Fu*, Y Li, J Li, L Zhang, Q Liao, X Zhu, Hybrid microbial photoelectrochemical system reduces CO2 to CH4 with 1.28% solar energy conversion efficiency, Chemical Engineering Journal, 2019, 390. (SCI一区, IF=10.652)
18. LH Lan, W Yang, J Li*, L Zhang, Q Fu, Q Liao, Membrane-less Direct Formate Fuel Cell Using an Fe–N-Doped Bamboo Internode as the Binder-Free and Monolithic Air-Breathing Cathode. ACS Applied Materials & Interfaces. 2020, 12(24): 27095-27103 (SCI一区, IF=8.758)
19. W Yang, J Li*, D Ye, L Zhang, X Zhu, Q Liao, A hybrid microbial fuel cell stack based on single and double chamber microbial fuel cells for self-sustaining pH control. Journal of Power Sources. 2016, 306:685-691(SCI一区, IF = 8.247)
20. W Yang, J Li*, Q Fu, L Zhang, X Zhu, Q Liao, A simple method for preparing a binder-free paper-based air cathode for microbial fuel cells, Bioresource Technology. 2017, 241: 325-331. (SCI一区, IF = 7.539)
21. Y Zou, J Li*, Q Fu, L Zhang, Q Liao, X Zhu, Macroporous hollow nanocarbon-shell supported Fe-N catalysts for oxygen reduction reaction in microbial fuel cells, Electrochimica Acta, 2019, 32: 134590 (SCI一区, IF = 6.215)
22. J Li, Q Fu, X Zhu, Q Liao, L Zhang, H Wang, A solar regenerable cathodic electron acceptor for microbial fuel cells, Electrochimica Acta, 2010, 55:2332-2337. (SCI一区, IF = 6.215)
23. J Li, Z Li, S Xiao, Q Fu*, H Kobayashi, L Zhang, Q Liao, X Zhu, Startup cathode potentials determine electron transfer behaviors of biocathodes catalyzing CO2 reduction to CH4 in microbial electrosynthesis, Journal of CO2 Utilization, 2020, 35: 169-175. (SCI一区, IF=5.993)
24. LH Lan, J Li*, Q Feng, L Zhang, Q Fu, X Zhu, Q Liao, Enhanced current production of the anode modified by microalgae derived nitrogen-rich biocarbon for microbial fuel cells. International Journal of Hydrogen Energy. 2020, 45(6): 3833-3839 (SCI一区, IF = 4.939)
25. Z Li, L Hu, Q Fu*, S Xiao, L Zhong, J Li, L Zhang, Q Liao, X Zhu, In-situ formed graphene nanosheets enhance bidirectional electron transfer in bioelectrochemical systems, sustainable Energy & Fuels, 2020, Accept (SCI二区, IF=4.912).
26. Z Li, Q Fu*, H Kobayashic, S Xiao, J Li, L Zhang, Q Liao, X Zhu, Polarity reversal facilitates the development of biocathodes in microbial electrosynthesis systems for biogas production, International Journal of Hydrogen Energy, 2019 (44), 26226-26236. (SCI二区, IF = 4.084)
27. W Yang, J Li*, LH Lan, Q Fu, L Zhang, X Zhu, Q Liao, Poison tolerance of non-precious catalyst towards oxygen reduction reaction. International Journal of Hydrogen Energy. 2018, 43(17): 8474-8479
28. C Liu, J Li*, X Zhu, L Zhang, D Ye, R K. Brown, Q Liao, Effects of brush lengths and fiber loadings on the performance of microbial fuel cells using graphite fiber brush anodes. International Journal of Hydrogen Energy, 2013, 38:15646-15652. (SCI一区, IF = 4.939)
29. W Yang, J Li*, L Zhang, X Zhu, Q Liao, A monolithic air cathode derived from bamboo for microbial fuel cells, RSC Advances, 2017, 7: 28469-28475. (SCI二区, IF = 3.119)
30. Q Fu, J Li*, X Zhu, Q Liao, D Ye, L Zhang, An MFC capable of regenerating the cathodic electron acceptor under sunlight, Science China-Technological Sciences, 2010, 53: 2489-2494. (SCI二区, IF = 2.302)
31. 李彦翔,张亮*,朱恂,李俊,付乾,廖强,李艳,传质对热可再生氨电池性能的影响,工程热物理学报,2019, 40: 668-671. (EI 收录)
32. 石雨,张亮*,李俊,付乾,朱恂,廖强,陈鹏宇,热再生电池氨再生过程强化,化工学报,2020,录用
33. 张永胜,张亮*,李俊,付乾,朱恂,廖强,石雨,采用泡沫铜电极的热再生氨电池性能数值模拟,化工学报,2020,录用
34. 唐志强,张亮*,朱恂,李俊,付乾,廖强,不同Cu2+浓度下热再生氨电池产电及Cu2+去除特性,化工学报,2019,录用
35. 张亮, 李俊, 朱恂, 廖强, 付乾, 王永忠, 叶丁丁. 交指型阴极流场的微生物燃料电池性能. 工程热物理学报, 2010, 31: 1578-1580. (EI 收录)
36. 张亮,朱恂,李俊,廖强,叶丁丁. 带有蛇形流场的微生物燃料电池串联堆性能特性,化工学报,2013, 64(10): 3797-3804. (EI 收录)
37. 朱恂(导师),张亮,李俊,叶丁丁,廖强. 阳极传质形式对三合一膜电极式微生物燃料电池性能的影响,工程热物理学报,2014, 35(11): 2294-2297(EI收录)
38. 李俊,张亮,朱恂,叶丁丁,廖强. 变负载工况下微生物燃料电池响应特性,化工学报, 2012, 63(S1): 199-203(EI收录)
39. 周劲, 张亮, 李俊, 叶丁丁, 朱恂. 带有蛇形流场的微生物燃料电池阳极传质研究,电源技术,2014, 38(1): 57-72
40. 付乾,李俊,朱恂,廖强,叶丁丁,张亮. 自然光照条件下可再生的微生物燃料电池阴极体系. 中国科学E辑. 2010, 40(10):1208-1213. (EI收录)
41. 胡琳彬,李俊,张亮,叶丁丁,朱恂,双室微生物燃料电池阴阳极间水传递特性,化工学报, 2017, 68(S1): 150-154(EI收录)
陈裕晗, 蓝凌寒, 李俊, 付乾, 张亮, 朱恂, 廖强, 非贵金属阴极无膜直接甲酸燃料电池性能特性. 工程热物理学报. 2019, 40(06): 1403-1407 (EI收录)
42. 陈国钱,叶丁丁,李俊,付乾,张亮,朱恂,杨扬,碳毡负载Sn气体扩散电极CO2电化学还原性能,化工学报, 2017, 68(S1): 225-231(EI收录)
43. 黄澄澄,叶丁丁,朱恂,李俊,付乾,张亮,三维石墨毡阳极自呼吸微流体燃料电池性能数值模拟,化工学报, 2017, 68(S1): 125-132(EI收录)

主要专著:
1. Liang Zhang, Biao Zhang, Xun Zhu*, Haixing Chang, Shiqi Ou, Hong Wang, Chapter 2: Role of Bioreactors in Microbial Biomass and Energy Conversion, Bioreactors for Microbial Biomass and Energy Conversion, Springer, 2018
2. Wei Yang, Jun Li*, Qian Fu, Liang Zhang, Xun Zhu, Qiang Liao. Cost-effective Carbon Catalysts and Related Electrode Designs for the Air Cathode of Microbial Fuel Cells/Waste to Sustainable Energy: MFC's-Prospects through Prognosis. CRC Press, Taylor & Francis, 2018.

发明专利:
1.张亮,朱恂,李俊,廖强,叶丁丁,付乾,无缓冲液运行下空气阴极微生物燃料电池及性能提升方法,发明专利,申请号:3.9,申请日:2016.1.20,已授权
2.张亮,李彦翔,朱恂,李俊,廖强,叶丁丁,付乾,一种采用泡沫金属电极的平板式热再生氨电池,发明专利,申请号:7.X,申请日:2016.3.03,已授权
3.张亮,李彦翔、李俊、朱恂、叶丁丁、付乾、夏奡、廖强,一种竹炭管束式鼓泡空气阴极结构的微生物燃料电池,发明专利,申请号:4.0,申请日:2016.11.10,已授权
4. 张亮,李艳、李俊、朱恂、叶丁丁、付乾、夏奡、廖强,基于气泡浮升力的自循环空气阴极微生物燃料电池及方法,发明专利,申请号:7.1,申请日:2017.3.21,已授权
5.张亮,李彦翔、朱恂、李俊、叶丁丁、付乾、夏奡、廖强,一种无膜的热再生氨电池及制作方法,发明专利,申请号:7.0,申请日:2017.3.31
6. 张亮,李艳,李俊、付乾、朱恂、廖强、叶丁丁、夏奡,氨气自呼吸式结构的热再生氨电池及制备方法,发明专利,申请号:2.8,申请日:2017.12.27
7. 张亮,石雨,李俊,朱恂,付乾,廖强,夏奡,一种采用泡沫镍基镀铜电极的热再生氨电池及制作方法,发明专利,申请号:7.7 申请日:2019.2.18
8. 张亮,张永胜,朱恂,李俊,付乾,廖强,夏奡,一种流化床式热再生氨电池及制备方法,发明专利,申请号:2.0 申请日:2019.2.21
9. 张亮,秦涛杰,周雨晴,李敏,丁梓忆,孙哲,庞建萌,工业废弃资源热/质耦合梯级利用与能源回收集成系统,发明专利,申请号:4.9 申请日:2019.4.16
10. 张亮,唐志强,李俊,朱恂,付乾,廖强,夏奡,利用废弃印制电子线路板构成的热再生氨电池及处理方法,发明专利,申请号:0.X 申请日:2019.4.27
11. 张亮,何勇杰,秦涛杰,陈鹏宇,卢志强,基于人体排泄物的微生物能源转化集成系统及转化方法,发明专利,申请号:1.3 申请日:2019.7.5
12. 张亮,李楠,种法政,张硕,李俊,付乾,石雨,一种基于电场强化传质的热再生氨电池及制备方法,发明专利,申请号:0.0 申请日:2019.11.1
13. 张亮,张硕,种法政,李楠,原小虹,赵永正,朱宇峰,张晓钊,含铜废水及有机废气深度处理与废热回收利用综合系统,发明专利,申请号:5.2 申请日:2020.3.19
14. 李俊,杨伟,付乾,张亮,叶丁丁,朱恂,廖强,碳质管式氧还原阴极微生物燃料电池,发明专利,申请号 :0.1
15. 丁玉栋,牟睿,朱恂,赵林林,王宏,廖强,陈蓉,张亮,付乾,黄云,李俊,夏奡,一种无外源驱动的竖管式降膜器液体分布,发明专利,申请号:3.9,申请时间:2016.4.15
16. 朱恂,冯浩,陈蓉,黄云,付乾,张亮,丁玉栋,廖强,王宏,李俊,叶丁丁,微通道反应器内催化剂层制备方法,发明专利,申请号:,申请日:
17. 朱恂、李华、王宏、丁玉栋、付乾、黄云、张亮、廖强、李俊、陈蓉,利用高炉渣作为热载体制备生物质油的装置和方法,发明专利,授权号:A,授权日:2017.6.13
19. 王宏、李华、朱恂、丁玉栋、付乾、黄云、张亮、廖强、李俊、陈蓉,利用炉渣余热的复合流化床式气固换热装置,发明专利,申请号:3.6,申请日:2015.12.21
20. 丁玉栋,赖富兴,廖强,王宏,朱恂,付乾,李俊,张亮,一种油温可调的三维肋管油冷却器,申请号:2.2,申请时间:2016.7.13


*学术会议交流:
1. YS Zhang, L Zhang*, J Li, X Zhu, Q Fu, Q Liao, Y Shi. A thermally regenerative ammonia-based battery with copper foam electrodes for low-temperature waste heat recovery: Effect of reactor and electrode design. 2019 International Conference on Power Engineering, 2019.10. Kunming, China
2. L Zhang, J Li, X Zhu, D Ye, Q Liao. Response of stacked microbial fuel cells with serpentine flow fields to variable operating conditions. The 2016 Asian Biohydrogen & Biogas Symposium, 2016.10. Jeju Island, Korea
3. L Zhang, J Li, X Zhu, D Ye, Q Liao. Proton transfer and electricity generation of continuous-flow tubular MFCs in the presence and absence of a proton exchange membrane. International conference on Bio/Mimetic Solar Energy Conversion, 2013.11. Osaka, Japan
4. L Zhang, X Zhu, J M Regan. Anolyte recirculation: an alternative to phosphate buffer in single-chamber air-cathode microbial fuel cells. 17th Annual Environmental Chemistry and Microbiology Student Symposium, 2014, 3, University Park, PA, USA.
5. X Zhu, L Zhang, J Li, Q Liao, D Ye. Effect of array pattern on the performance of a liter-scale microbial fuel cell with electrode array. 2012 Asian Biohydrogen and Bioproducts Symposium, 2012.11. Chongqing, China.
6. C Liu, J Li, X Zhu, L Zhang, D Ye, R K Brown, Q Liao. Improvement in Performance of a Tubular Microbial Fuel Cell with a Combined Graphite Fiber and Carbon Granule Electrode. 2012 Asian Biohydrogen and Bioproducts Symposium, 2012.11. Chongqing, China.
7.张亮,李俊*,朱恂,廖强,付乾,王永忠,叶丁丁. 交指型阴极流场的微生物燃料电池性能,中国工程热物理学会传热传质学术会议,2009,青岛
8.张亮,李俊*,朱恂,叶丁丁,廖强. 变负载工况下微生物燃料电池响应特性,中国工程热物理学会传热传质学术会议,2011,西安
9.张亮,李俊*,朱恂,叶丁丁,廖强. 运行方式和电解液流量对平板式微生物燃料电池堆性能的影响,中国工程热物理学会传热传质学术会议论,2013,重庆
10.朱恂*张亮,李俊,叶丁丁,廖强. 阳极传质形式对三合一膜电极式微生物燃料电池性能的影响,中国工程热物理学会传热传质学术会议,2013,重庆
11.张亮*,朱恂,李俊,叶丁丁,付乾,廖强. 通流式管状空气阴极微生物燃料电池性能特性,中国工程热物理学会传热传质学术会议,2016,大连
12.李彦翔,张亮*,朱恂,李俊,付乾,廖强,李艳. 传质对热可再生氨电池性能的影响,中国工程热物理学会传热传质学术会议论,2017,苏州
13.唐志强,张亮*,朱恂,李俊,付乾,廖强. 不同Cu2+浓度下热再生氨电池产电及Cu2+去除特性,中国工程热物理学会传热传质学术会议论,2018,大连
14.石雨,张亮*,李俊,付乾,朱恂,廖强,陈鹏宇,热再生电池氨再生过程强化,中国工程热物理学会传热传质学术会议论,2019,青岛























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