1997-2001年在新利18彩票 化学工程专业本科学习,获工学学士学位;2001-2007年在新利18彩票 化学工程专业硕士和博士学习,获工学硕士和博士学位;2008-2009年新利18彩票 材料科学与工程从事博士后研究;2018年8月-2019年8月澳大利亚悉尼大学访问学者。
江苏省工程热物理学会理事;国家自然科学基金函评专家;中华环保联合会VOCs污染防治专业委员会专家;江苏省高新技术企业认定技术专家。主持国家自然科学基金、国家重点研发计划课题、国家科技支撑计划课题(共同)并参与国家和省部级课题10多项;部分研究工作成功进行了示范应用。入选省第十二批“六大人才高峰”(C类资助)。近年来,在Applied Catalysis B: Environmental、ACS Nano、Nano Energy、Energy and Environmental Materials、Applied Energy、Energy、Energy Conversion and Management、International Journal of Heat and Mass Transfer、Energy and Fuels、Applied Thermal Engineering和中国科学等权威期刊发表学术论文30多篇,申请及授权发明专利20多件。指导获得江苏省优秀硕士学位论文1项,获得中国石油和化学工业联合会技术发明二等奖等省部级奖励4项,获得“工大集团”奖教金1项。
主要从事动力工程及工程热物理、化学工程和系统工程等多学科交叉能源和环境领域的教学和科研工作。重点开展多孔介质传热传质和多尺度能源系统工程等方向研究,致力于能源和环保成套化装备开发、示范及应用。
Jinqiang Zhang,Yunguo Li,Jiaming Sun,Haijun Chen*,Yuezhao Zhu,Xiaoli Zhao,Laichang Zhang,Shuaijun Wang,Huayang Zhang,Xiaoguang Duan,Lei Shi,Shu Zhang,Peng Zhang,Guosheng Shao,Mingbo Wu,Shaobin Wang*,Hongqi Sun*. Regulation of energetic hot carriers on Pt/TiO2with thermal energy for photothermal catalysis[J].Applied Catalysis B: Environmental, 2022: 121263.(SCI一区,IF:19.503)
Jinqiang Zhang, Liang Wang, Xiaoli Zhao, Lei Shi,Haijun Chen*, Shu Zhang, Peng Zhang, Shuaijun Wang, Lai-Chang Zhang, Yinfeng Wang, Xiaoyuan Wang, Yuezhao Zhu, Huayang Zhang, Xiaoguang Duan, Mingbo Wu, Guosheng Shao, Shaobin Wang*, Hongqi Sun*.The nature of active sites for plasmon-mediated photothermal catalysis and heat coupled photocatalysis in dry reforming of methane[J].Energy& Environmental Materials, 2022.(SCI一区,IF:15.1)
Jinqiang Zhang, Xiaoli Zhao, Lin Chen, Shuli Li,Haijun Chen, Yuezhao Zhu, Shuaijun Wang, Yang Liu, Huayang Zhang, Xiaoguang Duan, Mingbo Wu*, Shaobin Wang*, Hongqi Sun*. Intrinsic Mechanisms of Morphological Engineering and Carbon Doping for Improved Photocatalysis of 2D/2D Carbon Nitride Van Der Waals Heterojunction[J].Energy & Environmental Materials, 2022.(SCI一区,IF:15.1)
Ying Wu, Ying Dai, Weiyi Xie,Haijun Chen*, Yuezhao Zhu.System integration for combined heat and power (CHP) plants with post-combustion CO2capture[J].Energy Conversion and Management,2022.(SCI一区,IF:9.709)
Xiaosong Zhang, Jiawei Pan, Liang Wang, Tianle Qian, Yuezhao Zhu, Hongqi Sun, Jian Gao,Haijun Chen*, Ying Gao, Chang Liu. COSMO-based solvent selection and Aspen Plus process simulation for tar absorptive removal[J].Applied Energy,2019, (251): 113314.(SCI一区,IF:9.746)
Jianbiao Chen, Shuaifei Gao, Fang Xu, Wenhao Xu, Yuanjiang Yang, Depeng Kong, Yinfeng Wang, Huicong Yao,Haijun Chen*, Yuezhao Zhu, Lin Mu. Influence of moisture and feedstock form on the pyrolysis behaviors, pyrolytic gas production, and residues micro-structure evolutions of an industrial sludge from a steel production enterprise[J].Energy, 2022: 123603.(SCI一区,IF:7.1)
Jinqiang Zhang, Yunguo Li, Xiaoli Zhao, Liang Wang,Haijun Chen, Shuaijun Wang, Xinyuan Xu, Lei Shi, Laichang Zhang, Yuezhao Zhu, Huayang Zhang, Yazi Liu, Gareth Nealon, Shu Zhang, Mingbo Wu, Shaobin Wang *, Hongqi Sun *.Aligning potential differences within carbon nitride based photocatalysis for efficient solar energy harvesting[J],Nano Energy, 2021, 89, 106357-106368. (SCI一区,IF 17.881)
Jinqiang Zhang, Yunguo Li, Xiaoli Zhao, Huayang Zhang, Liang Wang,Haijun Chen, Shuaijun Wang, Lei Shi, Laichang Zhang, Jean-Pierre Veder, Shiyong Zhao, Gareth Nealon, Shaobin Wang *, Hongqi Sun *.A Hydrogen-Initiated Chemical Epitaxial Growth Strategy for In-Plane Heterostructured Photocatalyst[J],ACS Nano, 2020,14: 17505-17514. (SCI一区,IF 15.881)
Liang Wang, Jinqiang Zhang, Jun Huang*, Qun Cui, Yuezhao Zhu ,Haijun Chen*. Self-confinement created for uniform Ir-Ni/SiO2catalyst with enhancedperformances on CO2reforming of methane[J].Energy & Fuels,2020,34:111-117.(SCI三区,IF:3.605)
Xiaosong Zhang, Jiawei Pan, Liang Wang, Hongqi Sun,Haijun Chen*, Yuezhao Zhu. Simulated biomass tar removal mechanism by a Quench Coupled with ADsorption Technology (QCADT)[J].Chinese Journal of Chemical Engineering,2020(1):7(SCI三区,IF:3.171)
Haijun Chen, Juan Wu,Yuezhao Zhu *, et al. Simulated biomass tar removal mechanism and performance by a Quench Coupled with Absorption Techonlogy[J],Fuel Processing Technology,2016,146:90-98.(SCI一区,IF:7.033 )
Haijun Chen, Qun Cui *, Wu Juan, et al. Hydrothermal stability of SAPO-34 for refrigeration and air conditioning applications[J],Materials Research Bulletin,2014, 52:82-88.(SCI二区,IF:4.641 )
Haijun Chen, Xiaoli Yao, Cui Qun*, et al. Selection and performance of adsorbents in an adsorption refrigeration cycle regenerated with water directly[J],Adsorption,2013, 19(5):997-1006.( SCI三区,IF:2.318 )
Haijun Chen, Cui Qun*, Quanguo LI, et al. Adsorption-desorption characteristics of water on SAPO-34 molecular sieve for cooling and air conditioning[J],Journal of Renewable and Sustainable Energy,2013, 5(5):4807-4815.( SCI四区,IF:2.219 )
Haijun Chen, Cui Qun*, Ying Tang, et al. Attapulgite based LiCl composite adsorbents for cooling and air conditioning applications[J].Applied Thermal Engineering,2008, 28(17-18):2187-2193.(SCI二区,IF:5.295 )
周瑞明;孙嘉明;张金强;王亮;刘朋;朱跃钊;孙红旗;蒋怡晨;陈海军*. Ni-Ir/SiO2光热协同催化甲烷干重整探索[J],中国科学:化学,2021, 51(11):1539-1548.
陈泽清,张孝松,程瑞佳,崔群,陈海军*,朱跃钊.生物质燃气焦油激冷耦合吸附脱除过程特性[J].中国科学:技术科学,2017, 47(7):763-773.(EI)
姜焱龙;张妮;李淡然;朱冰冰;蒋怡晨;陈海军*;朱跃钊.基于COSMO-RS方法筛选离子液体用于焦油脱除[J/OL],化工学报, 2021,DOI: 10.11949/0438-1157.20211759.(EI)
王银峰,陈海军*,张鑫,等.跟踪式CPC热管真空管集热器聚光及集热特性[J],太阳能学报, 2015,36(11):2643-2650. (EI)
吴娟,陈海军*,朱跃钊,等.基于回收理念的生物质燃气焦油脱除研究进展[J],化工进展, 2013,32(9):2099-2105. (EI)
孙丽娜,高豪杰,陈海军*,杨丽,朱跃钊,利用热分析研究褐煤的热解特性[J],林产化学与工业,2014,34(1):117-120.
Yinfeng Wang, Beibei LU,Haijun Chen, et al. Experimental investigation of the thermal performance of a horizontal two-phase loop thermosiphon suitable for solar parabolic trough receivers operating at 200-400 ℃[J].Energy,2017, 132:289-304.(SCI一区,IF:7.1)
Xiaoyuan Wang, Yinfeng Wang, Zhi Wang, Yuxuan Liu, Yuezhao Zhu*,Haijun Chen. Simulation-based analysis of a ground source heat pump system using superlong flexible heat pipes coupled borehole heat exchanger during heating season[J],Energy Conversion andManagement, 2018,164:132-143. (SCI一区,IF:9.709)
Yinfeng Wang, Xiaoyuan Wang,Haijun Chen, Robert A. Taylor, Yuezhao Zhu*. A combined CFD/visualized investigation of two-phase heat and mass transfer inside a horizontal loop thermosiphon[J].International Journal of Heat and Mass Transfer, 2017, 112: 607-619.(SCI一区,IF:5.584)
陈海军,陈新,任洪波,黄文龙,古阳光,朱跃钊,杨谋存.基于生物质能的全可再生能源多能互补耦合供能系统及其调度策略优化模型[P],2022-03-21,中国,申请号:202210275209.3.
陈海军,孙嘉明,张金强,朱跃钊,孙红旗.一种光热协同干重整Ni-Ir/SiO2双金属催化剂及其制备方法[P],2021-02-22,中国,公开号:CN112973730A.
茹斌,陈海军,宛政,朱跃钊,曾志伟,郭泗勇,张孝松.一种焦油吸收剂及其制备方法[P],2019-03-25,中国,公开号:CN109971516A.
朱跃钊,陈海军,吴娟,廖传华.生物质燃气耦合吸附深度脱除焦油的工艺及系统[P],专利号: ZL201210037246.7, 2013-12-25.
朱跃钊,陈海军,吴娟,廖传华.生物质燃气冷却-吸收耦合深度脱除焦油的工艺及系统[P],专利号: ZL201210037239.7, 2014-06-15.
朱跃钊,吴昊,陈海军.一种废轮胎整胎气化装置及方法[P],专利号: ZL 201510028994.2, 2017-5-20
朱跃钊,马婷婷,陈海军,王银峰,杨丽.太阳能高温热化学耦合相变反应器[P],专利号: ZL201210256968.1, 2014-04-09.
朱跃钊,王银峰,陈海军,廖传华,张鑫,杨丽.一种曲柄连杆跟踪式复合抛物面聚光器[P],专利号: ZL201210229258.X, 2014-02-26.
崔群,陈海军,郑凯,王海燕.微正压运行的吸附制冷系统[P],专利号: ZL200910264812.6, 2012-05-30.
崔群,陈海军,李全国,姚虎卿.双级吸附制冷循环系统[P],专利号: ZL201210036935.6, 2014-07-16.
朱跃钊,高豪杰,陈海军,廖传华,付烽,杜杨,杨丽,杨谋存.一种褐煤直接干燥和热解一体化工艺和系统[P],专利号: ZL201310034572.7, 2014-07-02.
朱跃钊,马雷,廖传华,陈海军.一种废轮胎气化装置和方法[P],专利号: ZL201010149984.1, 2013-07-24.
朱跃钊,王银峰,陈海军,范红途,钱裕,朱震,杨丽.太阳能中高温环路热管蒸汽发生器[P].专利号: ZL201410535919.0,2016-04-13.
廖传华,朱跃钊,马雷,陈海军.一种城市生活垃圾的气化装置和方法[P].专利号: ZL201010574948.X, 2013-06-05.
朱跃钊,丁杨惠勤,廖传华,陈海军.生物质气化焦油处理系统和方法[P].专利号: ZL201110105926.3, 2013-06-05.
朱跃钊,王银峰,许佳慧,陈海军,钱裕,杨丽.一种中温直通式全玻璃真空集热管[P].专利号: ZL201410348597.9,2016-04-13.
朱跃钊,吴娟,陈海军,廖传华,杨丽.生物质燃气焦油多级深度脱除工艺[P],公开号:CN 103087780A, 2013-05-08.
杨洋,陈海军,朱跃钊,陈泽清,张晨.一种生物质燃气中轻焦油的分析方法[P].公开号:CN104931573A, 2015-06-02.
陈海军,夏婷,朱跃钊.一种石英可视化热管[P],公开号:CN 105698410A. 2016-01-29.
培养具有创新精神和国际视野的跨学科复合型高层次人才,可从事能源高效转化、生物质能和太阳能等可再生能源利用、能源利用和环境保护、流程工业成套装备、暖通空调与废弃物处置和资源化利用等领域的设计、研究与管理。