助理研究员
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张金芝

 
姓名:张金芝职称:助理研究员
学历:博士
 
职称 助理研究员 职位
学历 博士

1987年出生,助理研究员。2006.9-2010.6就读于郑州大学,获学士学位;2010.9-2013.6就读于中国科学院过程工程研究所,获硕士学位:2013.9-2016.6,就读于中国科学院青岛生物能源与过程研究所,获博士学位;2016.7-至今,于中国科学院青岛生物能源与过程研究所从事博士后科研工作。主持国家自然科学基金、国家重点研发计划项目子课题、山东省自然科学基金、国家博士后科学基金基金等多项国家和省部级研究课题。主要开展生物质、煤、固体废弃物的热解、气化;生物质的化学链气化等领域的研究。近年来在Applied EnergBioresource TechnologyEnergyWaste Management等期刊上发表SCI论文20余篇,论文已被引 900余次。

联系方式: 13345015698 0532-80662763 zhangjz@qibebt.ac.cn

 

主持及参与的项目

1. 国家自然科学基金青年项目(22308366),晶格畸变与核壳结构协同调控生物质化学链制氢载氧体晶格氧活性及循环稳定性机制研究,30万元,2024-012026-12,项目负责人。

2. 重点研发计划战略性科技创新合作重点专项-化工行业低碳零碳关键技术和装备联合研发(2022YFE0208300),74万元,2022-112025-10,任务负责人。

3. 山东省自然科学基金博士基金项目(ZR2019BEE074),耦合化学链燃烧的甲烷催化裂解制备氢气与碳纳米材料基础研究,9万元,2019-072022-06,项目负责人。

4. 中国博士后科学基金第61批面上资助项目(2017M612368),基于晶格氧控制氧化的新型生物质化学链气化基础研究,5万元,2017-102018-10,项目负责人。

5. 中国科学院沈阳分院山东省科学院青年科学家合作项目-适用于费托合成的生物质基合成气的制备2019.01-2020.12,项目负责人。

6. 973项目子课题还原/氧化气氛下可燃固体废弃物热解气化反应动力学研究 2011CB201502),2011.01-2015.12,骨干。

 

代表性成果

[1] Zhang J, Zhang K, Huang J, Feng Y, Yellezuome D, Zhao R, et al. Synergistic effect and volatile emission characteristics during co-combustion of biomass and low-rank coal. Energy 2024;289. http://10.1016/j.energy.2023.130015

[2] Liu M, Wu H, Wang H, Chen T, Wang Z, Zhang J, et al. Enhancing redox stability through metal substitution in nickel ferrite for chemical looping hydrogen production via water splitting. International Journal of Hydrogen Energy 2024;73:221-30. http://https://doi.org/10.1016/j.ijhydene.2024.06.017

[3] Feng Y, Huang J, Zhang J, Yellezuome D, Zhao R, Chen T, et al. Mechanical pretreatment of typical agricultural biomass on shape characterization and NO emissions during combustion. Bioresource Technology 2024;397. http://10.1016/j.biortech.2024.130477

[4] Zhang J, Wang Z, Zhao R, Chen T, Wu J. Release of nitrogen during thermochemical conversion of Shenhua bituminous coal under Ar, CO<sub>2</sub>, and air atmospheres. Canadian Journal of Chemical Engineering 2023;101(2):797-804. http://10.1002/cjce.24467

[5] Huang J, Zhang J, Feng Y, Yellezuome D, Zhang Z, Zhao R, et al. Thermal conversion property and NO emission characteristics of oxy-fuel co-combustion of biomass and semicoke. Journal of Thermal Analysis and Calorimetry 2023;148(24):14109-21. http://10.1007/s10973-023-12583-6

[6] Zhang J, Wang Z, Zhao R, Wu J. CO<sub>2</sub> gasification kinetics of Shenhua bituminous coal by isothermal thermogravimetric analysis. Canadian Journal of Chemical Engineering 2022;100(10):2997-3005. http://10.1002/cjce.24308

[7] Zhang G, Wang Z, He T, Wu J, Zhang J, Wu J. Rationally design and in-situ fabrication of ultrasmall pomegranate-like CdIn<sub>2</sub>S<sub>4</sub>/ZnIn<sub>2</sub>S<sub>4</sub> Z-scheme heterojunction with abundant vacancies for improving CO<sub>2</sub> reduction and water splitting. Chemical Engineering Journal 2022;442. http://10.1016/j.cej.2022.136309

[8] Wang Z, Zhang J, Wu J, He T, Wu J. Evaluation of Different Oxygen Carriers for Chemical Looping Reforming of Toluene as Tar Model Compound in Biomass Gasification Gas: A Thermodynamic Analysis. Atmosphere 2022;13(6). http://10.3390/atmos13060887

[9] Zhao R, Dai R, Chen T, Qin J, Zhang J, Wu J. Investigation on combustion, gaseous pollutants emission and ash characteristics during co-combustion of semicoke and coal slime. Journal of Environmental Chemical Engineering 2021;9(5). http://10.1016/j.jece.2021.106249

[10] Zhang J, Wang Z, Zhao R, Wu J. Gasification of Shenhua Bituminous Coal with CO2: Effect of Coal Particle Size on Kinetic Behavior and Ash Fusibilit. Energies 2020;13(13):3313. http://10.3390/en13133313

[11] Wu J, Bai L, Tian H, Riley J, Siriwardane R, Wang Z, He, T, Li, J, Zhang, J, Wu, J. Chemical looping gasification of lignin with bimetallic oxygen carriers. International Journal of Greenhouse Gas Control 2020;93. http://10.1016/j.ijggc.2019.102897

[12] 张金芝, 李海宾, 赵瑞东, 武景丽, 何涛, 王志奇. 煤颗粒物性及热转化特性随粒径变化规律研究. 热力发电 2019;48(11):37-42.

[13] Xue N, Wang Z, Wu J, He T, Zhang J, Li J, et al. Effect of equivalence ratio on the CO selectivity of Fe/Ca-based oxygen carriers in biomass char chemical looping gasification. Fuel 2019;252:220-7. http://10.1016/j.fuel.2019.04.103

[14] Wang Z, Zhu M, He T, Zhang J, Wu J, Tian H, et al. Chemical looping reforming of toluene as a biomass tar model compound over two types of oxygen carriers: 2CuO-2NiO/Al2O3 and CaFe2O4. Fuel 2018;222:375-84. http://10.1016/j.fuel.2018.02.164

[15] Zhang J, He T, Wang Z, Zhu M, Zhang K, Li B, et al. The search of proper oxygen carriers for chemical looping partial oxidation of carbon. Applied Energy 2017;190:1119-25. http://10.1016/j.apenergy.2017.01.024

[16] Song H, Liu G, Zhang J, Wu J. Pyrolysis characteristics and kinetics of low rank coals by TG-FTIR method. Fuel Processing Technology 2017;156:454-60. http://10.1016/j.fuproc.2016.10.008

[17] Chen T, Zhang J, Wu J. Kinetic and energy production analysis of pyrolysis of lignocellulosic biomass using a three-parallel Gaussian reaction model. Bioresource Technology 2016;211:502-8. http://10.1016/j.biortech.2016.03.091

[18] Zhang J, Chen T, Wu J, Wu J. TG-MS analysis and kinetic study for thermal decomposition of six representative components of municipal solid waste under steam atmosphere. Waste Management 2015;43:152-61. http://10.1016/j.wasman.2015.05.024

[19] Zhang J, Chen T, Wu J, Wu J. Multi-Gaussian-DAEM-reaction model for thermal decompositions of cellulose, hemicellulose and lignin: Comparison of N<sub>2</sub> and CO<sub>2</sub> atmosphere. Bioresource Technology 2014;166:87-95. http://10.1016/j.biortech.2014.05.030

[20] Zhang J, Chen T, Wu J, Wu J. A novel Gaussian-DAEM-reaction model for the pyrolysis of cellulose, hemicellulose and lignin. Rsc Advances 2014;4(34):17513-20. http://10.1039/c4ra01445f

[21] Chen T, Wu J, Zhang J, Wu J, Sun L. Gasification kinetic analysis of the three pseudocomponents of biomass-cellulose, semicellulose and lignin. Bioresource Technology 2014;153:223-9. http://10.1016/j.biortech.2013.12.021

[22] Zhang J, Jia C, Dong H, Wang J, Zhang X, Zhang S. A Novel Dual Amino-Functionalized Cation-Tethered Ionic Liquid for CO2 Capture. Industrial & Engineering Chemistry Research 2013;52(17):5835-41. http://10.1021/ie4001629




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