姓名:吴军年
职称: 教授  高级工程师 
性别:男
毕业院校:南京气象学院
学历:大学本科
学位:博士
在职信息:在职
所在单位:环境科学与工程系
入职时间:
办公地点:
电子邮箱:wu_jn@lzu.edu.cn
学习经历
本科毕业于南京气象学院大气物理专业,获得学士学位; 后在职获得兰州大学生态学专业理学硕士和环境科学专业工学博士; 2005年取得环境影响评价工程师职业资格证书。
研究方向
1、产业生态学-培养产业共生网络研究、设计、评估、优化、绿色低碳与碳中和管理等高端技术人才。 2、重金属污染土壤电动修复-培养土壤电动修复研究、咨询、设计、施工、投资等技术、管理人才。 3、环境影响评价-培养规划环评和环保咨询服务人才。
工作经历
先后就职于甘肃省环保研究所,甘肃省环境评价所; 铁道部第一勘测设计院环境工程设计处/给排水与环境处/环境设备处,任主管环保专业的处副总工程师, 95年任高级工程师; 2003年-至今:兰州大学资源环境学院环境科学与工程系。
主讲课程
1、本科生专业核心课-物理性污染控制,物理性污染控制课程设计; 2、本科生选修课-环境工程技术经济,环境噪声振动控制; 3、跨学科贯通课-产业生态学; 4、研究生通识课-MABLAB与数学模型; 5、专业学位必修课-环境信息技术。
研究成果
1、产业共生网络的构建、组成、结构、功能、代谢耦合相互作用、影响因素、减污降碳等环境行为,以及演化的理论机制和定量指标体系。 2、工业代谢+Advanced Exergy+LCA 定量表征产业共生网络的有效能效率、有效能耗损(内耗+损失),生命周期碳排放和环境影响,有效能-碳足迹-水足迹、碳减排、碳代谢的协同利用和环境行为。 3、针对铬盐产业污染场地,利用电动修复技术,对污染场地土壤的重金属铬进行风险管控和电动修复,改善产业系统整体环境行为。
在研项目
1、规划环评等环境咨询类项目; 2、环境修复治理类项目; 3、减污降碳和产业系统绿色低碳转型类项目。
发表论文
1. Junnian Wu1 XueLi1RongJin, 2022, The response of the industrial system to the interrelationship approaching to carbon neutrality of carbon sources and sinks from carbon metabolism: Coal chemical case study, Energy, 261,125172. (Sci-1, Top). 2. Junnian Wu & Jiangwei Shang,2022, Environmental and energy implications of coal-based alternative vehicle fuel pathway from the life cycle perspective, Environmental Science and Pollution Research ,29,56727-56738. 3. Junnian Wu,Jiayi Lu,2022,The synergetic effect of reducing pollutants and carbon quantified by exergy flow integrated resources and energy in an iron and steel symbiosis network,Journal of Cleaner Production, 340, 130807. (Sci-1, Top). 4. Junnian Wu, Na Wang, 2021, Life cycle environmental impact of system irreversibility based on advanced exergy analysis: A case study, Journal of Environmental Management, 296,113151 (Sci-2, Top) 5. Junnian Wu, Bo Wei, Ziwei Lv, Yupeng Fu, 2021, To improve the performance of focusing phenomenon related to energy consumption and removal efficiency in electrokinetic remediation of Cr-contaminated soil, Separation and Purification Technology, 272,118882. (Sci-1, Top) 6. Junnian Wu, Jiayi Lu, Rong Jin., 2021, Quantitative indicators for evolution of a typical iron and steel industrial symbiosis network, Journal of Cleaner Production, 287, 125491. (Sci -1, Top). 7. Junnian Wu, Na Wang, Liangxia Li., 2021, The synergetic effects of carbon and hydrogen metabolism on the exergy destruction and loss in a coal-to-SNG, Journal of Cleaner Production, 285, 124814, (Sci-1, Top). 8. Junnian Wu, Rong Jin., 2020, Exploring the impact of symbiotic measures on the evolution of structure and function of the iron and steel industrial symbiosis network, Journal of Cleaner Production, 273, 122990. (Sci-1, Top). 9. Junnian Wu, Qianqian Li, Ziwei Lv., 2020, Regulating and intervening act of Cr chemical speciation effect on the electrokinetic removal in Cr contaminated soil in arid area, Separation and Purification Technology, 250, 117167. (Sci-1, Top). 10. Junnian Wu, Na Wang., 2020, Exploring avoidable carbon emissions by reducing exergy destruction based on advanced exergy analysis: A case study, Energy, 206, 118246. (Sci-1, Top). 11. Junnian Wu, Jingwen Lv, Guangying Pu., 2019, Evaluating chromium coupled with carbon metabolism and environmental performance in the chromate industrial symbiosis network in China, Resources, Conservation and Recycling, 149, 188-196. (Sci-1, Top). 12. Junnian Wu, Guangying Pu, Jiangwei Shang., 2018, Retrospective and prospective assessment of exergy, life cycle carbon emissions, and water footprint for coking network evolution in China, Applied Energy, 218, 479-493. (Sci-1, Top). 13. Junnian Wu, Chaozheng Xiao, Honglin Wu., 2018, Exploring electrode capture potential in different Cr-contaminated soils with enhanced electrolytes based on chemical fractionation, Separation and Purification Technology, 197, 54-62. (Sci-1, Top). 14. Junnian Wu, Guangying Pu, Ruiqi Wang. 2017, Quantitative environmental risk assessment for the iron and steel industrial symbiosis network, Journal of Cleaner Production, 157, 106-117. (Sci-1, Top). 15. Junnian Wu, Yan Guo, Hang Qi., 2017, The redundancy of an industrial symbiosis network: A case study of a hazardous waste symbiosis network, Journal of Cleaner Production, 149, 49-59. (Sci-1, Top). 16. Wu, Junnian., Qi, Hang. ,Wang, Ruiqi.,2016.Insight into industrial symbiosis and carbon metabolism from the evolution of iron and steel industrial network, Journal of Cleaner Production, 135,251-262. (Sci-1, Top). 17. Wu, Junnian., Zhang, Jing., Xiao,Chaozheng.,2016.Focus on factors affecting pH, flow of Cr and transformation between Cr(VI) and Cr(III) in the soil with different electrolytes. Electrochimica Acta, 211,652-662. (Sci-1, Top). 18. Wu, Junnian., Wang, Ruiqi, Pu, Guangying., Qi, Hang., 2016. Integrated assessment of exergy, energy and carbon dioxide emissions in an iron and steel industrial network, Applied Energy, 183,430-444. (Sci-1, Top). 19. Wu, Junnian., Li, Chengliang., Yang, Fan., 2015.The disposition of chromite ore processing residue(COPR) incorporating industrial symbiosis, Journal of Cleaner Production, 95,156-162. (Sci-1, Top).