张琦 - 东北大学 - 冶金学院

个人简介

学习经历 2003.09-2008.07，东北大学热能工程专业（硕博连读），获工学博士学位 1997.09-2001.07，东北大学热能工程与动力机械专业，获工学学士学位工作经历 2019.01-至今东北大学冶金学院热能工程系，教授，博士生导师 2015.12-2018.12东北大学冶金学院热能工程系，副教授，硕士生导师 2014.07-2015.08美国劳伦斯伯克利国家实验室，访问学者 2012.01-2015.11 东北大学材料与冶金学院，副教授，硕士生导师 2009.06-2012.06 东北大学冶金工程博士后流动站，博士后 2008.06-2011.12 东北大学材料与冶金学院，讲师 2001.08-2003.08 东北大学材料与冶金学院，助教，辅导员／团委书记

研究领域

工业系统节能减排理论与方法、能源系统优化建模、碳减排及低碳路径、能源管控系统开发，工业生态学等

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] Qi Zhang, Xiaoyu Zhao, Hongyou Lu, et al. Waste energy recovery and energy efficiency improvement in China's iron and steel industry. Applied Energy, 2017,191:502-520（ESI高被引Top期刊论文） [2] Qi Zhang, Jin Xu, Yujie Wang, et al. Comprehensive assessment of energy conservation and CO2 emissions mitigation in China’s iron and steel industry based on dynamic material flows, Applied Energy, 2018, (209):251-265 (ESI高被引Top期刊论文) [3] Shuoshuo Tian, Yuezhong Di, Min Dai, Weiqiang Chen, Qi Zhang*,Comprehensive assessment of energy conservation and CO2 emission reduction in future aluminum supply chain, Applied Energy, 2022,117796 [4] Shuai Liu, Shen Xie, Qi Zhang*. Multi-energy synergistic optimization in steelmaking process based on energy hub concept, International Journal of Mineral, Metallurgy and Materials, 202128(8):1378 [5] Xiaozhuang Wang, Qi Zhang*, Lisong Xu, et al. Water-energy-carbon nexus assessment of China’s iron and steel industry: case study from plant level, Journal of Cleaner Production, 2020,253:119910 (SCI一区) [6] Ziqing Wei，Xiaoqiang Zhang, Qi Zhang*, et al.A MINLP model for multi-period optimization considering couple of gas-steam-electricity and time of use electricity price in steel plant, Applied Thermal Engineering, 2020,168:114834 (SCI 一区) [7] Qi Zhang, Jingtong Gao, Yujie Wang, et al. Exergy-based analysis combined with LCA for waste heat recovery in coal-fired CHP plants. Energy, 169:247-262(SCI一区) [8] Qi Zhang, Ziqing Wei, Jialin Ma, et al. Optimization of energy use with CO2 emission reducing in an integrated iron and steel plant, Applied Thermal Engineering, 2019,157:113635, (SCI一区) [9] Qi Zhang, Yujie Wang, Wei Zhang, Jin Xu. Energy and resource conservation and air pollution abatement in China’s iron and steel industry. Resources, Conservation & Recycling, 2019, 147:67-84. (SCI 一区) [10] Yongjue Tong, Jiuju Cai, Qi Zhang*, et al. Life cycle water use and wastewater discharge of steel production based on material-energy-water flows: a case study in China, Journal of Cleaner Production, 2019,241:118410 (SCI一区) [11] Qi Zhang, Tao Zhao, Tuanjie Ni, Jintong Gao.Optimization models for operation of a steam power system in integrated iron and steel works, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2019 (SCI) [12] Qi Zhang, Hui LI, Jialin Ma, et al. Dynamic forecasting and optimal scheduling of by-product gases in integrated iron and steel works, Journal of Iron and Steel Research International, 2019, 26:529-546 [13] Qi Zhang, Yu LI, Jin XU, Guoyu JIA. Carbon element flow analysis and CO2 emission reduction in iron and steel works. Journal of Cleaner Production，2018，172:709-723 (SCI一区) [14] Qi Zhang, Jin Xu, Xiaoyu Zhao, et al. Energy and exergy analyses of an integrated iron and steelmaking process, International Journal of Exergy, 2018, 26(4):1-8 (SCI) [15] Qi Zhang, Henan YI, Zaihai YU, Jintong GAO, et al.Energy-Exergy analysis and energy efficiency improvement of coal-fired industrial boilers based on thermal test data, Applied Thermal Engineering, 2018,144C:614-627 (SCI一区) [16] Jintong Gao, Qi Zhang*, Xiaozhuang Wang, et al. Exergy and exergoeconomic analyses with modeling for CO2 allocation of coal-fired CHP plants, Energy, 2018, 152:562-575 (SCI一区) [17] Hongyou Lu, Lynn Price, Qi Zhang. Capturing the invisible resource: Analysis of waste heat potential in Chinese industry, Applied Energy, 2016,161:497-511 (SCI一区) [18] Yongjuan Tong, Qi Zhang, Jiuju Cai, Chengkang Gao, Lianyong Wang, Peng Li. Water consumption and wastewater discharge in China’s steel industry, Ironmaking & Steelmaking,2018, 45(10):868-877. (SCI) [19] Marlene Arens, Ernst Worrell, Wolfgang Eichhammer, Ali Hasanbeigi, Qi Zhang. Pathways to a low-carbon iron and steel industry in the medium-term: the case of Germany, Journal of Cleaner Production, 2017,163: 84-98(SCI一区) [20] Qi ZHANG, TI Wei, CAI Jiu-ju, DU Tao, WANG Ai-hua. Multi-period Optimal Distribution Model of Energy Medium and Its Application, Journal of Iron and Steel Research, International,2011,18(8):37-41 (SCI) [21] 张琦，沈佳林，许立松．中国钢铁工业碳达峰及低碳转型路径．钢铁，2021.10 [22]张琦，蔡九菊，钢铁制造流程系统节能与能效提升,钢铁，2021.8 [23] 许立松，张琦. 我国重点区域钢铁产业能耗和CO2排放趋势分析，中国冶金，2021.9 [24] 张琦，王小壮，许立松，沈佳林，钢铁流程资源-能源-碳排放耦合关系及分析，钢铁，2020,55（10）：103-114 [25] 张琦，张薇，王玉洁，徐进，曹先常，中国钢铁工业节能减排潜力及能效提升途径，钢铁，2019，54（2）：78-85 [26] 张琦，刘帅，徐化岩等，钢铁，2019，钢铁企业智慧能源管控系统开发与实践，钢铁，2019，54（10）：125-133 [27] 张琦，马家琳，高金彤，倪团结，李辉. 钢铁联合企业煤气-蒸汽-电力系统耦合优化及应用研究，化工学报，2018，69（5）：3149-3158（EI） [28] 张琦，李洪亮，赵晓宇，贾辉. 高炉煤气产生量与消耗量动态预测模型及应用，哈尔滨工业大学学报，2016，48（1）：101-106（EI） [29]张琦，贾国玉，蔡九菊，沈峰满. 钢铁企业炼铁系统碳素流分析及CO2减排措施，东北大学学报（自然科学版），2013,34（3）：392-394（EI） [30] 张琦，谷延良，提威，蔡九菊．钢铁企业高炉煤气供需预测模型及应用．东北大学学报（自然科学版），2010，31（12）：1737-1740 [31] 张琦，提威，杜涛，蔡九菊．钢铁企业富余煤气-蒸汽-电力耦合模型及应用．化工学报，2011,62（3）：753-758 [32] 张琦，姚彤辉，蔡九菊，沈峰满．高炉炼铁过程多目标优化模型的研究及应用．东北大学学报（自然科学版），2011，32（2）：270-273