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常承林����,副教授�����,硕士生导师����,工学博士 2022.11-至今 觊发k8旗舰厅 觊发k8旗舰厅 副教授 化学工程与技术 2022.03-2022.10 中国石油大学(北京) 助教 (化工自动化) 2019.08-2022.02 浙江大学 化学工程与生物工程学院 化学工程与技术 博士后 2017.10-2018.10 美国俄克拉荷马大学 化学工程 联合培养博士 2012.09-2019.06 中国石油大学(北京) 化学工程与技术 工学博士学位 2008.09-2012.06 合肥工业大学 生物工程(生物化工方向) 学士学位 招生信息:欢迎化学工程/工艺����、自动化���、人工智能���、计算机����、生物工程�����、环境工程等专业考生报考硕士研究生;欢迎各专业本科生申报毕业设计����。 |
联系方式
重庆市高新区觊发k8旗舰厅虎溪校区觊发k8旗舰厅���,实验室512
Email: chenglinchang@cqu.edu.cn; chenglinchang@zju.edu.cn;
研究方向
1. 化工系统工程
2. 化工过程模拟与控制优化
3. 化工节能原理与二氧化碳减排
4. 石化过程建模与全局优化算法
5. 化工大数据优化与并行计算方法
6. 炼油厂氢能系统集成与多能互补优化
7. 换热网络设计与改造及换热器详细设计
8. 石化工业蒸汽系统优化与循环冷却水网络柔性分析
主持科研项目
1. 国家自然科学基金委员会����,青年科学基金项目����,2021.01-2023.12�����,主持���。
2. 中国博士后科学基金会�����,面上资助����,2020.05-2021.08�����,结题���,主持�����。
3. 中国博士后科学基金会�����,站前特别资助�����,2019.08-2021.08���,结题�����,主持����。
代表性论文���、专著和专利
(1) Chenglin Chang, Alice Peccini, YFW, André L. H. Costa, Miguel J. Bagajewicz*. Globally optimal synthesis of heat exchanger networks. Part I: Minimal networks. AIChE Journal. 2020; 66: e16267. (Editor’s Choice)
(2) Chenglin Chang, ZWL, André L. H. Costa, Miguel J. Bagajewicz*. Globally optimal synthesis of heat exchanger networks. Part II: Non-minimal networks. AIChE Journal. 2020; 66: e16264.
(3) Chenglin Chang, ZWL, André L. H. Costa, Miguel J. Bagajewicz. Globally optimal synthesis of heat exchanger networks. Part III: Non-isothermal mixing in minimal and non-minimal networks. AIChE Journal. 2021; 67: e17393.
(4) Chenglin Chang, Qucheng Lin, ZWL, JDW, YRY. Globally optimal design of refinery hydrogen networks with pressure discretization. Chemical Engineering Science. 2022; 247: 117021.
(5) Chenglin Chang, ZWL, André L. H. Costa, Miguel J. Bagajewicz. Globally optimal design of intensified shell and tube heat exchangers using complete set trimming. Computers & Chemical Engineering. 2022; 158: 107644.
(6) Chenglin Chang. A mathematical model for hydrogen network synthesis integrating multi-stage compressors. International Journal of Hydrogen Energy. 2022; 47(89): 37677-37693.
(7) Chenglin Chang, Xiaolu Chen, YFW, XF. Simultaneous synthesis of multi-plant heat exchanger networks using process streams across plants. Computers & Chemical Engineering. 2017; 101: 95-109.
(8) Chenglin Chang, ZWL, Miguel J. Bagajewicz. New superstructure-based model for the globally optimal synthesis of refinery hydrogen networks. Journal of Cleaner Production. 2021; 292: 126002.
(9) Chenglin Chang, YFW, Jiaze Ma, Xiaolu Chen, XF. An energy hub approach for direct interplant heat integration. Energy. 2018; 159: 878-890.
(10) Chenglin Chang, Xiaolu Chen, YFW, XF. Simultaneous optimization of multi-plant heat integration using intermediate fluid circles. Energy. 2017; 121: 306-317.
(11) Chenglin Chang, YFW, XF. Optimal synthesis of multi-plant heat exchanger networks considering both direct and indirect methods. Chinese Journal of Chemical Engineering. 2020; 28: 456-465.
(12) Chenglin Chang, Xiaolu Chen, YFW, XF. An efficient optimization algorithm for waste Heat Integration using a heat recovery loop between two plants. Applied Thermal Engineering. 2016; 105: 799-806.
(13) Chenglin Chang, YFW, XF. Indirect heat integration across plants using hot water circles. Chinese Journal of Chemical Engineering. 2015; 23: 992-997.
(14) Chenglin Chang, YFW, XF, Ping Zhang. Efficient Solution Strategy for Stage-wise MINLP Model of Interplant Heat Integration using Heat Recovery Loop. Chemical Engineering Transactions. 2015; 45: 67-72.
(15) Chenglin Chang, YFW, XF, Ping Zhang. A Two Step Methodology for Inter-Plant Heat Integration Design. Chemical Engineering Transactions. 2015; 45: 73-79.
(16) RunRun Song#, Chenglin Chang#, Qikui Tang, YFW, XF, EI-Halwagi MM. The implementation of inter-plant heat integration among multiple plants. Part II: The mathematical model. Energy. 2017; 135: 382-393.
(17) Xuan Dong, Chijin Zhang, Xiaoyi Peng, Chenglin Chang, ZWL, YY, JYS, JDW, YRY. Simultaneous design of heat integrated water allocation networks considering all possible splitters and mixers. Energy. 2022; 238:121916.
(18) Qucheng Lin, Chenglin Chang, ZWL, JYS, BBJ, JDW, YRY. Efficient Strategy for the Synthesis of Work and Heat Exchange Networks. Industrial & Engineering Chemistry Research. 2021; 60: 1756-1773.
(19) Zhuang Zhang, Chun Deng*, Chenglin Chang, Fanxin Kong, Jui-Yuan Lee, Denny K. S. Ng, Xiao Feng. Optimal Design of a UF-RO Treatment System for Shale Gas Fracturing Flowback Wastewater. Industrial & Engineering Chemistry Research. 2020; 59: 5905-5920.
(20) YFW, Zehuan Wan, Chenglin Chang, XF. A game theory based method for inter-plant heat integration considering cost allocation. Chinese Journal of Chemical Engineering. 2020; 28: 1652-1660.
(21) Jiaze Ma, Chenglin Chang, YFW, XF. Multi-objective optimization of multi-period interplant heat integration using steam system. Energy. 2018; 159: 950-960.
(22) Xiaolu Chen, Chenglin Chang, YFW, XF. An Energy Hub Approach for Multiple-plants Heat Integration. Chemical Engineering Transactions. 2016; 52, 571-576.
(23) YFW, Chenglin Chang, XF. A systematic framework for multi-plants Heat Integration combining Direct and Indirect Heat Integration methods. Energy. 2015; 90: 56-67.
(24) YFW, XF, Chenglin Chang. Heat Integration Between Plants with Combined Integration Patterns. Chemical Engineering Transactions. 2014; 39: 1747-1752.
