刘永忠 |
主要学历:
1996.03~2000.04 西安交通大学,获工学博士学位
1989.09~1992.06 西安交通大学,获工学硕士学位
1985.09~1989.07 西安交通大学,获工学学士学位
工作经历:
2008.08 ~ 现在 西安交通大学,教授
2001.06 ~ 2008.08 西安交通大学,副教授
1994.12 ~ 2001.06 西安交通大学,讲师
1992.06 ~ 1994.12 西安交通大学,助教
其中2004.09 ~ 2005.09 美国The University of Michigan @ Ann Arbor化工系,访问学者
代表性科研项目:
1.“间歇性低品位能源的动态协同消纳机制及多周期优化设计和调度方法”(项目批准号:21878240),国家自然科学基金面上项目
2.“基于容量衰退动力学机制的多周期储能电池系统柔性集成策略与多目标优化方法”(项目批准号:21676211),国家自然科学基金面上项目
3.“炼化系统大规模动态与多目标优化的GPU 异构并行加速策略及方法”(项目批准号:21376188),国家自然科学基金面上项目
4.“封存CO2裹挟污染物迁移的多前沿跟踪与污染物运移机理”(项目批准号:21176198),国家自然科学基金面上项目
5.“多孔介质中以超临界流体为载体的沉积过程动力学及其控制方法”(项目批准号:20876123),国家自然科学基金面上项目
6.“冷冻干燥过程中相迁移与分布机理的渗滤网络方法研究”(项目批准号:20206026),国家自然科学基金青年基金项目
7. “地下封存CO2中多相驱替的界面传质特性与污染物迁移机理”(项目批准号:20120201110071),博士点基金
8. “基于多周期调度的多厂氢气网络协调方法及应急策略”(项目批准号:2018GY-072),陕西省重点研发计划项目
9. “炼厂硫代谢网络的瓶颈辨识及脱硫系统优化研究”(项目批准号:2015GY095),陕西省工业科技攻关项目
10.“基于生命周期分析的天然气净化装置基准能耗与能效评价” (项目批准号:2013K11-24),陕西省工业攻关计划项目
11.“基于氢夹点分析的炼化企业氢网络系统集成与优化”(项目批准号:2006K07-G26),陕西省工业攻关项目
12.“能源化工系统中能量利用与CO2排放的博弈机制及优化”(项目批准号:2012JM2001),陕西省自然科学基金项目
13.“城市水网络分质优化的模块化系统集成” (项目批准号:GG06015),西安市工业攻关项目
14.“酮苯脱油脱蜡装置的流程优化”
15.“硫平衡分析与脱硫能耗评价”
16.“蜡油加氢装置的换热网络的分析与优化研究”
17.“低浓度氢气回收”
18.“苯乙烯装置的能量系统分析评价与优化”
在国内外重要期刊上发表学术论文100余篇,获国家技术发明二等奖 1 项,中国石油和化学工业科学技术奖科技进步一等奖 1 项、2015年度“王宽诚育才奖”、第八届西安交通大学教学名师奖、第五届陕西青年科技奖、霍英东教育基金会第九届高等院校青年教师奖(教学类)三等奖、陕西省教学成果二等奖2项和西安交通大学中青年教师授课竞赛二等奖等。
其中:
代表性学术论文:
英 文
[1] Lixia Kang, Yongzhong Liu. A Three-step Method to Improve the Flexibility of Multiperiod Heat Exchanger Networks. Process Integration and Optimization for Sustainability, 2018, 2(3):169 - 181
[2] Lixia Kang, Xiaoqiang Liang, Yongzhong Liu. Optimal Design of Inter-plant Hydrogen Networks with Intermediate Headers of Purity and Pressure. International Journal of Hydrogen Energy, 2018, 43: 16638 - 16651
[3] Xiaoqiang Liang, Yongzhong Liu. Strategies of Merging Compressors for Capital Cost Reduction in Hydrogen Networks Synthesis. Process Integration and Optimization for Sustainability, 2018, 2(2):75-83
[4] Le Wu, Xiaoqiang Liang, Lixia Kang, Yongzhong Liu, Christopher M. Saffron. Hydrogen Network Optimization by Integrating Impurity Distributions of a Fluid Catalytic Cracker and Hydrogenation Reaction Kinetics, Journal of Cleaner Production, 2018, 192: 542-552
[5] Lixia Kang,Yongzhong Liu. Design of Flexible Multiperiod Heat Exchanger Networks with Debottlenecking in Subperiods. Chemical Engineering Science, 2018, 185:116-126
[6] Yinghua Jiang, Lixia Kang, Yongzhong Liu. Simultaneous Synthesis of a Multiple-Effect Evaporation System with Background Process. Chemical Engineering Research and Design, 2018, 133: 79-89
[7] Lixia Kang, Xiaoqiang Liang, Yongzhong Liu. Design of Multiperiod Hydrogen Network with Flexibilities in Subperiods and Redundancy Control. International Journal of Hydrogen Energy, 2018, 43: 861-871
[8] Le Wu,Yongzhong Liu, Qundan Zhang. Operational Optimization of a Hydrotreating System Based on Removal of Sulfur Compounds in Hydrotreaters Coupled with a Fluid Catalytic Cracker.Energy & Fuels, 2017, 31 (9): 9850–9862
[9] Xiaoqiang Liang, Lixia Kang,Yongzhong Liu. Impacts of Subperiod Partitioning on Optimization of Multiperiod Hydrogen Networks. Industrial & Engineering Chemistry Research, 2017, 56 (38): 10733–10742
[10] Xiankun Huang, Xiangming He*, Changyin Jiang, Guangyu Tian,Yongzhong Liu*. Reaction Mechanisms on Solvothermal Synthesis of Nano LiFePO4 Crystals and Defect Analysis.Industrial & Engineering Chemistry Research, 2017, 56 (38): 10648–10657
[11] Le Wu, Xiaoqiang Liang, Lixia Kang,Yongzhong Liu, Integration Strategies of Hydrogen Network in a Refinery Based On Operational Optimization of Hydrotreating Units, Chinese Journal of Chemical Engineering, 2017, 25(8):1061-1068
[12] Kang Lixia,Yongzhong Liu, Le Wu. Synthesis of Multi-period Heat Exchanger Networks Based on Features of Sub-period Durations. Energy, 2016, 116: 1302-1311
[13] Xiaoqiang Liang,Yongzhong Liu, Lixia Kang. Retrofit and Optimization for a Vacuum Gas Oil Hydrotreating System Based on Exergy Load Distribution Analysis. International Journal of Exergy, 2016, 21(4):347-368
[14] Le Wu, Yongzhong Liu Xiaoqiang Liang, Lixia Kang. Multi-objective Optimization for Design of a Steam System with Drivers Option in Process Industries. Journal of Cleaner Production, 2016, 136: 89-98
[15] Lixia Kang,Yongzhong Liu, Nan Jiang. Synthesis of Large-scale Heat Exchanger Networks using a T-Q Diagram Method.The Canadian Journal of Chemical Engineering, 2016, 94: 1955-1964
[16] Yong Yang, Yongzhong Liu, Bo Yu, Tian Ding. Analytical solution to dissolved contaminant plume evolution with source depletion during carbon dioxide storage.Journal of Contaminant Hydrology, 2016, 189:1-11
[17] Xiaoqiang Liang, Lixia Kang, Yongzhong Liu. The Flexible Design for Optimization and Debottlenecking of Multi-period Hydrogen Networks. Industrial & Engineering Chemistry Research, 2016, 55 (9): 2574–2583
[18] Le Wu, Yongzhong Liu. Environmental Impacts of Hydrotreating Processes for the Production of Clean Fuels Based on Life Cycle Assessment. Fuel,2016, 164:352-360
[19] Lixia Kang,Yongzhong Liu. Multi-objective Optimization of Heat Exchanger Networks Based on Analysis of Minimum Temperature Difference and Accumulated CO2 Emissions, Applied Thermal Engineering, 2015, 87: 736-748
[20] Lixia Kang, Yongzhong Liu. Multi-objective Optimization on a Heat Exchanger Network Retrofit with a Heat Pump and Analysis of CO2 Emissions Control, Applied Energy, 2015, 154: 696-708
[21] Lixia Kang,Yongzhong Liu. Target-Oriented Methodology on Matching Heat Transfer Areas for a Multiperiod Heat Exchanger Network Retrofit. Industrial & Engineering Chemistry Research, 2014, 53 (45):17753–17769
[22] Lixia Kang; Yongzhong Liu. Retrofit of Heat Exchanger Networks for Multi-period Operations by Matching Heat Transfer Areas in Reverse Order. Industrial & Engineering Chemistry Research, 2014, 53(12):4792-4804
[23] Le Wang, Yongzhong Liu, Khim Chu. A Simplified Model and Similarity Solutions for Interfacial Evolution of Two-Phase Flow in Porous Media. Transport in Porous Media, 2012, 93: 721-735
[24] Yongzhong Liu, Le Wang, Bo Yu. Sharp Front Capturing Method for Carbon Dioxide Plume Propagation during Injection into a Deep Confined Aquifer. Energy & Fuels, 2010 24(2):1431-1440
[25] Yongzhong Liu, Guanhua Li, Le Wang, and et al. Optimal Design of an Integrated Discontinuous Water-Using Network Coordinating with a Central Continuous Regeneration Unit, Industrial & Engineering Chemistry Research, 2009, 48 (24):10924-10940
[26] Khosravi, M., Shams, K. Liu, Y. Z. Sorption Dynamics in Fixed-Beds of Inert Core Spherical Adsorbents Including Axial Dispersion and Langmuir Isotherm, AIChE J.2009, 55(7):1784-1792
[27] Yongzhong Liu, Yanfei Zhao, Xiao Feng. Exergy Analysis for a Freeze-drying Process, Applied Thermal Engineering, 2008, 28:675-690
中 文
[1] 王靖,柯少勇,黄贤坤,刘永忠. 锂离子电池电极颗粒分布对电化学性能的影响分析.化工进展,2018,37(7): 2620-2626
[2] 康丽霞,刘永忠. 考虑冗余控制的多周期换热网络设计. 化工学报,2018,69(3): 1022-1029
[3] 梁肖强, 刘永忠. 氢气网络系统的操作灵活性分析与改进,高校化学工程学报,2017,31(1): 161-169
[4] 姜楠, 刘永忠,朱天鸿. 换热网络合成问题的并行BB/SQP混合算法,化工学报,2016,67 (12): 5169-5175
[5] 吴乐,汤杰国,朱强,刘永忠. 加氢反应过程对炼油厂加氢系统氢耗影响的分析,石油学报(石油加工),2016, 32(5): 1030-1037
[6] 康丽霞,姜楠,夏明星,唐亚哲,刘永忠.基于OpenMP的并行GA算法加速求解换热网络设计.高校化学工程学报,2016,30(2):431-438
[7] 吴乐,朱强,刘永忠. 燃油加氢深度脱硫过程的生态环境影响分析,石油学报(石油加工),2016,32(2): 343-349
[8] 杨勇,刘永忠, 于博,丁天.封存CO2裹挟可挥发性污染物的迁移模型分析(封面文章),化工学报,2015,66 (10): 4155-4162
[9] 康丽霞,刘永忠.考虑热泵设置的换热网络分步改造及多目标优化策略. 化工学报,2014,65(10): 3976-3983
[10] 梁肖强,刘永忠,张亮. 集中式提纯器的设置与具有中间等级氢气网络的优化. 化工进展,2014,33(3): 577-582
[11] 康丽霞,郭小虎,刘永忠.化工系统产品能耗分析的设备级质量流-火用流评价方法. 化工学报,2013,64(12): 4439-4445
[12] 康丽霞, 张燕蓉, 唐亚哲, 刘永忠. 基于GPU加速求解MINLP问题的SQP并行算法.化工学报,2012,63(11): 3597-3601
[13] 刘永忠,王乐,张甲六.封存CO2的泄漏过程预测与泄漏速率的影响因素特性.化工学报,2012,63(4): 1226-1233
[14] 闫哲,刘永忠,张卜升. 基于Kalman滤波的换热器非线性状态参数校正.化工学报,2012,63(2): 523-529
[15] 刘永忠,王乐,董伟,闫哲. 用水系统的近优化运行及其操作窗口获取方法, 化工学报,2011,62(1): 132-136
[16] 李冠华,王乐,刘永忠. 间歇用水系统中废水回用与集中再生处理的调度优化设计方法,化工学报,2010,61(2): 378-383
[17] 刘永忠,黄必武,王乐. 非均质多孔盐水层中超临界CO2的注入压力与饱和度分布特性,化工学报,2010,61(1): 32-42
[18] 刘永忠,段海涛,冯霄.水系统集成优化方案的博弈分析与评价方法.化工学报, 2009, 60(4): 945-951
[19] 李冠华,刘永忠,张进治.并联连续再生/再循环的多杂质间歇用水系统优化方法.化工学报, 2009, 60(1): 134-141
[20] 刘永忠,王乐.多孔介质中超临界流体可调特性的模拟与分析—温度梯度的作用.高校化学工程学报. 2008,22(6):915-920
[21] 刘永忠,张超,彭春来,冯霄,氢网络公用工程消耗量与流股匹配数的优化,石油学报(石油加工),2007,23(5): 78-83
[22] 刘永忠,赵雁飞,陈三强,孙皓. 冷冻干燥过程相迁移和相分布的孔尺度网络模型与模拟,化工学报,2007, 58(2): 286-293
教材:
[1] 刘永忠。第5章“热量传递基础”、第6章“传热过程与换热器”(部分)。见:何潮洪、刘永忠、窦梅、冯霄主编,化工原理(第三版)(上册)(ISBN 978-7-03-053704-1)(全国高等院校化工类专业规划教材、普通高等教育“十一五”国家级规划教材),北京:科学出版社,2017.9
[2] 刘永忠。第4章“热量传递基础”、第5章“传热过程与换热器”。见:何潮洪、冯霄主编,化工原理(第二版)(上册)(ISBN 7-03-019150-1)(全国高等院校化工类专业规划教材、普通高等教育“十一五”国家级规划教材),北京:科学出版社,2007.8
[3] 刘永忠。第4章“热量传递基础”、第5章“传热过程与换热器”。见:何潮洪、冯霄主编,化工原理(ISBN 7-03-009537-5),北京:科学出版社,2001.9
专著:
[1] 冯霄,刘永忠,沈人杰,王黎,邓春。水系统集成优化-节水减排的系统综合方法(第二版)(ISBN 978-7-122-13414-1)。北京:化学工业出版社。2012.5
[2] 冯霄,刘永忠,沈人杰,王黎。水系统集成优化-节水减排的系统综合方法(ISBN 978-7-122-02152-6)。北京:化学工业出版社。2008.5
专利:
1.“一种基于电池容量衰退与工作负荷倒序匹配的纯电动公交车运行路线规划方法”。发明专利申请号:201710366645.0.
2.“一种能够延长动力电池使用寿命的纯电动公交车动态线路规划方法”。发明专利申请号:201710366657.3.
3.“一种余热驱动热泵的含盐废水蒸发结晶系统集成设计方法”。发明专利号:2015 1 0690019.8.
4.“氢气梯级分配管网结构、中间等级及其确定方法”。发明专利号:2008 1 0150391.X.
5.“氢气分配网络的系统集成分析 V1.0”。计算机软件著作权登记。登记号:2008SR02771.
6.“基于中间水道杂质浓度确定的方法及水网络”。发明专利号:ZL 02 1 14597.0
7.“类环状流双相变换热器”。发明专利号:ZL 96 1 18734.4