曹越 - 东南大学 - 能源与环境学院

个人简介

1989 年 9 月生，山西临汾人，中共党员，工学博士。 2011 年毕业于西安交通大学能源动力系统及自动化专业、工商管理专业，获工学学士、管理学学士学位。 2014 年毕业于上海发电设备成套设计研究院动力机械及工程专业，获工学硕士学位。 2018 年 12 月毕业于西安交通大学动力工程及工程热物理专业，获工学博士学位。 2017 年 8 月至 2018 年 8 月美国宾夕法尼亚州立大学国家公派联合培养博士生学习。 2019 年 9 月进入东南大学能源与环境学院参加工作，历任讲师、副教授、博士生导师，入选江苏省双创博士、江苏省青年科技人才托举工程。担任中国电机工程学会火力发电专委会汽机学组委员、江苏省能源研究会智慧能源专委会委员、南京工程热物理学会理事、中国核电先进数智化工程技术研究中心技术委员，《热力发电》《发电技术》《综合智慧能源》首届青年编委，东南大学-江苏国信智慧能源卓越工程师项目导师/秘书。主要从事新工质循环数智化调控、热力系统性能优化、智能控制理论方面的研究工作。主持国家自然科学基金项目、国家重点研发计划子课题、江苏省自然科学基金项目、江苏省碳达峰碳中和科技创新专项资金项目任务等10余项，主持教育部产学合作协同育人项目，发表高质量论文80余篇，其中SCI论文50余篇，中文核心论文20余篇，申请/授权发明专利40余件。获中国电力科学技术进步奖二等奖、中国自动化学会科学技术进步奖二等奖、中国电力科技创新奖二等奖、浙江电力科学技术奖一等奖、江苏省电力优秀青年工程师、《中国电机工程学报》创刊60周年突出贡献团队、全国卓越工程师培养改革优秀案例等。

研究领域

新工质循环数智化调控热力系统性能优化智能控制理论电热储系统协同调控

近期论文

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[5] Cao Y.* , et al. Techno-economic analysis of cascaded supercritical carbon dioxide combined cycles for exhaust heat recovery of typical gas turbines. Energy Convers. Manage. , 2022, 258: 115536. (IF=10.9) [4] Cao Y. , et al. Thermoeconomic analysis of a gas turbine and cascaded CO2 combined cycle using thermal oil as an intermediate heat-transfer fluid. Energy , 2018, 162: 1253-1268. (IF=9.4) [3] Cao Y. , et al. Thermodynamic analysis and optimization of a gas turbine and cascade CO2 combined cycle. Energy Convers. Manage. , 2017, 144: 193-204. (IF=10.9) [2] Cao Y. , Dai Y. Comparative analysis on off-design performance of a gas turbine and ORC combined cycle under different operation approaches. Energy Convers. Manage. , 2017, 135: 84-100. (IF=10.9) [1] Cao Y. , et al. Optimum design and thermodynamic analysis of a gas turbine and ORC combined cycle with recuperators. Energy Convers. Manage. , 2016, 116: 32-41. (ESI, IF=10.9) [62] Cao Y.* , et al. Operation optimization for a CHP system using an integrated approach of ANN and simulation database . Appl. Therm. Eng. , 2025, 266: 125771. (IF=6.9) [61] Zhou K. , Cao Y.* , et al. Thermodynamic optimization of integrated green ammonia-coal co-firing system with ScCO2 cycle . Appl. Therm. Eng. , 2025, 279: 127742. (IF=6.9) [60] Ma Y, Cao Y.* , et al. Day-ahead scheduling of hybrid molten salt-phase change salt thermal energy storage system applied for peak-shaving of coal-fired power plant . Energy , 2025, 338: 138971. (IF=9.4) [59] Ma Y, Cao Y.* , et al. Multi-objective optimization design of hybrid molten salt-phase change salt thermal energy storage system: An enhanced peak shaving scheme of ultra-supercritical coal-fired power plant . J Energy Storage , 2025, 127: 117145. (IF=9.8) [58] Chen R., Cao Y.* , et al. Multi-objective optimization for a combined heat and power unit with steam ejector at varied boundary: Energy, Economic, and Environment (3E) analysis . Energy , 2025, 323: 135757. (IF=9.4) [57] Xie Z., Cao Y.* , Luo Z.*. Machine learning prediction of physical properties of lignin derived porous carbon via catalytic pyrolysis . Green Chemistry , 2025, 27(7): 2046-2055. (IF=9.2) [56] Tang Y., Qiao Z., Cao Y. , et al. Membrane absorption of separating supercritical carbon dioxide and vapor in geothermal energy utilization based on lattice Boltzmann modeling . Energy , 2025, 329: 136723. (IF=9.4) [55] Tang Y., Qiao Z. , Cao Y. , et al. Lattice Bolzmann modeling for enhanced membrane separation of geothermal energy utilization . Appl. Therm. Eng. , 2025, 260: 124912. (IF=6.9) [54] 马尧，曹越* ，等．基于MLP-MINLP的发电机组干湿联合冷却系统运行优化 [J] ．热力发电， 2025 ， 54(3) ： 121-129 ． [53] 展宗波，任吉平，丁立平，孙兆龙，丁衡，曹越* ．高背压抽凝热电联供系统建模及快速变负荷控制策略研究 [J] ．发电技术， 2025 ． [52] Cao Y.* , et al. Novel performance assessment method for superheated steam control of a coal-fired power plant under renewable energy accommodation condition . Appl. Therm. Eng. , 2024, 243: 122661. (IF=6.9) [51] He T., Cao Y.* , et al. Off-design characteristics and operation strategy analysis of a compressed carbon dioxide energy storage system coupled with a combined heating and power plant . Energy , 2024, 303: 131983. (IF=9.4) [50] Li B., Cao Y.* , et al. Thermodynamic analysis and operation strategy optimization of coupled molten salt energy storage system for coal-fired power plant . Appl. Therm. Eng. , 2024, 236: 121702. (IF=6.9) [49] Tang Y., Qiao Z., Cao Y. , et al. Multi-component multiphase lattice Boltzmann modeling of water purging during supercritical carbon dioxide extraction from geothermal reservoir pores. Renew. Energy , 2024, 220: 119660. (IF=9.1) [48] Cao R., Wang Y., Wu Z., Liu W., Cao Y. * . Thermodynamic analysis and optimization of a supercritical CO2 power cycle driven by a SOF-GT hybrid system. Proc. ASME Turbo Expo , 2024. [47] 李博，曹越* ，等．考虑火电-熔盐储热耦合特性的风光火储能源调度 [J] ．综合智慧能源， 2024 ， 46(12) ： 55-63 ． [46] 陈然璟，陈祎璠，曹越* ，等．基于差压电流比混合模型的磨煤机变加载策略优化 [J] ．综合智慧能源， 2024 ， 46(12) ： 10-16 ． [45] 陈祎璠，曹越，司风琪．燃煤机组过热汽温宽负荷模型前馈控制 [J] ．动力工程学报， 2024 ， 44(1) ： 77-83 ． [44] 贾博清，曹越，司风琪．超临界CO2余热利用系统动态特性及最优负荷控制策略研究 [J] ．热能动力工程， 2024，39(10)：102-112 ． [43] 孙韬志，司风琪，曹越．基于遗传算法的超临界CO2压缩机防喘振自抗扰控制 [J] ．热能动力工程， 2024，39(9)：162-169 ． [42] 黄震洋，周建新，曹越．高背压抽凝供热机组不同供热期运行背压调整优化研究 [J] ．热能动力工程， 2024 ， 39(2) ： 126-134 ． [41] 李东，丁立平，郑涛，曹越* ．供热机组增汽机改造方案能效分析 [J] ．热能动力工程， 2024 ， 39(9) ： 175-182 ． [40] Cao Y.* , et al. Optimum design of bivariate operation strategy for a supercritical/ transcritical CO2 hybrid waste heat recovery system driven by gas turbine exhaust . Energy , 2023, 284: 129325. (IF=9.4) [39] Cao Y.* , et al. Off-design performance analysis of a gas-supercritical carbon dioxide combined cycle under multi-stage mass flow cooperative operation . Appl. Therm. Eng. , 2023, 219: 119486. (IF=6.9) [38] Cao Y.* , et al. Comparative analysis on thermodynamic performance of combined heat and power system employing steam ejector as cascaded heat sink . Energy , 2023, 275: 127444. (IF=9.4) [37] He T., Cao Y.* , et al. Thermodynamic analysis and optimization of a compressed carbon dioxide energy storage system coupled with a combined heating and power unit . Energy Convers. Manage. , 2023, 277: 116618. (IF=10.9) [36] Jin W., Si F., Cao Y. , et al. Numerical research on ammonia-coal co-firing in a 1050 MW coal-fired utility boiler under ultra-low load: Effects of ammonia ratio and air staging condition . Appl. Therm. Eng. , 2023, 233: 121100. (IF=6.9) [35] 丁衡，胡慧，曹越，等．基于改进灰狼算法的热电联供系统负荷优化分配策略研究 [J] ．动力工程学报， 2023 ， 43(11) ： 1516-1522 ． [34] 陈然璟，曹越，司风琪．基于PC-GWO的高背压抽凝热电联供系统负荷优化研究 [J] ．热能动力工程， 2023 ， 38(2) ： 18-25 ． [33] 曹越，等．基于神经网络的燃气-超临界CO2联合循环变工况特性快速预测及优化 [J] ．中国电机工程学报， 2023 ， 43(11) ： 4178-4190 ． [32] Cao Y.* , et al. A concept of a supercritical CO2 Brayton and organic Rankine combined cycle for solar energy utilization with typical geothermal as auxiliary heat source: Thermodynamic analysis and optimization. Energy Reports , 2022, 8: 322-333. (IF=5.2) [31] Cao Y.* , et al. Design optimization of plate-fin heat exchanger in a gas turbine and supercritical carbon dioxide combined cycle with thermal oil loop. Appl. Sci. , 2022. (IF=2.7) [30] Cao Y.* , et al. Multiobjective load dispatch for coal-fired power plants under renewable-energy accommodation based on a nondominated-sorting grey wolf optimizer algorithm. Energies , 2022, 15, 2915. (IF=3.2) [29] Pang Z., Chen R., Cao Y.* . Performance analysis and optimization for static mixer of SCR denitration system under different arrangements. Energies , 2022, 15, 8977. (IF=3.2) [28] Wang P., Si F., Cao Y. , et al. Prediction of superheated steam temperature for thermal power plants using a novel integrated method based on the hybrid model and attention mechanism. Appl. Therm. Eng. , 2022, 203: 117899. (IF=6.9) [27] Jin W., Si F., Cao Y. , et al. Numerical optimization of separated overfire air distribution for air staged combustion in a 1000 MW coal-fired boiler considering the corrosion hazard to water walls. Fuel , 2022, 309: 122022. (IF=7.4) [26] 曹越，等．基于PFNN的火电机组过热汽温辨识方法及控制策略 [J] ．东南大学学报， 2022 ， 52(3) ： 417-424 ． (120周年校庆期-篇首文章) [25] 展君，曹越，等．燃气 - 串级超临界CO2 联合循环变工况策略研究 [J] ．热能动力工程， 2022 ， 37(10) ： 27-34 ． [24] 胡慧，曹越，等．600MW双机热电联供系统智能优化方法研究[J]．热能动力工程，2022，37(10)：41-50． [23] Cao Q.*, Yu J., Cao Y.* , et al. Unusual effects of vacuum annealing on large-area Ag3PO4 microcrystalline film photoanode boosting cocatalyst- and scavenger-free water splitting. J. Materiomics , 2021, 7: 929−939. (IF=9.4) [22] Dong Y., Cao Y. , et al. Co-simulating fouling, erosion of gas-particle flow and morphologies predictions around circular tube via parallel CFD-DEM modeling. Fuel , 2021, 294: 120464. (IF=7.4) [21] Dong Y., Si F., Cao Y. , et al. A new mechanistic model for abrasive erosion using discrete element method. Powder Technol. , 2021, 380: 486-496. (IF=5.2) [20] 李涛，曹越，司风琪．基于改进NSGWO的火电厂负荷优化分配研究[J]．热能动力工程，2021，37(1)：21-27． [19] 李佩蔚，曹越，等．再压缩sCO2-CPG联合循环热力优化[J]．热能动力工程，2021，36(1)：1-9． [18] 庞占洲，黄青岭，曹越，等．600MW火电机组的高加水位改进前馈控制策略研究[J]．热能动力工程，2021，36(3)：106-113． [17] Qiao Z., Cao Y. , et al. Numerical analysis of membrane-absorption separation for supercritical carbon dioxide and water mixture of plume geothermal power generation systems. Energy Convers. Manage. , 2020, 208: 112609. (IF=10.9) [16] Qiao Z., Cao Y. , et al. Thermoeconomic analysis of a CO2 plume geothermal and supercritical CO2 Brayton combined cycle using solar energy as auxiliary heat source. J. Cleaner Prod. , 2020, 256: 120374. (IF=11.1) [15] Qiao Z., Cao Y. , et al. Solvation structure of supercritical CO2 and brine mixture for CO2 plume geothermal applications: A molecular dynamics study. J. Supercrit. Fluids , 2020, 159: 104783. (IF=3.9) [14] Tang Y., Qiao Z., Cao Y. , et al. Numerical analysis of separation performance of an axial-flow cyclone for supercritical CO2 -water separation in CO2 plume geothermal systems. Sep. Purif. Technol. , 2020, 248: 116999. (IF=8.6) [13] 郑少雄，曹越，等．基于辨识模型的中间再热机组一次调频特性研究[J]．热能动力工程，2020，35(7)：12-20． [12] 黄青岭，曹越，等．灵活调峰下火电机组回热系统的CNN-GA-FFC控制策略研究[J]．热能动力工程，2020，35(12)：121-127． [11] Ren J., Cao Y. , et al. Thermodynamic comparison of a gas turbine and ORC combined cycle with pure and mixture working fluids. J. Energy Eng. , 2018, 145(1): 05018002. (IF=2.2) [10] Cao Y. , Dai Y. Preliminary system design and off-design analysis for a gas turbine and ORC combined cycle.J. Energy Eng., 2017, 143(5): 04017040. (IF=2.2) [9] Zheng Y., Hu D., Cao Y. , et al. Preliminary design and off-design performance analysis of an organic Rankine cycle radial-inflow turbine based on mathematic method and CFD method. Appl. Therm. Eng. , 2017, 112: 25-37. (IF=6.9) [8] 曹越，等．带回热的燃气轮机-有机朗肯联合循环热力设计[J]．燃气轮机技术，2017，31(1)：11-15． [7] 任敬琦，曹越，等．H级重型燃气轮机建模与动态仿真[J]．动力工程学报，2017，38(2)：98-104． (F5000) [6] 乔红，曹越，等．燃气-蒸汽联合循环变工况性能和控制策略的研究[J]．热能动力工程，2017，32(3)：33-39． [5] 王永庆，赵嘉，曹越，等．超临界机组及其一次调频控制系统的辨识与仿真[J]．热能动力工程，2017，33(2)：111-116． [4] 乔红，曹越，等．300MW重型燃气轮机数学建模与动态仿真[J]．燃气轮机技术，2016，29(2)：28-33． [3] 王佳莹，高毅超，曹越，等．湿空气透平循环的压缩空气储能热电联供系统热力学分析[J]．西安交通大学学报，2016，50(7)：26-31． [2] Cao Y. , et al. Study of the speed control system of a heavy-duty gas turbine. Proc. ASME Turbo Expo , 2015. [1] 曹越，等．V94.3A燃气轮机控制策略分析[J]．发电设备，2015，29(3)：176-179． [3] 曹越，乔宗良，郭瑞，等．《汽轮机原理》课程教学改革实践 [J] ．中国电力教育， 2024(06)：66-67 ． [2] 乔宗良，张蕾，曹越，等．双碳目标下高校能动专业开展责任关怀教育 [J] ．科技风， 2022(35)：45-47 ． [1] 乔宗良，胥建群，曹越，等．'PBL+课程思政'在《汽轮机原理》课程中的应用 [J] ．中国电力教育， 2022(01)：78-80 ．

学术兼职

中国电机工程学会火力发电专委会汽机学组委员江苏省能源研究会智慧能源专委会委员南京工程热物理学会理事中国核电先进数智化工程技术研究中心技术委员《热力发电》《发电技术》《综合智慧能源》首届青年编委东南大学-江苏国信智慧能源卓越工程师项目导师/秘书