刘培长聘副教授(教研系列)

办公电话:010-62795738转333

电子邮箱:liu_pei@tsinghua.edu.cn

通讯地址:北京市海淀区清华大学舜德楼南403

邮编:100084



教育背景


2006-2009 博士 英国帝国理工学院过程系统工程中心

2005-2006 硕士 英国帝国理工学院过程系统工程中心

2003-2005 硕士 清华大学热能工程系

1999-2003 本科 清华大学热能工程系


工作履历


2017.6 - 今 清华大学热能系 长聘副教授

2013.12 - 2017.6 清华大学热能系 副研究员,准聘副教授

2010.5 - 2013.12 清华大学热能系 助理研究员


学术兼职


Chemical Engineering Research and Design期刊编委,PRES国际会议学术委员会委员,中国动力工程学会编辑出版工作委员会委员


研究领域


能源系统工程、复杂能源系统的建模与优化、电站大数据建模与性能监测


研究概况


从事复杂能源系统的建模、仿真与优化工作,用于指导和优化多联产能源系统、多能协同的分布式能源系统、氢能供应链、二氧化碳捕集及输运系统等的设计与运行,在此基础上开发了用于复杂能源系统优化设计和运行的通用性建模与优化体系,采用超结构建模、混合整数规划、多目标优化、不确定优化等数学方法, 在综合考虑系统能效、经济性、排放特性及未来不确定性因素影响的情况下给出系统的最优设计和运行工况。主编《能源系统工程》(英文)学术专著一部,编/著该领域的学术专著三部,发表SCI论文60余篇,引用1000余次。


奖励与荣誉


获2016年教育部自然科学一等奖,“CO2控制一体化煤基化工动力多联产系统集成理论与方法”

入选清华大学“基础研究青年人才支持计划”(221计划)

受邀担任国际会议23rd International Conference on Efficiency, Cost, Optimization, Simulation, and Environmental Impact of Energy Systems分会主席。

获教育部提名科技进步一等奖,“循环流化床锅炉本体和动态仿真关键技术的研究及产业化”。


学术成果


Journal Articles

[1] Pan, L., Liu, P., and Li, Z. (2017). A system dynamic analysis of China's oil supply chain: Over-capacity and energy security issues. Applied Energy, 188: 508-520.

[2] Song, S., Liu, P., Xu, J., Ma, L., Chong C., et al. (2017). An economic and policy analysis of a district heating system using corn straw densified fuel: A case study in Nong’an county in Jilin province, China. Energies, 10, 8.

[3] Wang, W., Zhang, H., Liu, P., Li, Z., Lv, J., and Ni, W. (2017). The cooling performance of a natural draft dry cooling tower under crosswind and an enclosure approach to cooling efficiency enhancement. Applied Energy, 186: 336-346.

[4] Guo, Z., Ma, L., Liu, P., Jones, I., and Li, Z. (2017). A long-term multi-region load-dispatch model based on grid structures for the optimal planning of China's power sector. Computers & Chemical Engineering, 102: 52-63.

[5] Guo, S., Liu, P., and Li, Z. (2016). Identification and isolability of multiple gross errors in -measured data for power plants. Energy, 114: 117-187.

[6] Bi, X., Liu, P., and Li, Z. (2016). Thermo-dynamic analysis and simulation of a combined air and hydro energy storage (CAHES) system. Energy, 116: 1385-1396.

[7] Guo, S., Liu, P., and Li, Z. (2016). Estimation of exhaust steam enthalpy and steam wetness fraction for steam turbines based on data reconciliation with characteristic constraints. Computers & Chemical Engineering, 93: 25-35.

[8] Guo, Z., Ma, L., Liu, P., Jones, I., and Li, Z. (2016). A Multi-regional modelling and optimization approach to China's power generation and transmission planning. Energy, 116: 1348-1359.

[9] Zhang, R., Liu, P., Zhou, C., Amorelli, A., and Li, Z. (2016). Configuration of inter-city high-speed passenger transport infrastructure with minimal construction and operational energy consumption: A superstructure based modelling and optimization framework. Computers & Chemical Engineering, published online.

[10] Guo, S., Liu, P., and Li, Z. (2016). Inequality constrained nonlinear data reconciliation of a steam turbine power plant for enhanced parameter estimation. Energy, 103: 215-230.

[11] Guo, S., Liu, P., and Li, Z. (2016). Data reconciliation for the overall thermal system of a steam turbine power plant. Applied Energy, 165: 1037-1051.

[12] Cheng, R., Xu, Z., Liu, P., Wang, Z., Li, Z., and Jones, I. (2015). A multi-region optimization planning model for China’s power sector. Applied Energy, 137:413-426.

[13] Guo, Z., Liu, P., Ma, L., and Li, Z. (2015). Effects of low-carbon technologies and end-use electrification on energy-related greenhouse gases mitigation in China by 2050. Energies, 8, 7161-7184.

[14] Koltsaklis, N. E., Liu, P., Georgiadis, M. C. (2015). An integrated stochastic multi-regional long-term energy planning model incorporating autonomous power systems and demand response. Energy, 82: 865-888.

[15] Jiang, X., Liu, P., Li, Z. (2014). A data reconciliation based framework for integrated sensor and equipment performance monitoring in power plants. Applied Energy, 134:270-282.

[16] Jiang, X., Liu, P., Li, Z. (2014). Gross error isolability for operational data in power plants. Energy, 74:918-927.

[17] Jiang, X., Liu, P., Li, Z. (2014). Data reconciliation for steam turbine on-line performance monitoring. Applied Thermal Engineering, 70(1):122-130.

[18] Jiang, X., Liu, P., Li, Z. (2014). Data reconciliation and gross error detection for operational data in power plants. Energy, 75:14-23.

[19] Zhou, C., Liu, P., Li, Z. (2014). A superstructure based mixed-integer programming approach to optimal design of pipeline network for large-scale CO2 transport. AIChE Journal, 60(7):2442-2461.

[20] Zhang, J., Liu, P., Zhou, Z., Ma, L., Li, Z., Ni. W. (2014). A mixed-integer nonlinear programming approach to the optimal design of heat network in a polygeneration energy system. Applied Energy, 114:146-154.

[21] Li, Z., Pan, L., Fu, F., Liu, P., Ma, L., Amorelli, A. (2014). China's regional disparities in energy consumption: An input-output analysis. Energy, 78: 426-438.

[22] Liu, P., Georgiadis, M. C., Pistikopoulos E. N. (2013). An energy systems engineering approach for the design and operation of microgrids in residential applications. Chemical Engineering Research and Design, 91(10): 2054-2069.

[23] Pan, L., Guo, Z., Liu, P., Ma, L., Li, Z. (2013). Comparison and analysis of macro energy scenarios in China and a decomposition-based approach to quantifying the impacts of economic and social development. Energies, 6(7): 3444-3465.

[24] Zhang, D., Liu, P., Ma, L., and Li, Z. (2013). A multi-period optimization model for planning of China's power sector with consideration of carbon dioxide mitigation - The importance of continuous and stable carbon mitigation policy. Energy Policy, 58:319-328.

[25] Zhang, D., Liu, P., Ma, L., and Li, Z. (2013). A multi-period optimization model for optimal planning of China's power sector with consideration of carbon mitigation - The optimal pathway under uncertain parametric conditions. Computers & Chemical Engineering, 50: 196-206.

[26] Zhou, Z., Liu, P., Li, Z., and Ni, W. (2013). An engineering approach to the optimal design of distributed energy systems in China. Applied Thermal Engineering, 53:387-396.

[27] Zhou, Z., Zhang, J., Liu, P., Li, Z., Georgiadis, M. C., and Pistikopoulos, E. N. (2013). A two-stage stochastic programming model for the optimal design of distributed energy systems. Applied Energy, 103: 135-144.

[28] Zhou, Z., Liu, P., Li, Z., and Ni, W. (2013). Economic assessment of a distributed energy system in a new residential area with existing grid coverage in China. Computers & Chemical Engineering, 48, 165-174.

[29] Zhou, Z., Liu, P., Li, Z., Pistikopoulos, E. N., and Georgiadis., M. C. (2013). Impacts of equipment off-design characteristics on the optimal design and operation of combined cooling, heating and power systems. Computers & Chemical Engineering,48, 40-47.

[30] Li, W., Fu, F., Ma, L., Liu, P., Li, Z. et al. (2013). A process-based model for estimating the well-to-tank cost of gasoline and diesel in China. Applied Energy, 102:718-725.

[31] Pan, L., Liu, P., Ma, L., and Li, Z. (2012). A supply chain based assessment of water issues in the coal industry in China. Energy Policy, 48, 93-102.

[32] He, F., Liu, P., Li, Z., and Ni, W. (2012). Integrating low steam demand CO shift process to coal based polygeneration energy systems: Process design and analysis. Energy, 45(1): 169-175.

[33] Zhang, D., Liu, P., Ma, L., Li, Z., and Ni, W. (2012). A multi-period modelling and optimization approach to the planning of China’s power sector with consideration of carbon dioxide mitigation. Computers & Chemical Engineering, 37: 227-247.

[34] Li, Z., Chang, S., Ma, L., Liu, P., Zhao, L., and Yao, Q. (2012). The development of low-carbon towns in China: Concepts and practices. Energy, 47, 590-599.

[35] Zhang, D., Ma, L., Liu, P., Zhang, L., and Li, Z. (2012). A multi-period superstructure optimisation model for the optimal planning of China’s power sector considering carbon dioxide mitigation: Discussion on China’s carbon mitigation policy based on the model. Energy Policy, 41: 173-183.

[36] He, F., Li, Z., Liu, P., and Pistikopoulos, E. N. (2012). Operation window and part-load performance study of a syngas fired gas turbine. Applied Energy, 89(1), 133-141.

[37] Ma, L., Fu, F., Li, Z., and Liu, P. (2012). Oil development in China: Current status and future trends. Energy Policy, 45: 43-53.

[38] Liu, P., Whitaker, A., Pistikopoulos, E. N., and Li, Z. (2011). A mixed-integer programming approach to strategic planning of chemical centres: A case study in the UK. Computers & Chemical Engineering, 35(8): 1359-1373.

[39] Liu, P., Georgiadis, M.C., and Pistikopoulos, E. N. (2011). Advances in energy systems engineering. Industrial & Engineering Chemistry Research, 50(9): 4915-4926.

[40] Li, Z., Liu, P., He, F., Wang, M., and Pistikopoulos, E. N. (2011). Simulation and exergoeconomic analysis of a dual-gas sourced polygeneration process with integrated methanol/DME/DMC catalytic synthesis. Computers & Chemical Engineering, 35(9): 1857-1862.

[41] Ma, L., Liu, P., Fu, F., Li, Z., Ni, W. (2011). Integrated energy strategy for the sustainable development of China. Energy, 36(2): 1143-1154.

[42] Liu, P., Pistikopoulos, E. N., and Li, Z. (2010). An energy systems engineering approach to the optimal design of energy systems in commercial buildings. Energy Policy, 38(8): 4224-4231.

[43] Liu, P., Pistikopoulos, E. N., and Li, Z. (2010). Decomposition based stochastic programming approach for polygeneration energy systems design under uncertainty. Industrial & Engineering Chemistry Research, 49(7): 3295-3305.

[44] Liu, P., Pistikopoulos, E. N., and Li, Z. (2010). A multi-objective optimization approach to polygeneration energy systems design. AIChE Journal, 56(6): 1218-1234.

[45] Li, Z., Gao, D., Chang, L., Liu, P., and Pistikopoulos, E. N. (2010). Coal-derived methanol for hydrogen vehicles in China: energy, environment, and economic analysis for distributed reforming. Chemical Engineering Research and Design, 88(1): 73-80.

[46] Liu, P., Pistikopoulos, E. N., and Li, Z. (2009). A mixed-integer optimization approach for polygeneration energy systems design. Computers & Chemical Engineering, 33(3): 759-768.

[47] Li, Z., Gao, D., Chang, L., Liu, P., and Pistikopoulos, E. N. (2008). Hydrogen infrastructure design and optimization: a case study of China. International Journal of Hydrogen Energy, 33(20): 5275-5286.

[48] Liu, P., Gerogiorgis, D. I., and Pistikopoulos, E. N. (2007). Modeling and optimization of polygeneration energy systems. Catalysis Today, 127(1-4): 347-359.

Journal Articles and Conference Proceedings

[49] Zhao, Z., Wang, T., Liu, P., and Li, Z. (2016). A Sankey diagram approach to quantifying industrial residual energy in China. (PRES 16 – 19th Conference Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Prague).

[50] Zhang, R., Liu, P., and Li, Z. (2016). Optimal high-speed passenger transport network with minimal integrated construction and operation energy consumption based on superstructure model. (PRES 16 – 19th Conference Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Prague).

[51] Guo, Z., Liu, P., Ma, L., and Li, Z. (2015). A grid-structure based multi-region optimisation model for the development of power generation sector in China. Chemical Engineering Transactions, (PRES 15 – 18th Conference Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Malaysia).

[52] Wang, W., Liu, P., Li, Z., Ni, W., Liu, J., and Li, Y. (2015). A numerical study on the improving techniques of the cooling performance of a natural draft dry cooling tower under crosswind. Chemical Engineering Transactions, (PRES 15 – 18th Conference Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Malaysia).

[53] Bi, X., Liu, P., and Li, Z. (2015). System modelling of a combined air and hydro energy storage system. Chemical Engineering Transactions, (PRES 15 – 18th Conference Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Malaysia).

[54] Jiang, X., Liu, P., and Li, Z. (2013). A data reconciliation based approach to accuracy enhancement of operational data in power plants. Chemical Engineering Transactions, 35:1213-1218 (PRES 13 – 16th Conference Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Greece).

[55] Zhou, Z., Liu, P., Zhang, J., and Li, Z. (2012). Evaluating the impact of carbon taxes on the optimal design of distributed energy systems. Advanced Materials Research, 524-527: 2420-2424.

[56] He, F., Liu, P., Ni, W., and Li, Z. (2012). Coal gasification based solid oxide fuel cell power generation with CO2 Capture. 2012 Asia-Pacific Power and Energy Engineering Conference, Proceedings.

[57] Zhou, Z., Liu, P., and Li, Z. (2012). A multi-criteria model for the optimal design of distributed energy systems. 2012 Asia-Pacific Power and Energy Engineering Conference (APPEEC 2012). Shanghai, China.

[58] Gao, D., Jiang, D., Fan, H., Hu, S., Liu, P. et al. (2012). Modeling and case study for regional power grid operation with variety of power plants. 2012 Asia-Pacific Power and Energy Engineering Conference, Proceedings.

[59] Gao, D., Li, Z., Yang, C., Liu, P., Ma, L. et al. (2012). China oil price-GDP elasticity coefficient and optimal strategic petroleum reserve scale analysis. Advanced Materials Research, 347-353: 98-102.

[60] Gao, D., Li, Z., Jiang, D., Ma, L., Liu, P., et al. (2012). Development scale analysis for coal derived synthetic natural gas (SNG) under China energy security. Advanced Materials Research, 347-353:3830-3835.

[61] Pan, L., Liu, P., Li, Z., Chang, S., and Li, Y. (2011). Water issues in the coal supply chain in China. ICMREE2011 - Proceedings 2011 International Conference on Materials for Renewable Energy and Environment, Shanghai, China.

[62] Zhang, D., Liu, P., West, L., Li, Z., and Ni, W. (2011). Reducing initial barriers for CCS deployment on pulverized coal-fired power plants in China by optimizing the capture ratio of carbon dioxide. ICMREE2011 - Proceedings 2011 International Conference on Materials for Renewable Energy and Environment, Shanghai, China.

[63] Li, W., Ma, L., Dai, Y., and Liu, P. (2011). An econometric modeling approach to short-term crude oil price forecasting. Proceedings of the 30th Chinese Control Conference, CCC 2011, 1582-1585.

[64] Pistikopoulos, E. N., Liu, P., and Georgiadis, M. C. (2010). Modelling and optimization issues of the energy systems of the future. Chemical Engineering Transactions, 21:1-6.

[65] 刘培,高健,李政(2006),甲醇/电多联产系统变工况特性的研究,动力工程,26(4): 587-591.

Other Articles

[66] Liu, P., Pistikopoulos, E. N., and Li, Z. (2010). Energy systems engineering: methodologies and applications. Frontiers of Energy and Power Engineering in China, 4(2): 1-12. (Feature article).

Books (Authored/Edited)

[67] Kopanos, G.M., Liu, P., and Georgiadis, M.C. (ed., 2016). Advances in Energy Systems Engineering, ISBN: 978-3-319-42802-4, Springer.

[68] Li, Z., Amorelli, A., and Liu, P. (2016). Informing Choices for Meeting China’s Energy Challenges, ISBN: 978-981-10-2352-1, Springer.

[69] 倪维斗,李政,刘培,煤基多联产技术,科学出版社,北京,2014.

Book Chapter Contributions

[70] Zhao, Z., Liu, P., and Li, Z. (2016). Modelling and Analysis of China’s Passenger Car Fuel Consumption up to 2030. In Kopanos, G.M., Liu, P., and Georgiadis, M.C. (ed.) Advances in Energy Systems Engineering, ISBN: 978-3-319-42802-4, Springer.

[71] Zhou, C., Liu, P., and Pistikopoulos, E. N. (2015). Superstructure-based optimal design of pipeline network for CO2 transport in large-scale carbon capture and sequestration. In You, F. (ed.) Sustainability of Products, Processes and Supply Chains: Theory and Applications, ISBN: 978-0-444-63472-6, Elsevier.

[72] Liu, P., Ma, L., Liu, G., Pan, L., and Li., Z. (2013). Coal-derived liquid fuels, in Zhang, X. (ed.) Sustainable Automotive Energy system in China, ISBN: 978-3-642-36847-9, Springer.

[73] Li, Z., Fu, F., Ma, L., Liu, P., Zhou, Z., et. al. (2013). Petroleum-derived liquid fuels, in Zhang, X. (ed.) Sustainable Automotive Energy system in China, ISBN: 978-3-642-36847-9, Springer.

[74] Liu, P., Pistikopoulos, E. N., and Li, Z. (2008). Polygeneration systems engineering, in M. C. Georgiadis, E. S. Kikkinides, and E. N. Pistikopoulos (ed.) Energy Systems Engineering, ISBN: 978-3-527-31143-9, Wiley-VCH, Weinheim.

[75] Liu, P., and Pistikopoulos, E. N. (2008). Mixed-integer optimization for polygeneration energy systems design, in J. Kallrath, P. M. Pardalos, S. Rebennack, and M. Scheidt (ed.) Optimization in the Energy Industry, ISBN: 978-3-540-88964-9, Springer, Berlin.

[76] Li, Z., Chang, L., Gao, D., Liu, P., and Pistikopoulos, E. N. (2008). Hydrogen energy systems, in M. C. Georgiadis, E. S. Kikkinides, and E. N. Pistikopoulos (ed.) Energy Systems Engineering, ISBN: 978-3-527-31143-9, Wiley-VCH, Weinheim.

Conference Papers

[77] 庄晨宇,刘培,李政 (2016). 基于大数据分析的火电厂设备性能监测. 高等学校工程热物理第二十二届全国学术会议, 哈尔滨.

[78] 刘洋,刘培,杨德荣,李政 (2016). 用于在线监测的直接空冷凝汽器建模. 高等学校工程热物理第二十二届全国学术会议, 哈尔滨.

[79] 余孟亮,刘培,李政 (2016). 基于内效率主导因素模型的汽轮机性能监测. 中国工程热物理学会工程热力学与能源利用学术会议, 广州.

[80] Zhou, C., Liu, P., and Li, Z. (2013). A superstructure based mixed-integer programming approach to the optimal design of a pipelines network for CO2 transport. ESCAPE 23 - The 21st European Symposium on Computer-Aided Process Engineering, Finland.

[81] Zhou, Z., Liu, P., Li, Z., Pistikopoulos, E. N., and Georgiadis, M. C. (2012). Impacts of equipment off-design characteristics on the optimal design and operation of combined cooling, heating and power systems. PSE 2012 – 11th International Symposium on Process Systems Engineering, Singapore.

[82] Pan, L., Liu, P., and Li, Z. (2012). Potential water and energy saving benefits of steam-coal preparation in China. International Conference on Applied Energy (ICAE 2012), Suzhou, China.

[83] Zhang, D., Liu, P., Yang, J., Xue, Y., and Li, Z. (2012). Dynamic optimization of CO2 pipeline network architecture: An example of Hebei Province of China. 2012 Asia-Pacific Power and Energy Engineering Conference (APPEEC 2012). Shanghai, China.

[84] Zhou, Z., Liu, P., Li, Z., and Ni, W. (2011). An engineering approach to the optimal design of distributed energy systems in China. Sustainable Thermal Energy Management in the Process Industries International Conference (SusTEM2011). Newcastle, UK.

[85] He, F., Liu, P., Ni, W., and Li, Z. (2011). A low steam CO shift approach to IGCC with CO2 capture. 2011 World Congress on Engineering and Technology (CET2011). Shanghai, China.

[86] He, F., Liu, P., Ni, W., and Li, Z. (2011). Integrating low steam demand CO shift process to coal based polygeneration energy systems: Process design and analysis. 24th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS2011). Novi Sad, Serbia.

[87] Liu, P., Whitaker, A., Pistikopoulos, E. N., Li, Z., and Chen, Y. (2011). A mixed-integer programming approach to infrastructure planning for chemical centres: A case study in the UK. The 21st European Symposium on Computer-Aided Process Engineering (ESCAPE21), Chalkidiki, Greece.

[88] Gao, D., Jiang, D., Liu, P., Li, Z., Hu, S., and Xu, H. (2011). Efficiency analysis for an energy storage system integrated with an electrolyzer and a hydrogen-oxygen combined cycle. Sustainable Thermal Energy Management in the Process Industries International Conference (SusTEM2011). Newcastle, UK.

[89] Zhang, D., Ma, L., Liu, P., and Li, Z. (2011). A multi-period optimization model for the optimal planning of China’s power sector with consideration of carbon dioxide mitigation. 2011 World Congress on Engineering and Technology (CET2011). Shanghai, China.

[90] Li, W., Ma, L., Dai, Y., and Liu, P. (2011). An econometric modeling approach to short-term crude oil price forecasting. The 30th Chinese Control Conference, Yantai, China.

[91] He, F., Li, Z., Liu, P., and Pistikopoulos, E. N. (2010). Operation window and part-load performance study of a syngas fired gas turbine. Thermal Energy Management Conference (TEM 2010), Newcastle, the UK.

[92] Pistikopoulos, E. N., Liu, P., and Georgiadis, M. C. (2010). Modelling and optimisation issues of the energy systems of the future. PRES2010 (13th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction). Prague, Czech Republic. (Keynote lecture)

[93] Li, Z., Liu, P., He, F., and Wang, M. (2010). A dual-gas sourced integrated Methanol/DME/DMC catalysis approach to polygeneration energy systems design and an exergoeconomic analysis. 23rd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS2010). Lausanne, Switzerland.

[94] Liu, P., Pistikopoulos, E. N., and Li, Z. (2009). An energy systems engineering approach to polygeneration and hydrogen infrastructure systems analysis & design. 12th International Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Rome, Italy.

[95] Liu, P., Pistikopoulos, E. N., and Li, Z. (2009). Environmentally benign process design of polygeneration energy systems. Foundations of Computer-Aided Process Design, Breckenridge, Colorado, USA.

[96] Liu, P., and Pistikopoulos, E. N. (2008). A multi-period mixed integer optimization formulation for polygeneration energy systems. Foundations of Computer-Aided Process Operation, Cambridge, Massachusetts, USA.

[97] Liu, P., Gerogiorgis, D. I., and Pistikopoulos, E. N. (2007). Modelling, investment planning and optimisation for the design of a polygeneration energy system. Computer Aided Chemical Engineering (Proceeding of the 17th European Symposium on Computer-Aided Process Engineering), 24: 1095-1102.

发明专利

[98] 李政,李运泽,冉鹏,王哲,刘培,一种基于水蒸汽与空气增压的抽水蓄能发电系统及方法,201410602591X,已授权,2017.1

[99] 李政,蒋晓隆,刘培,仲晓波,朱泓逻,一种汽轮机系统流量计故障监测方法,2013105960633,已授权,2016.6

[100] 李政,冉鹏,刘培,王哲,金逸,费益军,一种压缩空气蓄能系统,2014100182461,已授权,2016.3

[101] 刘培,李政,肖辉,刘永鹏,余孟亮,郭思思,一种基于统计控制技术的火电机组部件性能变化判定方法,2016108625683,已公开,2017.1

[102] 李政,刘培,郭思思,一种基于数据协调及假设检验的电站系统多故障诊断方法,2016104739914,已公开,2016.12

[103] 李政,刘培,肖辉,余孟亮,郭思思,刘永鹏,一种基于部件特性的火力发电机组在线性能监测方法,2016108610476,已公开,2016.12

[104] 李政,刘培,郭思思,一种基于数据协调的降低电厂数据不确定度的方法,2016104739793,已公开,2016.11

[105] 郭思思,刘培,李政,一种基于动态数据协调降低测量参数噪音的方法,2016104737177,已公开,2016.11

[106] 李政,郭思思,刘培,一种基于数据协调的汽轮机湿蒸汽参数的估计方法,2016104739806,已公开,2016.11