师资情况LIST OF TEACHERS

教授

解百臣

工程管理系 教授

电子邮箱:xiebaichen@126.com

研究方向:能源环境政策与管理;管理决策与运筹技术

个人简介

【个人简介】

天津大学,管理与经济学部教授,博士生导师,剑桥大学能源政策研究中心客座研究员

解百臣(1981-)近年来一直致力于资源管理与政策、评价理论与方法的科研和教学工作,在能源经济学、电力系统环境效率评价、建筑节能潜力分析、能源与电力发展规划等方面取得了多项创新性的研究成果。近年来主持了二十余项科研项目,其中包括国家社会科学基金重大项目1项,自然科学基金重点项目1项,面上项目和青年项目4项,联合国开发规划署项目1项,工程院重大战略咨询项目、重点咨询项目课题各1项;已结题的2项国家自然科学基金项目后评估结果分别为“优”和“特优”。作为高校负责人参与编制了天津市“十三五”能源发展规划和青海省清洁能源示范省建设规划,另作为研究骨干参加国家自然科学基金重点项目等多项科研课题。作为第一或通讯作者在《OMEGA:the International Journal of Management Science》、《Energy Economics》、《Applied Energy》、《Energy Policy》、《Renewable and Sustainable Energy Reviews》、《International Journal of Production Research》、《Transport Policy》和《管理评论》、《中国管理科学》等国内外期刊发表论文70余篇。

由于科研成果突出,申请人先后获得国际奖项埃尼(Eni)奖提名奖、天津市第十四届社会科学优秀成果二等奖(排名第一)等学术荣誉,代表中国参加APEC组织能源工作组论坛,担任ESCI“智慧社区”国际能源大赛主评专家;并分别于2016年和2018年入选天津大学北洋青年学者计划和天津市“131”创新型人才计划第二层次人选。

研究成果

(一)英文论文

1. 英文期刊论文

[1] Bai-Chen Xie, Jianli Jiang*, Xian-Peng Chen. Policy, technical change, and environmental efficiency: Evidence of China's power system from dynamic and spatial perspective[J]. Journal of Environmental Management, 2022.323, 116232. SCI二区/SSCIQ1/ABS3. IF: 8.91. DOI: 10.1016/j.jenvman.2022.116232

[2] Tao Zhang, Hong-Zhou Li, Bai-Chen Xie*. Have renewables and market-oriented reforms constrained the technical efficiency improvement of China's electric grid utilities? [J]. Energy Economics 2022.114, 106237. SSCI Q1, ABS3, IF: 9.252. DOI:10.1016/j.eneco.2022.106237

[3] Xu Tan, Sheng Lin, Yan-Li Liu, Bai-Chen Xie *. Has the inter-regional transmission expansion promoted the low-carbon transition of China’s power sector? [J]. Computers and Industrial Engineering. 2022:168, 108059. SCI二区/SSCIQ1/ABS2. IF: 5.431. DOI: 10.1016/j.cie.2022.108023

[4] Tan Xu, Lin Sheng, Xie Bai-Chen*. The distributional effect of interregional transmisssion grid expansion on China’s power industry[J]. Climate Change Economics,2022: 13(1): 2240005. SSCI. IF: 1.465. Doi:10.1142/S201000782240005X

[5] Bai-Chen Xie, Long Lu, Na Duan. Environmental efficiency assessment of China's integrated power system under the assumption of semi-disposability[J]. Computers and Industrial Engineering. 2022:167, 108023. SCI二区/SSCIQ1/ABS2. IF: 5.431. DOI: 10.1016/j.cie.2022.108023

[6] Bai-Chen Xie*, Zhen-Jiang Zhang, Karim L. Anaya, Has the unbundling reform improved the service efficiency of China’s power grid firms? [J], Energy Economics, 2021. 104993. SSCI Q1, ABS3, IF: 5.203.

[7] Bai-Chen Xie, Xin-Yun Tan, Shuang Zhang*, Hui Wang. Decomposing CO2 emission changes in thermal power sector: A modified production-theoretical approach[J]. Journal of Environmental Management, 2021: 281, 111887. SCI二区/SSCIQ1/ABS3. IF: 5.647.

[8] Bai-Chen Xie, Yun-Fei Chen, Jie Gao, Shuang Zhang*. Dynamic environmental efficiency analysis of China's power generation enterprises: a game cross-Malmquist index approach[J]. Environmental Science and Pollution Research, 2021, 28(2): 1697-1711. SCI

[9] Li-Qiu Liu, Kai-Lin Liu, Tao Zhang, Kai Mao, Chang-Qing Lin, Ya-Feng Gao, Bai-Chen Xie*, Spatial characteristics and factors that influence the environmental efficiency of public buildings in China[J]. Journal of Cleaner Production, 2021, 322, 128842. SCI一区/SSCIQ1. IF: 9.297.

[10] Shuai Shao, Chang Wang, Yue Guo, Bai-Chen Xie*, Zhihua Tian, Shiyi Chen*. Heterogeneous performances and consequences of China's industrial environmental governance: clean production vs. end-of-pipe treatment[J]. Journal of Environmental Planning and Management, 2023, 66(1): 143-168. SSCIQ2. IF:2.735. 10.1080/09640568.2021.1980377

[11] Bai-Chen Xie,Kang-Kang Ni*,Eoghan O'Neill,Hong-Zhou Li. The scale effect in China's power grid sector from the perspective of malmquist total factor productivity analysis[J]. Utilities Policy, 2021, 69, 101187. SSCIQ2. IF: 1.835.

[12] Peng Hao , Junpeng Guo, Bai-Chen Xie*. Does combined strategy outperform solo actions? The impact of incentive policy on renewable power generation [J]. OMEGA: The International Journal of Management Science,2020,97, 102100.

[13] Xu Tan, Sheng Lin, Yan-Li Liu, Bai-Chen Xie*. Has the inter-regional transmission grid promoted clean power development? A quantitative assessment on China's electricity sector[J]. Journal of Cleaner Production, 2020, 269, 122370. SCI一区/SSCIQ1. IF: 7.246.

[14] Zhen-Yu She, Gang Meng, Bai-Chen Xie*, Eoghan O'Neill. The effectiveness of the unbundling reform in China’s power system from a dynamic efficiency perspective[J]. Applied Energy, 2020, 114717. SCI一区/SSCIQ1. IF: 8.413.

[15] Bai-Chen Xie,Jia-Xin Zhai, Peng-Cheng Sun, Jia-Jun Ma*. Assessment of energy and emission performance of a green scientific research building in Beijing, China[J]. Energy and Buildings, 2020, 224, 110248. SCI二区/SSCIQ1. IF: 4.867.

[16] Mei Xu, Pu Xie, Bai-Chen Xie*.Study of China’s Optimal Solar Photovoltaic Power Development Path to 2050 [J]. Resources Policy, 2020, 65, 101541

[17] Na Duan, Jun-Peng Guo, Peng Zhou, Bai-Chen Xie*. The impacts of the coal-electricity price linkage on the profit efficiency of China’s thermal power plants[J], International Journal of Production Research [J], 2019, 57(23): 7457-7470.

[18] Xiao-Yan Liu, Michael G. Pollitt, Bai-Chen Xie*, Li-Qiu Liu. Does environmental heterogeneity affect the productive efficiency of grid utilities in China? Energy Economics [J], 2019, 83, 333-344.

[19] Bai-Chen Xie, Wei Zhao, Zhong-Ling Yin, Pu Xie*. How much will the residents pay for clean energy? Empirical study using the double bound dichotomous choice method for Tianjin, China[J], Journal of cleaner production, 2019, 241, 118-208.

[20] Jia-Jun Ma, Gang Du, Bai-Chen Xie*. CO2 emission changes of China's power generation system: Input-output subsystem analysis, Energy Policy[J], 2019, 124, 1-12, SCI一区/SSCIQ1. IF:4.039.

Cover paper of the 1st issue of the journal in 2019.

[21] Bai-Chen Xie*, Wei Zhao. Willingness to pay for green electricity in Tianjin, China: Based on the contingent valuation method [J], Energy Policy, 2018, 114, 98-107, SCI一区/SSCIQ1. IF:4.140.

[22] Shuang Zhang, Tao Zhao, Bai-Chen Xie*.What is the optimal power generation mix of China? An empirical analysis using portfolio theory[J]. Applied Energy, 2018, 229(1): 522-536. SCI一区/SSCIQ1. IF: 7.182.

[23] Bai-Chen Xie, Jie-Yong Wang, Jia-Jun Ma, Na Duan*. Efficiency evaluation of China’s provincial power systems based on the dynamic network slacks-based measure model[J], Journal of cleaner production, 2018, 174, 650-660. SCI二区/SSCIQ1. IF:5.715

[24] Bai-Chen Xie, Jie Gao, Shuang Zhang, Rui-Zhi Pang, ZhongXiang Zhang. The environmental efficiency analysis of China’s power generation sector based on game cross-efficiency approach[J], Structural Change and Economic Dynamics, 2018, 46, 126-135, SSCI. IF:1.542

[25] Bai-Chen Xie*, Jie Gao,Yun-Fei Chen, Na-Qian Deng. Measuring the Efficiency of Grid Companies in China: A Bootstrapping Non-Parametric Meta-Frontier Approach[J], Journal of cleaner production, 2018, 174, 1381-1391. SCI二区/SSCIQ1. IF:5.715

[26] Shuang Zhang, Tao Zhao, Bai-Chen Xie*. What drives the GHG emission changes of the electric power industry in China? An empirical analysis using the Logarithmic Mean Divisia Index method[J], Carbon Management, 2017, 8(5-6): 363-377. SSCIQ2. IF:1.663.

[27] Jia-Jun Ma, Gang Du, Zengkai Zhang, Pei-Xing Wang,Bai-Chen Xie*, Life cycle analysis of energy consumption and CO2 emissions from a typical large office building in Tianjin, China, Building and environment, 2017, 117: 36-48. SCI二区/SSCIQ1,IF:3.394.被主编推荐参评年度最佳论文

[28] Zhen-Yu She, Qing-Sun, Jia-Jun Ma, Bai-Chen Xie*. What are the barriers to widespread adoption of battery electric vehicles? A survey of public perception in Tianjin, China[J], Transport Policy, 2017, 56: 29-40. SSCIQ1,IF: 1.522.

[29] Bai-Chen Xie*, Na Duan, Yi-Shu Wang. Environmental efficiency and abatement cost of China's industrial sectors based on a three-stage data envelopment analysis[J], Journal of cleaner production, 2017, 153: 626-636. SCI二区/SSCIQ1. IF:4.959

[30] Na Duan, Jun-Peng Guo, Bai-Chen Xie*. Is there a difference between the energy and CO2 emission performance for China's thermal power industry? A bootstrapped directional distance function approach[J]. Applied Energy, 2016, 162(1): 1552-1563. SCI一区/SSCIQ1. IF: 7.182. IDS: DA2MX. WOS: 000367631000137. DOI: 10.1016/j.apenergy.2015.02.066. ESI高被引论文

[31] Ze-Yu Lu, Wen-Hua Li, Bai-Chen Xie*, Li-Feng Shang. Study on China's wind power development path-Based on the target for 2030[J]. Renewable and Sustainable Energy Reviews, 2015, 51(1): 197-208. SCI一区. IF: 6.798. INSPEC:15614167. IDS: DF0AL. WOS: 000371000900015. DOI: 10.1016/j.rser.2015.06.024.

[32] Jia-Jun Ma, Li-Qiu Liu, Bin Su, Bai-Chen Xie*. Exploring the critical factors and appropriate polices for reducing energy consumption of China's urban civil building sector[J]. Journal Of Cleaner Production, 2015, 103(1): 446-454. SCI二区/SSCIQ1. IF: 4.959, IDS: CL5HQ. WOS: 000356990800042. DOI: 10.1016/j.jclepro.2014.11.001.

[33] Ping Du, Li-Qun Zheng, Bai-Chen Xie*, Arjun Mahalingam. Barriers to the adoption of energy-saving technologies in the building sector: A survey study of Jing-jin-tang, China[J]. Energy Policy, 2014, 75(1): 206-216. SCI一区/SSCIQ1. IF: 2.575. IDS: AY5HY. WOS: 000347604500024. DOI: 10.1016/j.enpol.2014.09.025.

[34] Bai-Chen Xie*, Li-Feng Shang, Si-Bo Yang, Bo-Wen Yi. Dynamic environmental efficiency evaluation of electric power industries: Evidence from OECD (Organization for Economic Cooperation and Development) and BRIC (Brazil, Russia, India and China) countries[J]. Energy, 2014, 74(1): 147-157. SCI一区/SSCIQ1. IF: 4.844. IDS: AQ5PW. WOS:000342862100016. DOI: 10.1016/j.energy.2014.04.109.

[35] Yi-Shu Wang, Bai-Chen Xie*, Li-Feng Shang, Wen-Hua Li. Measures to improve the performance of China's thermal power industry in view of cost efficiency[J]. Applied Energy, 2013, 112(1): 1078-1086. SCI一区/SSCIQ1. IF: 5.261. IDS: 285FA. INSPEC: 14489319. DOI: 10.1016/j.apenergy.2013.01.037.

[36] Bai-Chen Xie, Ying Fan*, Qian-Qian Qu. Does generation form influence environmental efficiency performance? An analysis of China's power system[J]. Applied Energy, 2012, 96(1): 261-271. SCI一区/SSCIQ1. IF: 4.781. IDS: 963BQ. WOS: 000305595500026. DOI: 10.1016/j.apenergy.2011.11.011.

[37] Li-Qiu Liu, Yi-Xuan Hao, Shuang Zhang, Ying-Zhi Deng*, Bai-Chen Xie. The Environmental Efficiency of China’s Thermal Power Enterprises: A Bootstrapped Direction Distance Function with Meta-Frontier Approach[J]. Journal of Energy Engineering, 2020, 04020034. SCI

[38] Zhen-Yu She; Rui Cao; Bai-Chen Xie; Jia-Jun Ma; Sheng Lan*. An analysis of the wind power development factors by Generalized Bass Model: A case study of China's eight bases[J]. Journal of Cleaner Production, 2019, 231: 1503-1504.

[39] H. Wang, P. Zhou, Bai-Chen Xie, N. Zhang. Assessing drivers of CO2 emissions in China's electricity sector: A metafrontier production-theoretical decomposition analysis[J]. European Journal of Operation Research, 2019,275:1096-1107, SCI一区/SSCIQ1. ABS四星

[40] Hong-Zhou Li, Maria Kopsakangas-Savolainen, Ming-Zhe Yan, Jian-Lin Wang, Bai-ChenXie. Which provincial administrative regions in China should reduce their coal consumption? An environmental energy input requirement function based analysis[J], Energy Policy, 2019, 127, 51-63 SCI一区/SSCIQ1. IF:4.039.

[41] Yan-Qing Kang*, Bai-Chen Xie, Juan Wang, Ya-Nan Wang. Environmental assessment and investment strategy for China's manufacturing industry: A non-radial DEA based analysis[J], Journal of cleaner production, 2018, 175, 501-511. SCI二区/SSCIQ1. IF:5.715

[42] Xiao-Dan Guo, Lei Zhu, Ying Fan*, Bai-Chen Xie. Evaluation of potential reductions in carbon emissions in Chinese provinces based on environmental DEA[J]. Energy Policy, 2011, 39(5): 2352-2360. SCI一区/SSCIQ1. IF: 2.723. IDS: 759JW. INSPEC: 12092716. DOI: 10.1016/j.enpol.2011.01.055.

[43] Jia-Jun Ma, Gang Du, Bai-Chen Xie*, Zhen-Yu She, Wei Jiao. Energy Consumption Analysis on a Typical Office Building: Case study of the Tiejian Tower, Tianjin[J]. Energy Procedia, 2015, 75(1): 2745-2750. BD4SH. WOS: 000361030004057. DOI: 10.1016/j.egypro.2015.07.506.

[44] Bai-Chen Xie*, Yu-Hua Wu, Ying-Zhi Deng. Efficiency analysis of listed power companies based on Malmquist index[J]. Journal of Southwest Jiaotong University (English Edition), 2008, 16(1): 86-91.

2.英文国际会议论文

[1] Bai-Chen Xie, Tao Zhang*, Yong-Heng Shi. Will the Tariff Reform Bridge Cost Efficiency Gap between State Branch and Local Grid Firms? The 43rd International Association for Energy Economics Conference (43rd IAEE), July. 31st-Aug. 3rd, 2022, Tokyo, Japan.

[2] Xian-Peng Chen, Bai-Chen Xie*. Evaluation of Generation Efficiency for Solar Power Plants in China Based on Stochastic Data. The 43rd International Association for Energy Economics Conference (43rd IAEE), July. 31st-Aug. 3rd, 2022, Tokyo, Japan.

[3] Yong-Heng Shi, Peng Hao, Bai-Chen Xie*. Market Power and asymmetry information: The inefficiency of merit order effect. 2022 International Conference on Climate and Energy Finance, August 13-14, 2022, Nanjing, China.

[4] Jian-Li Jiang, Bai-Chen Xie*. Policies, technical change, and environment efficiency Evidence from power system in China from dynamic and spatial perspective. 2022 International Conference on Climate and Energy Finance, August 13-14, 2022, Nanjing, China.

[5] Bai-Chen Xie*, Zhen-Jiang Zhang. Has the unbundling reform improved service efficiency and technical efficiency of China’s power grid companies. The 42nd International Association for Energy Economics Conference (42nd IAEE), May. 29th-June. 1st, 2019, Montreal, Canada.

[6] Mei Xu, Pu Xie, Bai-Chen Xie*. Study on China’s solar photovoltaic power development path for the target of 2050. The 7th International Conference on Applied Energy (ICAE), Aug. 22nd -25th, 2018, Hong Kong.

[7] Bai-Chen Xie*, Zhen-Jiang Zhang. Has the unbundling reform improved service efficiency and technical efficiency of China’s power grid companies. The 4th International Association of Energy Economics Asia Conference (IAEE Asian), Nov. 2nd-4th, 2018, Wuhan, China.

[8] Zhang Shuang, Zhao Tao, Bai-Chen Xie*. Analysis of power generation mix in China: An evaluation based on portfolio theory. Applied Energy Symposium and Forum, REM2017: Renewable Energy Integration withMini/Microgrid, Oct.18th-20th, 2017, Tianjin, China.

[9] Jia-Jun Ma, Bai-Chen Xie*. Exploring the Influential Factors for Improving the Power Sector’s Environment Performance: Based on Ecological Input-Output Table. Chinese Economics Society of Australia 2017, July12th-14th, 2017, Perth, Australia.

[10] Bai-Chen Xie*, Jie Gao. Dynamic environmental efficiency analysis on China’s generation sector: A game cross Malmquist approach. The 40th IAEE international conference, June 18th -21st , 2017, Singapore.

[11] Bai-Chen Xie, Wei Zhao, Li-Qiu Liu*. Willingness to pay for Green Electricity in Tianjin, China: Based on Contingent Valuation Method. The 40th IAEE international conference, June 18th -21st, 2017, Singapore.

[12] Bai-Chen Xie*, Yun-Fei Chen, Michael Pollitt. Measuring the efficiencies of China’s grid companies: A bootstrapped meta-frontier approach, 14th International Conference on Data Envelopment Analysis, May 23rd- 26th, 2016, Wuhan, China.

[13] Na Duan, Jun-Peng Guo, Bai-Chen Xie*. The impact of coal-electricity linkage on the cost efficiency of China’s thermal power industry. The 11th Asia-Pacific Productivity Conference, July 7th-10th, 2016, Tianjin, China.

[14] Na Duan, Jun-Peng Guo, Bai-Chen Xie*. The impact of coal-electricity linkage on the cost efficiency of China’s thermal power plants. The 33rd United States Associations for Energy Economics/International Association for Energy Economics North American Conference (USAEE), Oct. 25th -28th, 2015, Pittsburg, USA.

[15] Jia-Jun Ma, Gang Du, Bai-Chen Xie*, Zhen-Yu She, Kui Jiao. Energy consumption analysis on a typical office building: case study of the Tiejian Tower, Tianjin. The 7th International Conference on Applied Energy (ICAE), 28th -31st Mar., 2015, Abu Dhabi, United Arab Emirates.

[16] Bai-Chen Xie*, Michael Pollitt, Shuang Zhang. Efficiency analysis on China's grid industry from the perspective of operation and service quality. The 4th International Association of Energy Economics Asia Conference (IAEE Asian), Sept.19th -21st , 2014, Beijing, China.

[17] Na Duan, Jun-Peng Guo, Bai-Chen Xie*. Environmental performance assessment of China's thermal power industry: a bootstrap-Malmquist approach. The 6th International Conference for Applied Energy (ICAE), May.30th - Jun. 2nd, 2014, Taipei, China.

[18] Bai-Chen Xie*, Li-Feng Shang, Si-Bo Yang, Bo-Wen Yi. Dynamic environmental efficiency evaluation on electric power industries: Evidence from OECD and BRIC countries. The 26th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS), Jul.16th -19th , 2013, Guilin,China.

[19] Bai-Chen Xie*, Li-Feng Shang, Si-Bo Yang, Bo-Wen Yi. Environmental dynamic efficiency study for power systems: Evidence from 23 OECD countries and China. Institute for Operations Research and the Management Sciences Beijing Conference (INFORMS), Jun. 24th -27th , 2012, Beijing, China.

[20] Bai-Chen Xie*,Yi-Shu Wang, Li-Feng Shang, Wen-Hua Li. How to incentivize the sustainable development of China's thermal power industry? The 4th International Conference for Applied Energy (ICAE), Jul. 5th -8th , 2012, Suzhou, China.

[21] Gang Du*, Jun-peng Guo, Jun-yan Zhang, Xiao-tao Zhao, Bai-chen Xie, Shi-quan Zhong. The innovation and practice of three-dimension instructional design in operations research. The 3rd International Asia Conference on industrial engineering and management innovation (IEMI), Aug. 10th -11th , 2012, Beijing, China.

[22] Bai-Chen Xie, Ying Fan*. Modeling undesirable outputs in efficiency evaluation for power systems in China: A network DEA analysis. The 6th Conference on Sustainable Development of Energy, Water and Environment Systems (SDEWES), Sept. 25th -29th , 2011, Dubrovnik, Croatia.

[23] Bai-Chen Xie*, Jin-Xiang Wang. DEA Malmquist productivity measure with an application to special automobile industry. The 6th International Conference on Service Systems and Service Management (ICSSSM), Jun.8th -10th , 2009, Xiamen, China.

[24] Bai-Chen Xie*, Yu-Hua Wu. Evolvement of Malmquist index study: The case of Chinese iron and steel industry. The 3rd International Conference on Wireless Communications, Networking and Mobile Computing (Wicom), Sept. 21st -25th , 2007, Shanghai, China.

[25] Bai-Chen Xie*, Yu-Hua Wu, Ying-Zhi Deng. An incentive scheme design for long-term contractor cooperation. The 4th International Conference on Machine Learning and Cybernetics (ICMLC), Aug.19th -22nd , 2007, Hong Kong.

[26] Bai-Chen Xie*, Yu-Hua Wu, Ying-Zhi Deng. An incentive scheme for choosing third party logistics providers. The 6th International Conference on Machine Learning and Cybernetics (ICMLC), Aug. 19th -22nd, 2007, Hong Kong.

(二)中文论文

[1] 解百臣, 徐骏*, 迈克尔·G.波利特. 新一轮电改对用户电价的影响——基于广东省和浙江省的实践分析[J]. 财经智库,2022,7(04):89-114+147-148.

[2] 解百臣, 谭昕昀, 张爽. 基于生产理论分解分析的中国火电企业碳排放变化研究[J]. 中国人口资源环境, 2021,31(4): 42-50.

[3] 解百臣, 卢龙, 段娜. 网络结构视角下的中国电力系统生产效率研究[J].中国电力, 2021, 54(12): 128-136.

[4] 曲茜茜, 解百臣, 殷可欣. 考虑非理想产出的中国火电行业效率省际差异分析[J]. 资源科学, 2012, 34(6): 1160-1166.

[5] 解百臣, 张宝成, 吴育华. 收益型Malmquist指数置信区间估计[J]. 北京理工大学学报(自然科学版), 2010, 30(10): 1252-1255.

[6] 解百臣, 徐大鹏, 刘明磊, 许睿. 基于投入型Malmquist指数的省际发电部门低碳经济评价[J]. 管理评论, 2010, 21(6): 119-128.

[7] 解百臣, 杜纲. 效用型Malmquist指数方法及火电类上市公司实证分析[J]. 中国管理科学, 2010, 18(1): 46-51.

[8] 解百臣, 吴育华, 赵学金. FMS中“柔性”的定量评价模型研究[J]. 运筹与管理, 2009, 18(5): 116-119.

[9] 解百臣, 吴育华, 杨顺元. 投资项目集合选择问题的非线性规划模型与解法研究[J]. 中国管理科学, 2008, 16(6): 82-86.

[10] 解百臣, 吴育华, 邓英芝. Malmquist指数研究新视角及轿车企业实证分析[J]. 系统管理学报, 2007, 16(4): 460-464.

[11] 解百臣, 付辰, 邓英芝. 基于DEA视窗分析理论的普通高中教育效率研究[J]. 现代远程教育研究, 2012, (2): 82-89.

[12] 解百臣, 曲茜茜, 邓英芝. 基于SBM交叉效率的普通高中教育效率评价研究[J]. 现代远程教育研究, 2011, (5): 79-83.

[13] 解百臣, 王一舒, 商利峰. 考虑逆向选择与道德风险的保险契约研究[J]. 西南交通大学学报(社会科学版), 2010, 11(6): 13-18.

[14] 解百臣, 杜纲. 欠发达地区普通高中招生机制研究——基于山东省莘县的案例分析[J]. 西南交通大学学报(社会科学版), 2010, 11(1): 27-30.

[15] 解百臣, 杜纲. 基于序贯博弈的房价形成机制研究[J]. 北京理工大学学报(社会科学版), 2009, 11(6): 58-61.

[16] 解百臣, 吴育华, 邓英芝. 企业慈善免税政策的三方博弈[J]. 统计与决策, 2008, (14): 57 -59.

[17] 解百臣, 吴育华. 寿险投资监管政策博弈分析与调整[J]. 软科学, 2008, 22(10): 53-55.

[18] 解百臣, 吴育华, 邓英芝. 客车行业生产效率变动趋势研究[J]. 北京理工大学学报(社会科学版), 2007, 9(5): 65-68.

[19] 解百臣, 吴育华. 企业员工培训投资博弈分析[J].哈尔滨工业大学学报(社会科学版), 2007, 9(3): 97-100.

[20] 解百臣, 吴育华, 邓英芝. 基于Malmquist指数的客车企业效率研究[J]. 西安电子科技大学学报(社会科学版), 2007, 17(4): 21-26. 人大复印资料转载.

[21] 解百臣. 中国教育投资机制及其对策分析[J]. 中国地质大学学报(社会科学版), 2007, 7(1): 23-26. 新华文摘2007(7)辑览, 北京大学“教育的权利与权益”论文集转录, 人大复印资料转载.

[22] 解百臣, 吴育华. 农业机械招投标过程的机制设计及案例分析[J]. 中国农机化, 2006, (5): 51-54.

[23] 解百臣, 吴育华. 基于SE-DEA的电力企业效率评估[J]. 电子科技大学学报(社科版), 2005, 7(4): 25-27.

[24] 商立峰, 解百臣. 我国不同省份的风电发展趋势研究[J]. 可再生能源, 2014, 32(3): 191-195.

[25] 支华炜, 杜纲, 解百臣. 科技带动视角下的区域低碳经济效率研究[J]. 科技进步与对策, 2013, 30(3): 25-31.

[26] 熊艺, 吴育华, 解百臣. 基于Malmquist指数的远程教育办学效率研究[J]. 北京理工大学学报(社会科学版), 2010, 12(1): 136-139.

[27] 熊艺, 解百臣, 吴育华. 中国远程教育发展环境的SWOT分析[J]. 现代远距离教育, 2010, (6): 18-21.

[28] 高明, 解百臣. 我国寿险企业生产效率变动的Malmquist指数分析[J].科技管理研究, 2010, (9): 219-221.

[29] 高明, 解百臣. 中国轿车企业效率测度的DEA视窗分析[J]. 西北农林科技大学学报(社会科学版), 2010, 19(6): 56-60.

[30] 高明, 刘金兰, 解百臣. 基于改进Malmquist指数研究方法的寿险企业实证分析[J]. 大连理工大学学报(社会科学版), 2010, 31(3): 46-51.

[31] 高明, 解百臣, 杨顺元. 我国主要商业银行生产效率变动趋势研究[J]. 西安电子科技大学学报(社会科学版), 2009, 19(5): 51-55.

[32] 熊艺, 解百臣. 基于AHP的远程教育师资综合素质模糊评价[J]. 合作经济与科技, 2009, (20): 88-90.

[33] 刘洋, 解百臣. 后股权分置时期股权结构与公司业绩的实证分析[J]. 北京理工大学学报(社会科学版), 2009, 11(5): 55-58.

[34] 刘洋, 吴育华, 解百臣. 我国汽车产业集群现状及发展对策研究[J]. 未来与发展, 2008, (12): 12-16.

[35] 刘洋, 吴育华, 解百臣. 加入WTO后物流企业全要素生产率变动趋势研究[J]. 科技管理研究, 2008, (10): 188-189.

[36] 解百臣, 郭淑婷. 民间资本教育投资行为博弈分析[J]. 科技情报开发与经济, 2009, (14): 98-100.

[37] 解百臣, 邓英芝. 供应商选择的博弈分析[J]. 河北建筑科技学院学报, 2004, 21(4): 103-106.

[38] 解百臣, 吴育华. 博弈论在银行监管中的应用[J]. 天津理工学院学报, 2004, 20(3): 75-78.

[39] 克莱格·福瑞斯特, 洛葛仙妮·莫尔, 艾米特·加里瓦拉, 芭芭拉·伯克斯·法丝, 朱莉·琳西, 温蒂·纽斯泰特, 皮特·恩格, 克里斯托弗·奎特尔, 佘震宇, 孙晴, 李洁, 解百臣. 发明工作室:大学的创客空间及文化[J]. 现代远程教育研究, 2015, (4): 10-23.

(三)专著

[1] 解百臣, 李汶华,张涛,段娜等. 中国电力系统效率评价与节能减排优化策略研究. 北京:科学出版社,2021.

研究项目

【承担科研项目】

(一)主持科研项目

[1] 国家社会科学基金重大项目:“双碳”目标下能源结构转型路径与协同机制研究,首席专家,22&ZD104,2023.1-2026.12

[2] 国家自然科学基金专项重点项目:面向碳中和的智能电网协同发展优化机制、调度策略与政策研究,72243009,2023.1-2025.12

[3] 国家自然科学基金面上项目: 平价上网趋势下间歇性可再生能源并网的机制设计与影响评估,72174141, 2022.1-2025.12

[4] 国家自然科学基金面上项目:考虑异质性因素影响的电力系统环境成本效率改进策略研究,71874121, 2019.1-2022.12

[5] 联合国开发规划署/全球环境基金: 公共建筑节能技术及产品市场化融资方案评估与推广,CS-23,2020.9-2022.9.

[6] 中国石油天然气股份有限公司勘探开发研究院委托项目:“双碳”目标下我国天然气发展政策研究,2021GFW-0880, 2021.11-2022.12.

[7] 中国工程院战略咨询项目:滨海新区重点产业及科技创新发展战略研究——科技创新驱动的重点产业效能评估及应对策略研究,2021.1-2022.12.

[8] 国家重点研发计划子课题: 研究我国城市建设绿色低碳发展技术路线图——公共建筑用能强度定量分析模型及控制目标, 2018YFC07044, 2018.7-2020.12.

[9] 国家社会科学基金重大项目:微电网提高可再生能源利用的机制创新与顶层设计——促进微电网利用可再生能源的交易机制研究,子课题负责人,17ZDA065,2018.1-2021.12

[10] 国家自然科学基金面上项目: 环境效率视角下电力系统节能减排优化策略研究, 71373172, 2014.1-2017.12,后评估结果为“特优”

[11] 国家自然科学基金青年基金项目: 基于动态效率的电力系统低碳经济评价研究, 71003072, 2011.1-2013.12,后评估结果为“优”.

[12] 国家留学基金委项目,能源消费双控制目标下电力系统节能减排优化策略研究,201406255052,2015/03-2016/03,12万元,负责人

[13] 国家发改委项目: 关于进行碳强度减排、将天津滨海新区建成低碳经济示范区的试点方案与配套政策研究——滨海新区实施碳捕获与封存技术试点的可行性研究, 2014E1-0007, 2013.3-2015.1,50万元,子课题负责人

[14] 天津市博士后国际化项目,2013-541-04,电力系统环境效率评价与节能减排优化策略研究,2013/12-2014/04,4.2万元,负责人

[15] 住房与城乡建设部项目: 建筑业技术中心标准化体系建设效率评估及政策影响预测研究, 11-R1-338, 2012.9-2015.9

[16] 教育部人文社会科学研究项目基金资助: 欠发达地区教育投资困境与投资分配机制研究, 09YJC880078, 2010.1-2012.12

[17] 中国博士后基金面上项目: 基于网络Malmquist 指数的一体化电力系统低碳经济评价研究, 20100470505, 2010.6-2011.10

[18] 天津市委教育工委2010年重点调研课题立项: 促进义务教育高水平均衡发展的研究, 2010.4-2010.12

[19] 天津市“十二五”教育科学规划课题: 天津市职业教育竞争力指标及其评估研究, CE4042, 2012.1-2015.12

[20] 天津市“十一五”教育科学规划课题: 中等教育评价指标体系建立与评估方法研究, ZGG160, 2007.1-2009.12

[21] 青海清洁能源示范省项目: 清洁能源供需与基于大数据分析的能源消费模式研究, 2019.7-2020.12.

[22] 天津市发改委项目: 天津市十三五能源发展规划, 2015GFW-0068, 2014.12-2015.8

[23] 中国建筑股份有限公司技术中心项目: 建筑企业技术中心运行与管理关键问题研究, 2013GKF-0013, 2012.9-2015.9

[24] 国务院发展研究中心项目: 中国风电发展研究专题报告, 2014GKF-0578, 2014.8-2015.1

[25] 天津大学自主创新基金项目:碳中和目标下电源清洁化发展机制研究,2021XSC-0155,2021.1至2021.12

[26] 天津大学自主创新基金项目: 规划驱动的多学科集成型能源政策研究,2017XSC-0135,2017.01-2017.12

[27] 天津大学北洋青年学者计划项目,资源环境政策与管理,2017/01-2020/12,40万元,负责人

[28] 天津大学自主创新基金项目: 资源环境政策与管理, 2014XRG-0097, 2014.1-2014.12

[29] 天津大学自主创新基金项目: 一体化电力系统低碳经济评价中市场结构影响分析, 2013XS-0075, 2013.1-2013.12

[30] 天津大学自主创新基金项目: Malmquist指数研究新进展与灵敏度分析, 2010XQ-0010, 2010.1-2011.12

[31] 天津大学青年教师和留学回国人员基金: Malmquist指数研究新进展与灵敏度分析, TJU-YFF-08B09, 2008. 10-2010.12

[32] 天津大学本科教改项目,运筹学一流本科课程建设,2021.05-2022.07

[33] 天津大学2021年研究生课程全英文建设项目:《多目标决策与综合评估技术》,ENT21011,2021.06-2023.06

[34] 天津大学“211创新人才培养”项目: 《多目标决策与综合评估技术》数字化教学平台建设项目, YCXPT1126, 2011.6-2012.6

(二)作为主要参与人参与的科研项目

[1] 国家自然科学基金重大专项项目: 碳达峰、碳中和区域协同路径优化研究 721400004, 2022.1-2025.12

[2] 国家自然科学基金重点项目: 低碳导向下城市交通系统协同机制与优化方法: 基于行为的视角, 71431005, 2015.1-2019.12

[3] 国家自然科学基金项目: 基于符号数据分析的群体推荐用户建模与协调研究, 71271147, 2013.1-2016.12

[4] 国务院发展研究中心项目: 能源领域最优市场化程度研究, 2014GKF-0578, 2014.9-2014.12

[5] 国家自然科学基金项目: 参数、非参数生产前沿面模型、算法及应用研究, 70871085, 2009.1-2011.12

[6] 国家自然科学基金项目: 基于SOAR认知架构的交通诱导服从行为研究, 50908155, 2010.1-2012.12

[7] 天津大学教改项目: 面向管理类综合能力培养的运筹学三维教学体系创新与实践, 11JYZD-004, 2011.9-2012.9

[8] 教育部人文社会科学研究项目: 欠发达地区教育模式研究, 06JC880012, 2007.1-2008.12

[9] 全国教育科学“十一五”规划重点项目、教育部重点项目: 我国高校师资管理制度研究, DFA060119, 2007.1-2008.12

[10] 天津市哲学社会科学规划项目: 中国足球治理与发展策略研究, TJTY06-017, 2007.1-2008.12

(三)参与科研项目

[1] 中国科学院重要方向性项目: 全球能源监测预警与政策分析系统, KACX1-YW-0906, 2009.9-2011.6http://www.ipm.cas.cn/,参与人,在研。申请人在该项目中负责世界主要能源消费国供应监测预警分析,研究过程中广泛收集了各国节能环保方面的激励政策,分析了这些政策的执行效果。这为进行清洁能源发展补贴政策研究准备了丰富的资料。

[2] 国家自然科学基金面上项目: 非均匀区间与分布式符号数据的多元分析方法, 项目主要参加人, 70701026, 2008.1-2010.12

[3] 天津市教育科学“十一五”规划课题: 我市教师专业化的系统分析与对策研究, 项目主要参加人, G151, 2007.1-2009.12

[4] 教育部社科研究2006年度青年基金项目: 我国证券犯罪问题研究, 项目主要参加人, 05JC630081, 2006. 1-2008. 12

[5] 北京市教委项目: 生产前沿面参数与非参数方法及应用,项目主要参加人, 2007.1-2008.12

[6] 博士点青年教师基金: 生产前沿面理论与应用, 项目主要参加人, 20070056028, 2008.1-2010. 12

[7] 国家自然科学基金项目: 非对称保险市场均衡及其最优保险对策策略研究, 项目主要参加人, 70271041, 2003. 1-2005. 12

(四)参与横向项目

[1] 天津机电控股集团薪酬体系设计

[2] 山东省莘县教育发展规划研究

[3] 我国工程咨询业管理与创新研究: 2008.1-2010.12

(五)获奖

[1] 天津大学优秀硕士学位论文指导教师,2021

[2] 国家自然科学基金后评估“特优”,2020

[3] 天津大学本科招生宣传优秀标兵,2020

[4] 天津市第十五届社会科学优秀成果奖三等奖,2018

基于动态效率的电力系统低碳经济评价研究

[5] 天津市“131”创新型人才计划第二层次人选,2018

[6] 天津市第十四届社会科学优秀成果奖二等奖,2016

Does generation form influence environmental efficiency performance? An analysis of China's power system

[7] 埃尼奖提名,全球, 2016

[8] 天津大学北洋青年学者计划,2016

[9] 天津大学青年教工示范岗荣誉称号,2016

[10] 天津大学管理与经济学部学术研究优秀共产党员,2016,

[11] 天津大学研究生数字化教学“开发课程”三等奖: 2013

[12] 天津大学“教书育人”优秀青年教师, 2012

[13] 第十一届天津市高校青年教师教学基本功竞赛三等奖, 2012-11-15

[14] 天津大学青年教师讲课大赛三等奖, 2012

[15] 天津市教育科学规划办教育科学研究优秀成果奖三等奖: 中等教育评价指标体系建 立及评价方法研究, 2010

[16] “天津大学2009届本科生毕业设计(论文)优秀指导教师”荣誉称号, 2009

[17] 天津大学十佳优秀本科教学集体工作案例(2/10),2021

[18] 天津大学教学成果一等奖(2/5),2021

[19] 天津大学优秀新工科基层教学组织(2/10),2021

(六)教授课程

[1] 运筹学, 本科核心课程, 2008-2014

[2] 运筹学, 双学位核心课程, 2008-2014

[3] 管理运筹学, MBA核心课程, 2012-2014

[4] 多目标决策与综合评价技术, 研究生核心课程, 2010-2014

学术与社会服务

(一)学术团体任职

[1] 中国系统工程协会能源资源系统工程分会常务理事,2017-;

[2] 天津运筹学会(ORST), 常务理事, 2017-至今

[3] 中国低碳发展管理协会(LCDSC), 常务理事, 2017-至今

[4] 中国运筹学会(ORSC), 会员, 2004-至今

[5] 天津市能源研究中心, 秘书长, 2012-至今

[6] 国际能源经济学会(IAEE), 会员, 2013-至今

[7] 亚洲能源经济学会(IAEE Asia), 会员, 2013-至今

[8] 运筹学和管理科学学会(INFORMS), 会员, 2012-2013

(二)学术服务

[1] Guest editor, Energies, 2021.

[2] Guest editor, Frontiers in Energy Research, 2020.

[3] IAEE,能源法草案与中国电力市场改革圆桌论坛,特邀嘉宾,2020.7.1

[4] 天津市能源战略发展咨询专家(天津市发展和改革委), 2015-;

[5] 青海省清洁能源发展咨询专家(青海省电力公司),2017-;

[6] 达沃斯论坛,“新常态中国经济与当代世界研讨会”演讲嘉宾, 2016

[7] 国家电网,亚太顾客服务协会CRE&CSOS天津圆桌会议,特邀嘉宾,2016

[8] 亚太经合组织智慧能源社区大赛, 评审专家, 2015,2019

[9] 亚太经合组织(APEC)能源工作组中国代表团, 技术专家;

[10] 国家自然科学基金委, 评审专家, 2013-至今

[11] 第七届中国管理学年会, 秘书, 2012

[12] 天津大学教代会代表, 2011-至今

[13] 天津大学管理与经济学部信息管理与信息系统系, 本科导师, 2009-至今

[14] 天津大学管理与经济学部运筹学课程, 课程组主干成员 2008-至今

审稿专家: Energy, Applied Energy, Energy Economics, Energy Policy, Renewable & Sustainable Energy Reviews, Energy & Fuels, IEEE Transactions for Engineering Management, IEEE Transactions on Power Systems, European Journal of Operation Research, Journal of Cleaner Production, Computers and Industrial Engineering, Energy Efficiency, Review of Industry Organization, Journal of Modelling in Management, Journal of System Engineering, Operations Research and Management Science, Chinese Journal of Management Science, Journal of Management, Energy & Environment, Computers & Operations Research, Annals of Operations Research等

毕业生情况

(一)独立指导

天津大学硕博连读 2

中国人民银行沈阳分行 1

中金证券投行部 1

中信证券投行部 1

东方证券投行部 1

中邮基金 1

京东集团 1

海尔集团 1

中国农业银行总行 1

中国银行总行 1

网商银行总行 1

天津知识产权中心 1

(二)联合指导

天津大学硕博连读:3

中共中央党史和文献研究院 1

国家开发银行天津分行 1

天津财经大学 1

浙江工业大学 1

天津城建大学 1

天津仁爱学院 1

呼和浩特市纪委 1

河北省选调生: 2

银河证券 1

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