1 |
国家统计局. 中国统计年鉴2018[M]. 北京:中国统计出版社, 2018:102-107.
|
|
National Bureau of Statistics. China statistical yearbook 2018[M]. Beijing: China Statistics Press, 2018: 102-107.
|
2 |
谢克昌. 中国煤炭清洁高效可持续开发利用战略研究[M]. 北京:科学出版社, 2014: 65-67.
|
|
XIE Kechang. Study on clean, efficient and sustainable development and utilization strategy of coal in China[M]. Beijing: Science Press, 2014: 65-67.
|
3 |
LI G Y, YANG J, CHEN D J. Impacts of the coming emission trading scheme on China’s coal-to-materials industry in 2020[J]. Applied Energy, 2017, 195: 837-849.
|
4 |
NESS B, URBEL P E, ANDERBERG S, et al. Categorising tools FOS sustainability assessment[J]. Ecological Economics, 2007, 60: 498-508.
|
5 |
VERA I, LANGLOIS L. Energy indicators for sustainable development[J]. Energy, 2007, 32: 875-882.
|
6 |
Bank World. RISE 2016: regulatory indicators for sustainable energy[R]. Washington D C: World Bank, 2017-02-21.
|
7 |
ELHUNI R M, AHMAD M M. Key Performance indicators for sustainable production evaluation in oil and gas sector[J]. Procedia Manufacturing, 2017, 11: 718-724.
|
8 |
KOPACZ M, KRYZIA D, KRYZIA K. Assessment of sustainable development of hard coal mining industry in Poland with use of bootstrap sampling and copula-based Monte Carlo simulation[J]. Journal of Cleaner Production, 2017, 159: 359-373.
|
9 |
HASHEMINASAB H, GHOLIPOUR Y, KHARRAZI M, et al. A novel metric of sustainability for petroleum refinery projects[J]. Journal of Cleaner Production, 2018, 171: 1215-1224.
|
10 |
国家能源局. 煤炭深加工产业示范“十三五”规划[EB/OL]. [2019-03-20]. .
|
|
National Energy Administration. The 13th Five-Year Plan for demonstration of coal deep-processing industry[EB/OL]. [2019-03-20]. .
|
11 |
LIU G. Development of a general sustainability indicator for renewable energy systems: a review[J]. Renewable and Sustainable Energy Reviews, 2014, 31: 611-621.
|
12 |
OPON J, HENRY M. An indicator framework for quantifying the sustainability of concrete materials from the perspectives of global sustainable development[J]. Journal of Cleaner Production, 2019, 218:718-737.
|
13 |
XIONG R H, WEI C. Current status and technology trends of zero liquid discharge at coal chemical industry in China[J]. Journal of Water Process Engineering, 2017, 19: 346-351.
|
14 |
高晋生, 鲁军, 王杰. 煤化工过程的污染与控制[M]. 北京: 化学工业出版社, 2010: 57-59.
|
|
GAO J S, LU J, WANG J. Pollution and control of coal chemical process[M]. Beijing: Chemical Industry Press, 2010: 57-59.
|
15 |
ZENG S, GU J F, YANG S Y, et al. Comparison of techno-economic performance and environmental impacts between shale gas and coal-based synthetic natural gas (SNG) in China[J]. Journal of Cleaner Production, 2019, 215: 544-556.
|
16 |
WANG D L, MA G, SONG X F, et al. Energy price slump and policy response in the coal-chemical industry district: a case study of Ordos with a system dynamics model[J]. Energy Policy, 2017, 104: 325-339.
|
17 |
Energy Information Administration US. Annual energy outlook 2019 with projections to 2050[EB/OL]. [2019-03-20]. .
|
18 |
HUANG Y, YI Q, KANG J X, et al. A nonlinear programming approach to strategic planning of coal chemical industry with carbon constraints in China[J]. Energy Procedia, 2018, 152:1236-1241.
|
19 |
AFGAN N H, CARVALHO M G, HOVANOV N V. Modeling of energy system sustainability index[J]. Thermal Science, 2005, 9(2):3-16.
|
20 |
中国工程院. 碳约束条件下我国能源结构优化研究[M]. (出版中).
|
|
Chinese Academy of Engineering. Study on China's energy structure optimization under carbon constraints[M]. (in press).
|
21 |
中国石油和化学工业联合会. 中国石油和化学工业大宗商品年度报告2018[R]. 北京:中国石油和化学工业联合会, 2018:165-272.
|
|
China Petroleum and Chemistry Industry Federation. China petroleum and chemical bulk products annual report 2018[R]. Beijing: China Petroleum and Chemistry Industry Federation, 2018:165-272.
|
22 |
国家发展和改革委员会. “十三五”控制温室气体排放工作方案[EB/OL]. [2019-03-20]. .
|
|
National Development and Reform Commission. The 13th Five-Year Plan for control of greenhouse gas emissions[EB/OL]. [2019-03-20]. .
|
23 |
国务院. “十三五”节能减排综合工作方案[EB/OL]. [2019-03-20]. .
|
|
Council State. The 13th Five-Year Plan for energy saving and emissions reduction[EB/OL]. [2019-03-20]. .
|
24 |
国家发展和改革委员会, 工业和信息化部. 现代煤化工产业创新发展方案[EB/OL]. [2019-03-20]. .
|
|
National Development and Reform Commission, Ministry of Industry and Information Technology. Innovative development plan of advanced coal to chemicals industry[EB/OL]. [2019-03-20]. .
|
25 |
中国科学技术部. “煤炭清洁高效利用和新型节能技术”重点专项2018年度项目申报指南[EB/OL]. [2019-03-20]. .
|
|
Ministry of Science and Technology of the People's Republic of China. Guidance for 2018 key projects of clean and efficient utilization of coal and new energy-saving technologies[EB/OL]. [2019-03-20]. .
|
26 |
国家能源局. 煤炭清洁高效利用行动计划(2015—2020年)[EB/OL]. [2019-03-20]. .
|
|
National Energy Administration. Plan for clean and efficient utilization of coal (2015—2020[EB/OL]. [2019-03-20]. .
|
27 |
国家能源局, 生态环境部, 工业和信息化部. 关于促进煤炭安全绿色开发和清洁高效利用的意见[EB/OL]. [2019-03-20]. .
|
|
National Energy Administration, Ministry of Ecological Environment, Ministry of Industry and Information Technology. Opinions on promoting safe and green development and clean and efficient utilization of coal[EB/OL]. [2019-03-20]. .
|
28 |
国务院. 能源发展战略行动计划(2014—2020年)[EB/OL]. [2019-03-20]. .
|
|
Council State. Plan for energy development strategy (2014—2020 [EB/OL]. [2019-03-20]. .
|
29 |
国家知识产权局. 专利数据库[EB/OL]. [2019-03-20]. .
|
|
National Intellectual Property Administration. Patent database[EB/OL]. [2019-03-20]. .
|
30 |
ZHAO J C, JI G X, TIAN Y, et al. Environmental vulnerability assessment for mainland China based on entropy method[J]. Ecological Indicators, 2018, 91: 410-422.
|
31 |
BECKER W, SAISANA M, PARUOLO P, et al. Weights and importance in composite indicators: closing the gap[J]. Ecological Indicators, 2017, 80: 12-22.
|
32 |
AZIMIFARD A, MOOSAVIRAD S H, ARIAFAR S. Selecting sustainable supplier countries for Iran's steel industry at three levels by using AHP and TOPSIS methods[J]. Resources Policy, 2018, 57: 30-44.
|
33 |
MA Y, SHI T Y, ZHANG W, et al. Comprehensive policy evaluation of NEV development in China, Japan, the United States, and Germany based on the EW-AHP model[J]. Journal of Cleaner Production, 2019, 214: 389-402.
|
34 |
MA F, HE J, MA J P, et al. Evaluation of urban green transportation planning based on central point triangle whiten weight function and entropy-AHP[J]. Transportation Research Procedia, 2017, 25: 3634-3644.
|
35 |
XU S B, XU D S, LIU L L. Construction of regional informatization ecological environment based on the entropy weight modified AHP hierarchy model[J]. Sustainable Computing: Informatics and Systems, 2019, 22: 26-31.
|
36 |
ZHANG X H, YANG J J, ZHAO X D. Optimal study of the rural house space heating systems employing the AHP and FCE methods[J]. Energy, 2018, 150: 631-641.
|