Journal of Environmental Accounting and Management
Review on Emission Reduction Control Path Based on Modern Project Management Method for Large Integrated Energy Groups in A Carbon Constrained World
Journal of Environmental Accounting and Management 5(4) (2017) 343--356 | DOI:10.5890/JEAM.2017.12.006
Shengguang Zhao$^{1}$,$^{3}$, Yiqiong Lu$^{2}$,$^{3}$,
$^{1}$ School of Energy Power and Mechanical Engineering, North China Electric Power University, Beijing 102206, China
$^{2}$ School of Environmental and Natural Resources, Renmin University of China, Beijing 100872, China
$^{3}$ Shenhua Group Corporation Limited, Beijing 100011, China
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Abstract
Actively participating in the global process on climate change, thoroughly implementing the national outline on climate change, and fully imple-menting clean energy development strategy to control the total amount of carbon emissions and reduce carbon emissions intensity, are the inevi-table requirement of large domestic clean energy enterprise development currently. Aimed at how to carry out related work in a carbon con-strained world, this paper shows systematic analysis of what large inte-grated energy enterprises need to do, how to do, who is going to do, and effective measures to be taken to promote and realize the low carbon development.
References
-
[1]  | Anantharaman, R., Jordal, K., Berstad, D. and Gundersen, T. (2013), The role of process synthesis in the systematic design of energy efficient fossil fuel power plants with CO2 capture, International Conference on Process Integration 35, 55-60 |
-
[2]  | Balachandra, P. (2006), Implications of private sector participation in power generation - a case study from India, Energy Policy 34(16), 2466-2479 |
-
[3]  | Dai, H., Xie, X., Xie, Y., Liu, J. and Masui, T. (2016), Green growth: The economic impacts of large-scale renewable energy development in China, Applied Energy 162, 435-449 |
-
[4]  | Fujimori, S., Masui, T. and Matsuoka, Y. (2015), Gains from emission trading under multiple stabilization targets and technological constraints, Energy Economics 48, 306-315 |
-
[5]  | Gallego-Álvarez, I., Segura, L. and Martínez-Ferrero, J. (2015), Carbon emission reduction: the impact on the financial and operational performance of international companies, Journal of Cleaner Production 103(1), 149-159 |
-
[6]  | Garel, G. (2013), A history of project management models: From pre-models to the standard models, International Journal of Project Management 31(5), 663-669 |
-
[7]  | Gu, A., Teng, F. and Feng, X. (2016), Effects of pollution control measures on carbon emission reduction in China: Evidence from the 11th and 12th Five-Year Plans, Climate Policy 1-12 |
-
[8]  | Hu, Y.J., Li, X.Y. and Tang, B.J. (2017), Assessing the operational performance and maturity of the carbon trading pilot program: the case study of Beijing's carbon market, Journal of Cleaner Production 161, 1263-1274 |
-
[9]  | Ingason, H.T. (2015), Best Project Management Practices in the Implementation of an ISO 9001 Quality Management System, Procedia - Social and Behavioral Sciences 194(3), 192-200 |
-
[10]  | Ketzer, J.M., Iglesias, R.S. and Einloft, S. (2017), Reducing Greenhouse Gas Emissions with CO2, Capture and Geological Storage. Springer International Publishing. |
-
[11]  | Kumarasiri, J. (2015), Use of Management Accounting Practices in Carbon Emission Management: Evidence from Australian Companies, Journal of Contemporary 21(1), 5-31 |
-
[12]  | Kuster, J., Huber, E., Lippmann, R., Schmid, A., Schneider, E., Witschi, U. and Wüst, R. (2015), What is Project Management? Project Management Handbook. Springer Berlin Heidelberg |
-
[13]  | Lewis, J.I. (2010), The evolving role of carbon finance in promoting renewable energy development in China, Energy Policy 38(6), 2875-2886 |
-
[14]  | Li, G., Huang, G., Lin, Q., Cai, Y., Chen, Y. and Zhang, X. (2012), Development of an interval multi-stage stochastic programming model for regional energy systems planning and GHG emission control under uncertainty, International Journal of Energy Research 36(12), 1161-1174 |
-
[15]  | Lin, B.Q., Yao, X. and Liu, X.Y. (2010), China's energy strategy adjustment under energy conservation and carbon emission constraints, Social Sciences in China 31(2), 91-110 |
-
[16]  | Lo, A.Y. (2017), Emission trading and carbon market performance in Shenzhen, China, Applied Energy 193, 414-425 |
-
[17]  | Lu, J. and Zhao, S. (2016), China's natural gas exploration and development strategies under the new normal, Natural Gas Industry B 2(6), 473-480 |
-
[18]  | National Energy Administration of China. (2014), Energy development and strategic plan (2014-2020), http://www.nea.gov.cn/2014- 12/03/c_133830458.htm |
-
[19]  | Pauksztat, A. and Kruska, M. (2006), Implications of the European emissions trading scheme for strategic energy management in small and medium enterprises, Emissions Trading and Business 151-163 |
-
[20]  | Scholes, C.A. (2015), Carbon Capture and Storage (CCS), Applied Energy 148(1), A1-A6 |
-
[21]  | Scobie, M. (2017), Fossil fuel reform in developing states: The case of Trinidad and Tobago, a petroleum producing small Island developing State, Energy Policy 104, 265-273 |
-
[22]  | Schlick, H. (1978), Project Integrated Management System (PRIM), Computing in Civil Engineering 361-372 |
-
[23]  | Singh, B., Ellingsen, A.W. and Strømman, A.H. (2015), Pathways for GHG emission reduction in Norwegian road transport sector: Perspective on consumption of passenger car transport and electricity mix, Transportation Research Part D 41, 160-164 |
-
[24]  | Streck, C., Unger, M.V. and Keenlyside, P. (2016), The Paris Agreement: A New Beginning, Journal for European Environmental & Planning Law 13(1), 3-29 |
-
[25]  | Tan, X. and Wang, X. (2017), The market performance of carbon trading in China: a theoretical framework of Structure-Conduct- Performance, Journal of Cleaner Production 17, 159-176 |
-
[26]  | Tidona, R.J. (2009), Industrial energy projects and corporate carbon management, Energy Engineering 106(5), 51-62 |
-
[27]  | The State Council of China. (2016), China's 13th five-year plan: A draft proposal http://www.guancha.cn/society/2016_03_17_354244.shtml |
-
[28]  | UNFCCC. (2015), The Paris Agreement, http://unfccc.int/paris_agreement/items/9485.php |
-
[29]  | Vidal, L. and Marle, F. (2015), Understanding project complexity: implications on project management, Kybernetes 37(8), 1094-1110 |
-
[30]  | Wang, G. and Luo, Z. (2011), The Analysis on Carbon Emission Strategy of the High Energy Consumption Enterprise Project Considering the Government Supervision. International Conference on Management and Service Science. IEEE, 1-4 |
-
[31]  | Xu, F., Xiang, N., Yan, J., Chen, L., Nijkamp, P. and Higano, Y. (2015), Dynamic simulation of China’s carbon emission reduction potential by 2020, Letters in Spatial & Resource Sciences 8(1), 15-27 |
-
[32]  | Xu, J., Yang, X. and Tao, Z. (2015), A tripartite equilibrium for carbon emission allowance allocation in the power-supply industry, Energy Policy 82, 62-80 |
-
[33]  | Zhang, Y.J. and Hao, J.F. (2015), The allocation of carbon emission intensity reduction target by 2020 among provinces in China, Natural Hazards 79(2), 921-937 |
-
[34]  | Zhang, Y.J., Wang, A.D. and Tan, W. (2015), The impact of China's carbon allowance allocation rules on the product prices and emission reduction behaviors of ETS-covered enterprises, Energy Policy 86(1), 176-185 |
-
[35]  | Zhang, Z. (2015), Discussion on the Related Issues of Forestry Increasing Carbon Sink to Reduce Emission in China, Journal of Low Carbon Economy 04(1), 1-7 |
-
[36]  | Zheng, G. (2010), Thinking on new situation and tasks of addressing climate change for China after Copenhagen climate change conference 2009, Advances in Climate Change Research 6(2), 79-82 |
-
[37]  | Zhou, K. and Yang, S. (2016), Emission reduction of China’s steel industry: Progress and challenges, Renewable & Sustainable Energy Reviews 61, 319-327 |
-
[38]  | Zhu, J., Hu, X., Yao, H. (2015), A significant carbon sink in temperate forests in Beijing: based on 20-year field measurements in three stands, Science China: Life Sciences 58(11), 1135-1141 |
-
[39]  | Zhu, J.W., Zhou, L.N., Yu, M.Y. and Zhai, Z. (2015), The development and comparative analysis of engineering project management modes, Frontiers of Engineering Management 2(4), 351-361 |
-
[40]  | Zvezdov, D. and Hack, S. (2016), Carbon footprinting of large product portfolios. Extending the use of Enterprise Resource Planning systems to carbon information management, Journal of Cleaner Production 135, 1267-1275. |