DOI:https://doi.org/10.1007/s40565-018-0438-9 |
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Transition towards higher penetration of renewables: an overview of interlinked technical, environmental and socio-economic challenges |
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Author:
Xinyu CHEN1, Michael B. MCELROY1, Qiuwei WU2, Yinbiao SHU3, Yusheng XUE4
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Author Affiliation:
1. John A. Paulson School of Engineering and Applied
Sciences, Harvard University, Cambridge, USA
2. Department of Electrical Engineering, Technical University
of Denmark, Copenhagen, Denmark
3. State Grid Corporation of China, Beijing, China
4. State Grid Electric Power Research Institute, Nanjing, China
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Foundation: |
This work was supported by Harvard Global Institute and Ash Center at Harvard Kennedy School of government. This research is also supported by State Key Laboratory on Smart Grid Protection and Operation Control of NARI Group (No. 20171613). |
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Abstract: |
Investment for renewables has been growing rapidly since the beginning of the new century, and the momentum is expected to sustain in order to mitigate the impact of anthropogenic climate change. Transition towards higher renewable penetration in the power industry will not only confront technical challenges, but also face socio-economic obstacles. The connected between environment and energy systems are also tightened under elevated penetration of renewables. This paper will provide an overview of some important challenges related to technical, environmental and socio-economic aspects at elevated renewable penetration. An integrated analytical framework for interlinked technical, environmental and socio-economic systems will be presented at the end. |
Keywords: |
Wind power, Solar power, Integrated energy systems, Missing money problem, Low carbon policies |
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Online Time:2019/01/28 |
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