Potential of unsubsidized distributed solar PV to replace coal-fired power plants, and profits classification in Chinese cities

This paper analyzes if solar photovoltaic technology is economically feasible enough to compete with coal-fired power in Chinese cities in the subsidy-free context. Considering this, this paper further investigates how profitable investing in solar PV projects is. This paper firstly analyzes to what...

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Vydáno v:Renewable & sustainable energy reviews Ročník 131; s. 109967
Hlavní autoři: Yang, Ying, Campana, Pietro Elia, Yan, Jinyue
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.10.2020
Témata:
Cost-risk
Crossover math
Distributed solar photovoltaic
Investment-profit
K-means clustering algorithm
Zero subsidies
Distributed solar photovoltaic
Investment-profit
Zero subsidies
K-means clustering algorithm
Crossover math
Cost-risk
ISSN:1364-0321, 1879-0690
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Tagy: Přidat tag
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Abstract This paper analyzes if solar photovoltaic technology is economically feasible enough to compete with coal-fired power in Chinese cities in the subsidy-free context. Considering this, this paper further investigates how profitable investing in solar PV projects is. This paper firstly analyzes to what degree local coal-fired power plants can be replaced by distributed solar power in 344 prefectural-level cities in China. Levelized Cost of Electricity of solar PV power and the local desulfurized coal benchmark price are used for simplified cost crossover math to identify the replacement risk of local coal-fired power plants. Four risk-levels and their corresponding cities are identified, i.e. deemed no cost-risk, potentially at cost-risk, at cost-risk, and substantially at cost-risk. As a whole, 85.17% of current coal-fired power plants from the investigated cities are under cost-risk. Levelized Profit of Electricity, Net Present Value, Internal Rate of Return, and Discounted Payback Period are calculated for each city, and grouped using K-means algorithm. The cities are clustered into four groups, i.e. high return, medium return, moderate return, and low return. The results show that 65.99% of all the cities could achieve a moderate or higher financial return. The cost-risk and investment profit results are mapped for a better understanding of the regional variation in China. •We use the cost crossover method to group 344 prefectural-level Chinese cities into four cost-risk levels.•We use the K-means clustering algorithm to group 344 prefectural-level Chinese cities into four investment-profit levels.•85.17% of current coal-fired power plants from the investigated cities are generally under cost-risk.•36.63% of them can be replaced by distributed solar PV projects.•Investing in 65.99% of the cities will achieve an IRR of higher than 8%, and a DPBP of less than 15 years.
AbstractList This paper analyzes if solar photovoltaic technology is economically feasible enough to compete with coal-fired power in Chinese cities in the subsidy-free context. Considering this, this paper further investigates how profitable investing in solar PV projects is. This paper firstly analyzes to what degree local coal-fired power plants can be replaced by distributed solar power in 344 prefectural-level cities in China. Levelized Cost of Electricity of solar PV power and the local desulfurized coal benchmark price are used for simplified cost crossover math to identify the replacement risk of local coal-fired power plants. Four risk-levels and their corresponding cities are identified, i.e. deemed no cost-risk, potentially at cost-risk, at cost-risk, and substantially at cost-risk. As a whole, 85.17% of current coal-fired power plants from the investigated cities are under cost-risk. Levelized Profit of Electricity, Net Present Value, Internal Rate of Return, and Discounted Payback Period are calculated for each city, and grouped using K-means algorithm. The cities are clustered into four groups, i.e. high return, medium return, moderate return, and low return. The results show that 65.99% of all the cities could achieve a moderate or higher financial return. The cost-risk and investment profit results are mapped for a better understanding of the regional variation in China.
This paper analyzes if solar photovoltaic technology is economically feasible enough to compete with coal-fired power in Chinese cities in the subsidy-free context. Considering this, this paper further investigates how profitable investing in solar PV projects is. This paper firstly analyzes to what degree local coal-fired power plants can be replaced by distributed solar power in 344 prefectural-level cities in China. Levelized Cost of Electricity of solar PV power and the local desulfurized coal benchmark price are used for simplified cost crossover math to identify the replacement risk of local coal-fired power plants. Four risk-levels and their corresponding cities are identified, i.e. deemed no cost-risk, potentially at cost-risk, at cost-risk, and substantially at cost-risk. As a whole, 85.17% of current coal-fired power plants from the investigated cities are under cost-risk. Levelized Profit of Electricity, Net Present Value, Internal Rate of Return, and Discounted Payback Period are calculated for each city, and grouped using K-means algorithm. The cities are clustered into four groups, i.e. high return, medium return, moderate return, and low return. The results show that 65.99% of all the cities could achieve a moderate or higher financial return. The cost-risk and investment profit results are mapped for a better understanding of the regional variation in China. •We use the cost crossover method to group 344 prefectural-level Chinese cities into four cost-risk levels.•We use the K-means clustering algorithm to group 344 prefectural-level Chinese cities into four investment-profit levels.•85.17% of current coal-fired power plants from the investigated cities are generally under cost-risk.•36.63% of them can be replaced by distributed solar PV projects.•Investing in 65.99% of the cities will achieve an IRR of higher than 8%, and a DPBP of less than 15 years.
ArticleNumber 109967
Author Yang, Ying
Yan, Jinyue
Campana, Pietro Elia
Author_xml – sequence: 1
  givenname: Ying
  surname: Yang
  fullname: Yang, Ying
  email: ying.yang@mdh.se, ying.yang@mdh.se
  organization: School of Business, Society & Engineering, Mälardalen University, Västerås, 72123, Sweden
– sequence: 2
  givenname: Pietro Elia
  surname: Campana
  fullname: Campana, Pietro Elia
  organization: School of Business, Society & Engineering, Mälardalen University, Västerås, 72123, Sweden
– sequence: 3
  givenname: Jinyue
  surname: Yan
  fullname: Yan, Jinyue
  email: jinyue@kth.se
  organization: School of Business, Society & Engineering, Mälardalen University, Västerås, 72123, Sweden
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Keywords Distributed solar photovoltaic
Investment-profit
Zero subsidies
K-means clustering algorithm
Crossover math
Cost-risk
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Snippet This paper analyzes if solar photovoltaic technology is economically feasible enough to compete with coal-fired power in Chinese cities in the subsidy-free...
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StartPage 109967
SubjectTerms Cost-risk
Crossover math
Distributed solar photovoltaic
Investment-profit
K-means clustering algorithm
Zero subsidies
Title Potential of unsubsidized distributed solar PV to replace coal-fired power plants, and profits classification in Chinese cities
URI https://dx.doi.org/10.1016/j.rser.2020.109967
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