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An Effective Optimisation Method for Coupled Wind–Hydrogen Power Generation Systems Considering Scalability
by
Zhou, Suyang
, Li, Yi
, Pan, Guangsheng
in
Algorithms
/ Alternative energy sources
/ Analysis
/ Carbon
/ Case studies
/ Climate change
/ Coal-fired power plants
/ Cost analysis
/ Design optimization
/ Economic analysis
/ Economic models
/ Electric power production
/ Electric power-plants
/ Electricity
/ Electricity distribution
/ Emissions
/ Energy consumption
/ Energy storage
/ Fuel cells
/ Green technology
/ Hydrogen
/ Hydrogen production
/ Linear programming
/ Methods
/ Optimization
/ Payback periods
/ Power plants
/ Profitability
/ Profits
/ Renewable resources
/ System effectiveness
/ Taguchi methods
/ Wind farms
/ Wind power
/ Wind power generation
2023
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An Effective Optimisation Method for Coupled Wind–Hydrogen Power Generation Systems Considering Scalability
by
Zhou, Suyang
, Li, Yi
, Pan, Guangsheng
in
Algorithms
/ Alternative energy sources
/ Analysis
/ Carbon
/ Case studies
/ Climate change
/ Coal-fired power plants
/ Cost analysis
/ Design optimization
/ Economic analysis
/ Economic models
/ Electric power production
/ Electric power-plants
/ Electricity
/ Electricity distribution
/ Emissions
/ Energy consumption
/ Energy storage
/ Fuel cells
/ Green technology
/ Hydrogen
/ Hydrogen production
/ Linear programming
/ Methods
/ Optimization
/ Payback periods
/ Power plants
/ Profitability
/ Profits
/ Renewable resources
/ System effectiveness
/ Taguchi methods
/ Wind farms
/ Wind power
/ Wind power generation
2023
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Do you wish to request the book?
An Effective Optimisation Method for Coupled Wind–Hydrogen Power Generation Systems Considering Scalability
by
Zhou, Suyang
, Li, Yi
, Pan, Guangsheng
in
Algorithms
/ Alternative energy sources
/ Analysis
/ Carbon
/ Case studies
/ Climate change
/ Coal-fired power plants
/ Cost analysis
/ Design optimization
/ Economic analysis
/ Economic models
/ Electric power production
/ Electric power-plants
/ Electricity
/ Electricity distribution
/ Emissions
/ Energy consumption
/ Energy storage
/ Fuel cells
/ Green technology
/ Hydrogen
/ Hydrogen production
/ Linear programming
/ Methods
/ Optimization
/ Payback periods
/ Power plants
/ Profitability
/ Profits
/ Renewable resources
/ System effectiveness
/ Taguchi methods
/ Wind farms
/ Wind power
/ Wind power generation
2023
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An Effective Optimisation Method for Coupled Wind–Hydrogen Power Generation Systems Considering Scalability
Journal Article
An Effective Optimisation Method for Coupled Wind–Hydrogen Power Generation Systems Considering Scalability
2023
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Overview
A wind–hydrogen coupled power generation system can effectively reduce the power loss caused by wind power curtailment and further improve the ability of the energy system to accommodate renewable energy. However, the feasibility and economy of deploying such a power generation system have not been validated through large-scale practical applications, and the economic comparison between regions and recommendations on construction are still lacking. In order to solve the aforementioned problems, this paper establishes an economic analysis model for the wind–hydrogen coupled power generation system and proposes a linear optimisation-based priority analysis method focusing on the major net present value for regional energy system as well as a cost priority analysis method for hydrogen production within sample power plants. The case study proves the effectiveness of the proposed analysis methods, and the potential to develop wind–hydrogen coupled power generation systems in various provinces is compared based on the national wind power data in recent years. This provides recommendations for the future pilot construction and promotion of wind–hydrogen coupled power generation systems in China.
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