Abstract
There is growing interest in the use of energy storage systems (ESS) to create combined “renewable energy plus storage” power plants. ESS based on lithium-ion batteries have drawn much attention due to their high energy density and low self-discharge. However, as lithium-ion batteries are still costly, a power producer should determine ESS capacity in a sophisticated manner to ensure profitability of the PV plus storage projects. During the project horizon, lithium-ion batteries undergo severe capacity degradation, which must be considered in ESS planning. The degradation rate depends on various stress factors which are affected by ESS sizes and operation. Therefore, this paper aims to propose an advanced framework for calculating the capacity of an ESS supplementing a photovoltaic system considering the effect of the size and operation of ESS on battery degradation while maximizing profitability. Depending on how batteries are used during the project horizon, two scenarios are discussed and an ESS sizing framework for each scenario is suggested. To deal with non-convexity and black-box parameters of the optimal ESS sizing problems, we introduce an iterative algorithm that finds a solution by accessing battery degradation and optimizing profitability repetitively. We adopted the South Korean market for analysis and simulation of the frameworks.
Highlights
The depletion of fossil fuel sources and continued threat of global warming have led to the emphasis of the importance of renewable energy development
The Renewable Portfolio Standard (RPS), which has been widely adopted in the United States, the United Kingdom, China, and South Korea, is a regulation for renewable energy expansion that requires electricity providers to produce a percentage of electricity using renewable energy sources such as wind, solar, geothermal, and biomass
Like Energy-Fix, net present value (NPV) is reduced by 49% when renewable energy certificates (REC) weight changes from 5.0 to 4.0, and we find that both cases have high benefit-cost ratio (BCR) values
Summary
The depletion of fossil fuel sources and continued threat of global warming have led to the emphasis of the importance of renewable energy development. Many governments around the world are attempting to expand renewable energy supply through financial incentives and regulatory policies. The Renewable Portfolio Standard (RPS), which has been widely adopted in the United States, the United Kingdom, China, and South Korea, is a regulation for renewable energy expansion that requires electricity providers to produce a percentage of electricity using renewable energy sources such as wind, solar, geothermal, and biomass. Some countries like the United States and South Korea have renewable energy certificates (REC) programs. One REC is issued for each MWh of electricity generated and delivered to the grid using renewable energy.
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