研究目的
Investigating the optimal operation strategies for combined heat and power (CHP) systems in deregulated energy markets to maximize profits by considering the dynamic variations of overall efficiency and heat to electricity ratio with respect to changing loading levels.
研究成果
The CHP model developed in this paper, considering the variations of overall efficiency and H2E ratio with respect to changing loading levels, and taking real-time heat price, electricity price, and natural gas price into consideration, optimizes the operation of CHP to maximize its benefits. The proposed dynamic programming method can help the CHP to design the optimal modification route to maximize profits during dynamic process.
研究不足
The transition between two adjacent operational points obtained from the optimization model does not consider the operation constraints initially, which is essential to include them in the model to capture the actual operational practice.
1:Experimental Design and Method Selection:
A discrete optimization model of CHPs is developed to determine the optimal real-time operation strategies, considering the dynamic variations of overall efficiency and heat to electricity ratio with respect to changing loading levels. The optimization problem is solved by the interior point method with discrete time intervals.
2:Sample Selection and Data Sources:
Real-time energy prices of natural gas, heat, and electricity from open markets are used.
3:List of Experimental Equipment and Materials:
A 1-MW CHP system is used for demonstration.
4:Experimental Procedures and Operational Workflow:
The operation of the CHP system is optimized over a 24-hour period with 48 dispatching steps, considering real-time energy prices.
5:Data Analysis Methods:
The pro?ts distribution obtained from the proposed optimization approach is analyzed, and sensitivity analysis of H2E ratio is provided.
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