Optimal Operation of Integrated Energy System Based on Exergy Analysis and Adaptive Genetic Algorithm

Chen, Haoyong; Chen, Simin; Li, Ming; Chen, Jinbin

doi:10.1109/access.2020.3018587

Cited by 25 publications

(13 citation statements)

References 28 publications

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“…Arabli et al (2013) studies the integrated optimization problem of the heating ventilation system (HVAC) powered by wind-solar storage and uses the genetic algorithm (GA)-based two-point estimation method to optimize the model. Chen et al (2020) established an exergy analysis model for the hybrid energy system using an adaptive genetic algorithm and verified the validity of the model for the Bali hybrid energy system model. There are also some other new algorithms that can also be used to solve the configuration optimization problem of hybrid energy systems, such as ant colony algorithm (Abdolvahhab and Ehsan, 2015), big bang-big crunch algorithm (Saeedeh and Shirzad, 2016) and bee swarm algorithm (Akbar and Alireza, 2014).…”

Section: Intelligent Optimization Techniquesmentioning

confidence: 88%

A review on configuration optimization of hybrid energy system based on renewable energy

Zhang

Wei

2022

Front. Energy Res.

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Hybrid energy system based on renewable energy is an important way to solve current energy and environmental problems. However, its achievable benefits need to be realized through an integrated optimization that considers optimization objectives, optimization models, and optimization algorithms. In this paper, the integrated structure and configuration optimization techniques of the hybrid energy system based on renewable energy (RE-HES) is summarized. The performance indicators, system characteristics, model construction, and solutions of RE-HES optimized configuration are comprehensively reviewed. Current review highlights the diversification of performance evaluation index, consideration of uncertainty and dynamic properties, superstructure approaches and intelligent algorithms.

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Section: Intelligent Optimization Techniquesmentioning

confidence: 88%

A review on configuration optimization of hybrid energy system based on renewable energy

Zhang

Wei

2022

Front. Energy Res.

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“…Adaptive genetic algorithm [23] can be used as a kind of genetic algorithm, and the general way of realization is similar to that of genetic algorithm. First, analyze various variables for initial and evolution and then determine the scale of occurrence of each biological population, the probability of crossover, the probability of occurrence of mutation, and a series of parameters.…”

Section: Methodsmentioning

confidence: 99%

Research on Optimal Matching Scheme of Public Resource Management Based on the Computational Intelligence Model

Liu

2021

Scientific Programming

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The management of public resources means that people’s governments at all levels and other public administrative subjects should use certain means and methods, follow certain principles, rationally allocate and utilize public resources, and maximize their functions and benefits. Under the background of limited human resources, this study adheres to the principle of maximizing the benefits of human resources and rationally allocates the use of human resources. In this study, this kind of resource allocation problem is regarded as a linear programming problem by specifying the benefit function, and then, genetic algorithm, ant colony algorithm, and hybrid genetic-ant colony algorithm are used to solve the problem; the cost and time consumption of different algorithms under different scales are evaluated. Finally, it is found that genetic algorithm is superior to ant colony algorithm when the task scale is small and the effect of genetic algorithm is lower than ant colony algorithm with the expansion of task scale, whereas the improved hybrid genetic-ant colony algorithm is better than ordinary algorithm in general.

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“…In order to solve the above model efficiently, a solution method combining a genetic algorithm [29] and interval analysis method is adopted in this paper, and it is based on affine coordinate transformation. Its basic process is shown in Figure 3.…”

Section: Algorithm Flowmentioning

confidence: 99%

An Interval Optimization-Based Approach for Electric–Heat–Gas Coupled Energy System Planning Considering the Correlation between Uncertainties

et al. 2021

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In this paper, a novel methodological framework for energy hub (EH) planning, considering the correlation between renewable energy source (RES) and demand response (DR) uncertainties, is proposed. Unlike other existing works, our study explicitly considers the potential correlation between the uncertainty of integrated energy system operations (i.e., wind speed, light intensity, and demand response). Firstly, an EH single-objective interval optimization model is established, which aims at minimizing investment and operation costs. The model fully considers the correlation between various uncertain parameters. Secondly, the correlation between uncertainties is dealt with by the interval models of multidimensional parallelism and affine coordinate transformation, which are transformed into a deterministic optimization problem by the interval order relationship and probability algorithm, and then solved by a genetic algorithm. Finally, an experimental case is analyzed, and the results show that the research method in this paper has good engineering practicability. At the same time, different correlations among uncertainties have different influences on integrated energy system planning. Correlation and influence are positively correlated.

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Optimal Operation of Integrated Energy System Based on Exergy Analysis and Adaptive Genetic Algorithm

Cited by 25 publications

References 28 publications

A review on configuration optimization of hybrid energy system based on renewable energy

A review on configuration optimization of hybrid energy system based on renewable energy

Research on Optimal Matching Scheme of Public Resource Management Based on the Computational Intelligence Model

An Interval Optimization-Based Approach for Electric–Heat–Gas Coupled Energy System Planning Considering the Correlation between Uncertainties

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