Optimal dispatch schedule for the coordinated hydro-wind-photovoltaic system with non-priority output utilizing combined meta-heuristic

IF 6.7 2区 管理学 Q1 MANAGEMENT
Lu Gan , Qian Xiong , Xiuyun Chen , Zhiyi Lin , Wen Jiang
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Abstract

With rising power demand and stringent carbon emission regulations, renewable energy is gaining traction in the power grid. However, its acceptance is lower than that of fossil energy due to its inherent intermittency. This study is motivated by such challenges and seeks to overcome it by enabling electricity consumption through coordinated operation strategies for the hydro-wind-photovoltaic systems. To match electricity demand and maximize system power output, non-priority output scheduling should be used. This study presents a systematic nonlinear programming strategy coupled with a combined meta-heuristic approach. The programming aims to increase total power generation, control wasted power, and balance the fluctuation of fossil energy output. The programming makes use of the corresponding constraints for hydro, wind, and photovoltaic power generation. A scenario-based approach also considers the effects of seasonal meteorological factors on electricity output. To address NP-hard issues in complicated nonlinear programming, a hybrid cuckoo search technique and multiple objective particle swarm optimization are used. The combined meta-heuristic technique includes a flight and elimination mechanism to increase search capacity and accelerate convergence. The case study of a hydro-wind-photovoltaic system is then performed over a four-season scheduling horizon. The case supports the study's viability and efficacy. The findings demonstrate the developed methodology's ability to balance the three objectives. The optimal dispatch schedule is shown to reduce intermittency, ensure renewable energy acceptance, and then adjust the power source's installed capacity. This study's coordinated operation strategies promote a more efficient method of establishing MECS and help to reduce power grid risk.
利用组合元启发式优化非优先输出的水力-风力-光伏协调系统的调度计划
随着电力需求的不断增长和严格的碳排放法规的实施,可再生能源在电网中的地位越来越重要。然而,由于其固有的间歇性,其接受度低于化石能源。本研究正是基于这种挑战,通过协调水力-风力-光伏系统的运行策略,实现电力消费,从而克服这一挑战。为匹配电力需求并最大化系统功率输出,应采用非优先输出调度。本研究提出了一种系统的非线性编程策略,并结合了元启发式方法。编程的目的是增加总发电量、控制浪费的电力以及平衡化石能源输出的波动。编程利用了水力、风力和光伏发电的相应约束条件。基于情景的方法还考虑了季节性气象因素对电力输出的影响。为解决复杂非线性编程中的 NP 难问题,采用了混合布谷鸟搜索技术和多目标粒子群优化技术。混合元启发式技术包括飞行和淘汰机制,以提高搜索能力和加速收敛。然后,在四季调度范围内对水力-风力-光伏系统进行了案例研究。该案例证明了研究的可行性和有效性。研究结果表明,所开发的方法能够平衡三个目标。结果表明,最优调度计划可减少间歇性,确保接受可再生能源,然后调整电源的装机容量。这项研究的协调运行策略促进了建立 MECS 的更有效方法,并有助于降低电网风险。
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来源期刊
Omega-international Journal of Management Science
Omega-international Journal of Management Science 管理科学-运筹学与管理科学
CiteScore
13.80
自引率
11.60%
发文量
130
审稿时长
56 days
期刊介绍: Omega reports on developments in management, including the latest research results and applications. Original contributions and review articles describe the state of the art in specific fields or functions of management, while there are shorter critical assessments of particular management techniques. Other features of the journal are the "Memoranda" section for short communications and "Feedback", a correspondence column. Omega is both stimulating reading and an important source for practising managers, specialists in management services, operational research workers and management scientists, management consultants, academics, students and research personnel throughout the world. The material published is of high quality and relevance, written in a manner which makes it accessible to all of this wide-ranging readership. Preference will be given to papers with implications to the practice of management. Submissions of purely theoretical papers are discouraged. The review of material for publication in the journal reflects this aim.
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