Energy expansion planning with a human evolutionary model

Q2 Energy

Energy Informatics Pub Date : 2024-08-05 DOI:10.1186/s42162-024-00371-x

Hosein Farokhzad Rostami, Mahmoud Samiei Moghaddam, Mehdi Radmehr, Reza Ebrahimi

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Abstract

This study presents a novel method for planning the expansion of transmission lines and energy storage systems while considering the interconnectedness of electricity and gas networks. We developed a two-level stochastic planning model that addresses both the expansion of transmission and battery systems in the electrical grid and the behavior of the gas network. This research explores the challenges and effects of integrating high levels of renewable energy sources while ensuring security within both networks. Our model uses a stochastic mixed-integer non-linear programming approach. To solve this complex model, we applied the Human Evolutionary Model (HEM). We tested our approach on two case studies: a simple 6-node network and the more complex IEEE RTS 24-bus network for the electricity grid, combined with 5-node and 10-node gas networks, respectively. The results demonstrate the effectiveness of our model, particularly in scenarios where connections in the power and gas networks are disrupted, preventing load shedding even when integrated network connections are cut.

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利用人类进化模型进行能源扩张规划

本研究提出了一种新方法，用于规划输电线路和储能系统的扩展，同时考虑电力和天然气网络的互联性。我们开发了一个两级随机规划模型，既能解决电网中输电和电池系统的扩展问题，也能解决天然气网络的行为问题。这项研究探讨了在确保两个网络安全的同时整合高水平可再生能源所带来的挑战和影响。我们的模型采用随机混合整数非线性编程方法。为了解决这个复杂的模型，我们采用了人类进化模型（HEM）。我们在两个案例研究中测试了我们的方法：简单的 6 节点网络和更复杂的 IEEE RTS 24 总线电网网络，分别与 5 节点和 10 节点天然气网络相结合。结果表明，我们的模型非常有效，尤其是在电力和天然气网络连接中断的情况下，即使综合网络连接被切断，也能防止负载中断。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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