Comparative analyses of scheduling scenarios to facilitate optimal operation of interconnected micro energy grids

2017 IEEE International Conference on Smart Energy Grid Engineering (SEGE) Pub Date : 2017-08-01 DOI:10.1109/SEGE.2017.8052782

A. Zidan, H. Gabbar

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Abstract

Micro energy grids (MEGs) are small local grids that operate at low voltage or medium voltage levels and include loads, control systems, and distributed generators (DGs). Distribution systems are expected to operate according to interconnected MEGs. A MEG can be scheduled to continue feeding its own loads with minimum power exchange with the main grid. There are demanding procedures for their optimal scheduling for performance enhancement. This paper presents a comparative analyses of scheduling scenarios to facilitate optimal operation of interconnected MEGs. Comprehensive hour-by-hour energy system analyses are conducted of a complete system meeting electricity and heat demands, and including CHP (combined heat and power), renewable resources (PV and wind), and boilers. The scheduling approach determines the optimal outputs of DGs based on i) compromising between the operational cost and emission of the entire interconnected MEGs system and/or ii) minimum power exchange with the main grid for self-sufficient MEGs system. In conclusion, the most efficient and least-cost scheduling scenarios are identified through energy system and feasibility analyses.

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促进互联微电网优化运行的调度方案对比分析

微电网是在低压或中压水平下运行的小型局部电网，包括负载、控制系统和分布式发电机(dg)。预计配电系统将根据相互连接的meg运行。MEG可以在与主电网的电力交换最小的情况下继续为自己的负荷供电。为了提高性能，它们的最佳调度需要严格的流程。本文提出了调度方案的比较分析，以促进互联meg的优化运行。对满足电和热需求的完整系统，包括热电联产、可再生资源(光伏和风能)和锅炉，进行逐小时的全面能源系统分析。该调度方法基于i)整个互联meg系统的运行成本和排放之间的折衷和/或ii)自给自足meg系统与主电网的最小功率交换来确定dg的最佳输出。最后，通过能源系统分析和可行性分析，确定了最有效和成本最低的调度方案。

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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2017 IEEE International Conference on Smart Energy Grid Engineering (SEGE)

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