Design Framework for Multiple Infeed DC-Microgrids in Industrial Applications

2021 3rd International Conference on Electrical Engineering and Control Technologies (CEECT) Pub Date : 2021-12-01 DOI:10.1109/CEECT53198.2021.9672633

D. Schaab, Patrick Spanier, M. Ehlich, Erik Fosselmann

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Abstract

Low voltage direct current microgrids (DC-MG) provide a solution for increased efficiency by the reduction of conversion losses, total reuse of recuperation energy and an increased share of local power generation. Especially industrial applications ask for high uptimes and a stable voltage supply, which are both at stake in a power grid dominated by renewable generation. DC-MGs overcome these drawbacks by balancing energy distribution and power demand locally. For the planning and design of these grids a systemic approach is needed, due to the fact that many components are interacting. The task arises of structuring the knowledge available for individual technologies in an overall design framework. For this purpose, current state-of-the-art design processes are discussed in this article. These processes are mapped into the context of the requirements in an industrial environment. The findings are transferred to the design of industrial DC networks. Finally, a complete design process for DC-MGs is derived, which is proposed as a basis for the development of tools.

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工业应用中多馈入直流微电网的设计框架

低压直流微电网(DC-MG)通过减少转换损失、完全再利用再生能源和增加本地发电份额，为提高效率提供了解决方案。特别是工业应用要求高正常运行时间和稳定的电压供应，这在可再生能源发电主导的电网中都是至关重要的。dc - mg通过平衡当地的能量分布和电力需求来克服这些缺点。对于这些网格的规划和设计，需要一种系统的方法，因为许多组件是相互作用的。任务是在总体设计框架中对单个技术可用的知识进行结构化。为此，本文将讨论当前最先进的设计过程。这些过程被映射到工业环境中的需求上下文中。这些发现被转移到工业直流网络的设计中。最后，推导了直流电机的完整设计流程，为开发工具奠定了基础。

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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2021 3rd International Conference on Electrical Engineering and Control Technologies (CEECT)

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