Study and simulation of DC micro grid topologies in Caspoc

W. Aerts, S. Willems, D. Haeseldonckx, P. van Willigenburg, J. Woudstra, S. De Jonge
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引用次数: 6

Abstract

As the impact of our actions on the climate become more and more clear and environmental awareness is rising, the quest for increasing efficiency and lower environmental impact becomes very important. Efficiency is particularly important in the field of electricity consumption, which keeps on rising as electrification of our transportation, houses, offices and more continues worldwide. These loads and sustainable sources have one thing in common: Direct Current. To successfully respond to this growing usage of direct current (DC) systems it is important to provoke an evolution in the provision of DC infrastructure. The goal of this paper is to create a methodology to calculate and evaluate the power losses in both traditional AC grids and DC microgrids. This is done through simulation models made by Caspoc, a software for modeling and simulating physical systems in analog/power electronics, electric power generation/conversion/distribution and mechatronics. The results are compared on the quantifiable indicator: energy savings. The impact of cable losses and different converters is calculated through the simulation. This methodology and simulation strategy can be the basis for the optimal grid design in other infrastructures and cases. The model will be validated with intensive tests of household equipment in a later stage of the project, this paper focuses on the model and methodology itself.
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Caspoc直流微电网拓扑研究与仿真
随着我们的行动对气候的影响越来越明显,环保意识也在提高,追求提高效率和降低对环境的影响变得非常重要。效率在电力消耗领域尤为重要,随着全球交通、住宅、办公室等领域的电气化不断推进,电力消耗也在不断上升。这些负载和可持续电源有一个共同点:直流电。为了成功应对直流(DC)系统日益增长的使用,重要的是要在直流基础设施的提供方面引发变革。本文的目标是创建一种方法来计算和评估传统交流电网和直流微电网的功率损耗。这是通过Caspoc制作的仿真模型完成的,Caspoc是模拟/电力电子、发电/转换/配电和机电一体化等物理系统建模和仿真的软件。结果在可量化的指标上进行了比较:节能。通过仿真计算了电缆损耗和不同变换器的影响。该方法和仿真策略可作为其他基础设施和案例中网格优化设计的基础。该模型将在项目后期通过家用设备的密集测试进行验证,本文重点关注模型和方法本身。
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