Development and test of a four-module 1200 kVA distributed generation power plant

2010 IEEE Conference on Innovative Technologies for an Efficient and Reliable Electricity Supply Pub Date : 2010-11-04 DOI:10.1109/CITRES.2010.5619800

S. Fairfax, N. Dowling, D. Nichols

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Abstract

MTechnology, Inc., was retained to design and develop the power electronics system for a distributed generation power plant. The plant incorporated four 250 kW DC modules. The plant was required to operate both in grid-connect and grid-independent modes, with constraints upon the acceptable transients applied to the plant internal bus during transitions between modes. The transition from grid-connect to grid-independent mode required the plant power control system to assume responsibility for voltage regulation and power balance between generation and plant ancillary loads. Operation in grid-independent mode faced the challenge of starting relatively large compressor and fan loads, variable generation and load power levels, and the requirement to clear faults on the internal plant bus. The inverter controls were designed to supply up to 2x rated continuous output current into low voltage and fault conditions, with minimal disturbance of the DC power flow from the DER modules. This elevated current simplified coordination with protective devices on the customer and utility network.

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四模块1200kva分布式发电机组的研制与试验

MTechnology, Inc.被保留为分布式发电电厂设计和开发电力电子系统。该电站包括4个250千瓦的直流模块。工厂需要在并网和独立模式下运行，并在模式转换期间对工厂内部总线的可接受瞬态进行限制。并网模式向独立模式的转变，要求电厂电力控制系统承担起发电负荷和电厂辅助负荷之间的电压调节和功率平衡的责任。在电网独立模式下运行面临的挑战是启动较大的压缩机和风机负荷，多变的发电和负荷功率水平，以及清除工厂内部母线故障的要求。逆变器控制器被设计为在低压和故障条件下提供高达2倍额定连续输出电流，并且对来自DER模块的直流功率流的干扰最小。这种升高的电流简化了与客户和公用事业网络上的保护装置的协调。

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2010 IEEE Conference on Innovative Technologies for an Efficient and Reliable Electricity Supply

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