Abstract
Deep penetration of distributed generators have created several stability and operation issues for power systems. In order to address these, inverters with advanced capabilities such as frequency and reactive power support the grid. Known also as Smart Inverters (SIs), these devices are highly dynamic and contribute to the power flow in the system. Notwithstanding their benefits, such dynamic devices are new to distribution networks. Power system operators are very reluctant toward such changes as they may cause unknown issues. In order to alleviate these concerns and facilitate SIs integration to the grid, behavior studies are required. To that end, this paper presents a power hardware-in-the-loop test set up and tests that are performed to study fault behavior of SIs connected to distribution networks. The details of the software model, SI integration with the real-time simulator, test results, and their analyses are presented. This experience shows that it is not trivial to connect such novel devices with simulation environments. Adjustments are required on both software and hardware fronts on a case-by-case basis. The encountered integration issues and their solutions are presented herein. The fault behavior of the SI with respect to the fault location is documented. It is observed that for faults that are close to SIs, momentary cessation of generation is observed. This needs to be tackled by device manufacturers as this phenomenon is very detrimental to health of a power system under fault conditions. Extensive PHIL test results show that several factors affect the fault behavior of an SI: fault location and its duration, SI mode of operation as well as extra devices housed in the casing. These results and their in-depth analyses are presented for a thorough understanding of SI behavior under fault conditions.
Highlights
Without a doubt, Renewable Energy (RE) is the most popular source of energy for the future [1,2]
To address this knowledge gap, this paper presents a power hardware-in-the-loop (PHIL) test setup and fault behavior tests results of a Smart Inverters (SIs) that has a large market-share in Hawaii and Japan [23]
In order to investigate the impact of Volt-Var mode on fault behavior, a set of tests have been performed
Summary
Renewable Energy (RE) is the most popular source of energy for the future [1,2]. There is a clear need in the literature for a PHIL test setup that can be used to investigate fault behavior of renewable energy-based generators. Based on the tests results, the impact of fault location and duration is analyzed All of these aspects are beneficial to researchers working in this field. (a) A novel lab-test setup is developed to study the fault behavior of SIs. Details of wiring and PHIL configuration are presented. Encountered modeling challenges as well as their solutions are reported Researchers working in this field can benefit from these and design different test environments. The rest of the paper is organized as follows: Section 3 presents the developed fault behavior study setup Both hardware configurations and software models are documented in detail.
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