23 rd International Conference on Electricity Distribution Lyon, 15-18 June 2015 Paper 1046 CIRED 2015 1/5 APPLICATION OF PMUS FOR MONITORING A 50 KV DISTRIBUTION GRID Gert RIETVELD Arjen JONGEPIER Joeri VAN SETERS Marco VISSER VSL – The Netherlands DNWG – The Netherlands DNWG – The Netherlands DNWG – The Netherlands grietveld@vsl.nl ajongepier@dnwg.nl jvanseters@dnwg.nl mvisser@dnwg.nl Pei LIU Milos ACANSKI Dennis HOOGENBOOM Helko E. VAN DEN BROM TU Delft – The Netherlands VSL – The Netherlands VSL – The Netherlands VSL – The Netherlands P.Liu-2@student.tudelft.nl macanski@vsl.nl dhoogenboom@vsl.nl hvdbrom@vsl.nl ABSTRACT The strong variability of energy produced by renewable energy sources is challenging the stability of distribution grids. This calls for improvement of the grid monitoring and control infrastructure with faster and more accurate measurement equipment. In a joint effort of the Delta Network Group (DNWG) and VSL, the national metrol- ogy institute of the Netherlands, a project is started for monitoring a heavily loaded 50 kV ring of the DNWG network with phasor measurement units (PMUs). A set of six PMUs is installed in five substations of the ring with the aim to gain more insight in the grid behaviour, especially in dynamic events caused by the large amount of RES connected to the 50 kV ring. Before installation, the PMUs have been tested in order to verify their ability to measure the small phase angle differences occurring in the distribution grid. The main initial PMU applications will be the detection of oscillations and other dynamic events in the DNWG 50 kV grid, and the monitoring of power flows and power/voltage stability. The first mea- surement results are expected to become available in early 2015. INTRODUCTION Renewable energy sources (RES) such as wind or solar power greatly affect distribution networks. Increased energy flows and especially their rapid variation due to the variable nature of the feed in from RES may lead to static, dynamic, or transient overload phenomena. For the DELTA Network Group (DNWG), one of the distribution network operators (DNOs) of the Netherlands, this specifically becomes a problem in one of its 50 kV distri- bution grids. Here, a significant amount of electricity is produced by wind farms, solar panels, and combined heat and power (CHP). Especially greenhouses with large CHP installations may either be a source or a load depending on the load situation, energy market, and weather conditions. Combined with grid switching operations and the behaviour of other sources and loads, the number of fast, dynamic events and transients is rapidly increasing in this heavily loaded grid. The present monitoring and maintenance of the DNWG 50 kV grid is based on offline models and calculations for dynamic grid phenomena, combined with real-time current and voltage measurements for the static grid behaviour. At present, these measurements are performed relatively infrequently, only once every 1 – 10 seconds. It is expected that better measurements, that is more fre- quent and also more accurate measurements, in combi- nation with near real-time processing of the data will provide the opportunity for more effective monitoring and control of the energy flows, and for early warning of possible grid instabilities. Phasor measurement units (PMUs) are a promising technology for realising such an improved grid measurement infrastructure [1]. In a joint effort of DNWG and VSL, the national metrol- ogy institute of the Netherlands, a “Proof of Concept” project has been started to apply PMU technology in the heavily loaded DNWG 50 kV distribution grid. The paper first describes the aim of the project, followed by a short description of the 50 kV DNWG distribution grid and the relevant possible PMU applications. The second part of the paper describes the selection, testing, and actual installation of the PMUs in the DNWG 50 kV grid. In the conclusions and outlook, the results achieved so far are summarised together with an indication of the ongoing and future work. AIM OF THE PROJECT The overall aim of the joint DNWG–VSL project is to realise more efficient and more effective management and operation in a highly-utilized 50 kV distribution grid. This should improve the reliability and availability of the grid and provide insight on the impact of renewable energy sources on grid stability, which should eventually result in cost savings via delaying or even preventing expensive grid expansions. The project aim will be realised via the development of several applications based on PMU technology installed in the grid. Since at present not many PMUs are actually available in distribution grids, the DNWG–VSL project is considered as a “proof of concept” project which should provide useful knowledge and insight in the added value of PMU technology for distribution grids.