Article ID: | iaor20128442 |
Volume: | 52 |
Issue: | 7-8 |
Start Page Number: | 76 |
End Page Number: | 84 |
Publication Date: | Jan 2013 |
Journal: | Energy Policy |
Authors: | Strbac Goran, Pudjianto Danny, Djapic Predrag, Aunedi Marko, Gan Chin Kim, Huang Sikai, Infield David |
Keywords: | networks, control, optimization, simulation |
Electrification of transport fleets and heating sectors is seen as one of the key strategies to further reduce the use of fossil fuels and the resulting greenhouse gas emissions. However, it will potentially cause a significant increase of electricity peak demand and have adverse consequences on the electricity system, in particular on distribution networks. This paper will address the benefits of various applications of smart network control and demand response technologies for enhancing the integration of these future load categories, and for improvements in operation management and efficient use of distribution network assets. A range of numerical simulations have been carried out on different distribution network topologies (rural and urban networks) to identify the need and the cost of network reinforcement required to accommodate future load under various operating strategies such as Business as Usual (passive demand and passive network) against the smart grid approach. Applications of smart Plug‐in vehicle (PiV) charging, smart heat pumps, and optimised control of network voltage regulators to reduce network investment have been studied, and selected key results of our studies on evaluating the benefits of implementing these technologies for Great Britain's distribution networks are presented and discussed in this paper.