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Benefits of demand-side response in combined gas and electricity networks

descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 01 Apr 2017 United Kingdom Publisher:Elsevier BVJournal:Applied Energy, volume 192, pages 360-369 (issn: 0306-2619,

Authors: Meysam Qadrdan; Nick Jenkins; Meng Cheng; Jianzhong Wu;

doi: 10.1016/j.apenergy.2016.10.047

Benefits of demand-side response in combined gas and electricity networks

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Abstract

AbstractActive demand side response (DSR) will provide a significant opportunity to enhance the power system flexibility in the Great Britain (GB). Although electricity peak shaving has a clear reduction on required investments in the power system, the benefits on the gas supply network have not been examined. Using a Combined Gas and Electricity Networks expansion model (CGEN+), the impact of DSR on the electricity and gas supply systems in GB was investigated for the time horizon from 2010 to 2050s. The results showed a significant reduction in the capacity of new gas-fired power plants, caused by electricity peak shaving. The reduction of gas-fired power plants achieved through DSR consequently reduced the requirements for gas import capacity up to 90 million cubic meter per day by 2050. The cost savings resulted from the deployment of DSR over a 50-year time horizon from 2010 was estimated to be around £60 billion for the GB power system. Although, the cost saving achieved in the gas network was not significant, it was shown that the DSR will have a crucial role to play in the improvement of security of gas supply.

Country

United Kingdom

Related Organizations

Cardiff University
United Kingdom
Cardiff University
United Kingdom
Energy Institute
United Kingdom
Energy Institute
United Kingdom

Keywords

Gas network, TA, Energy(all), Combined Gas and Electricity Networks expansion model (CGEN+), Demand side response, Power system, Expansion planning, Civil and Structural Engineering

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	impulse This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.	Top 1%