Abstract
With increasing penetration of renewable and low carbon energy resourcesand electrification of energy consumption, Demand Response (DR) is expected to play a more important role in system balancing, network capacity support, and wholesale electricity markets. However, the side effects of DR control could cause various issues that could eventually hinder its deployment. Therefore the impact of DR needs to be properly understood and modelled. A potentially significant source of DR may be found in control of electro-thermal technologies (ETT, i.e. electric heat pump and micro combined heat and power units) installed in the domestic sector, which could help to alleviate low voltage network congestion. In this respect, this paper introduces a detailed physical model which is used to simulate, with high resolution, the load shapes of different ETT in different buildings with different thermal inertia characteristics. Simulation studies are carried out to evaluate the changes in load patterns in the different cases and the impact of possible DR control strategies, also taking into account the thermal comfort level of occupants. The high resolution model developed aims at giving insights on the expected load pattern changes when applying different DR control schemes to different ETT and in different types of houses.
Original language | English |
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Title of host publication | IEEE ISGT Europe 2014 |
Publication status | Published - Oct 2014 |
Event | IEEE ISGT Europe 2014 - Istanbul, Turkey Duration: 12 Oct 2014 → 15 Oct 2014 |
Conference
Conference | IEEE ISGT Europe 2014 |
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City | Istanbul, Turkey |
Period | 12/10/14 → 15/10/14 |
Keywords
- combined heat and power, electric heat pump, demand response, thermal inertia, thermal storage