DocumentCode
1758849
Title
Impact of heat pump load on distribution networks
Author
Akmal, M. ; Fox, Brendan ; Morrow, John David ; Littler, Tim
Author_Institution
Coll. of Eng., Abu Dhabi Univ., Abu Dhabi, United Arab Emirates
Volume
8
Issue
12
fYear
2014
fDate
12 2014
Firstpage
2065
Lastpage
2073
Abstract
Heat pumps can provide domestic heating at a cost that is competitive with oil heating in particular. If the electricity supply contains a significant amount of renewable generation, a move from fossil fuel heating to heat pumps can reduce greenhouse gas emissions. The inherent thermal storage of heat pump installations can also provide the electricity supplier with valuable flexibility. The increase in heat pump installations in the UK and Europe in the last few years poses a challenge for low-voltage networks, because of the use of induction motors to drive the pump compressors. The induction motor load tends to depress voltage, especially on starting. The study includes experimental results, dynamic load modelling, comparison of experimental results and simulation results for various levels of heat pump deployment. The simulations are based on a generic test network designed to capture the main characteristics of UK distribution system practice. The simulations employ DIgSlILENT Power Factory to facilitate dynamic simulations that focus on starting current, voltage variations, active power, reactive power and switching transients.
Keywords
compressors; distribution networks; heat pumps; induction motors; thermal energy storage; DIgSlILENT power factory; UK distribution system; active power; distribution networks; domestic heating; dynamic load modelling; electricity supply; fossil fuel heating; generic test network; greenhouse gas emissions; heat pump load impact; induction motors; low-voltage networks; oil heating; pump compressors; reactive power; renewable generation; switching transients; thermal storage;
fLanguage
English
Journal_Title
Generation, Transmission & Distribution, IET
Publisher
iet
ISSN
1751-8687
Type
jour
DOI
10.1049/iet-gtd.2014.0056
Filename
6985842
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