Impact of service sector loads on renewable resource integration

•Improved urban demand modelling using both household and service sector load profiles.•Detailed service sector load profiles based on an extensive data aggregation approach.•Estimation of service sector demand impact in various solar and wind supply scenarios.•New approach for the influence of time...

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Bibliographic Details
Published in:Applied energy 2017-11, Vol.205, p.1311-1326
Main Authors: Voulis, Nina, Warnier, Martijn, Brazier, Frances M.T.
Format: Article
Language:English
Subjects:
Demand modeling
Energy demand profiles
Renewable energy
Service sector
Urban energy systems
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Summary:•Improved urban demand modelling using both household and service sector load profiles.•Detailed service sector load profiles based on an extensive data aggregation approach.•Estimation of service sector demand impact in various solar and wind supply scenarios.•New approach for the influence of time and weather on renewable resource potential.•Estimation of service sector demand impact in different time and weather conditions. Urban areas consist of a mix of households and services, such as offices, shops and schools. Yet most urban energy models only consider household load profiles, omitting the service sector. Realistic assessment of the potential for renewable resource integration in cities requires models that include detailed demand and generation profiles. Detailed generation profiles are available for many resources. Detailed demand profiles, however, are currently only available for households and not for the service sector. This paper addresses this gap. The paper (1) proposes a novel approach to devise synthetic service sector demand profiles based on a combination of a large number of different data sources, and (2) uses these profiles to study the impact of the service sector on the potential for renewable resource integration in urban energy systems, using the Netherlands as a case study. The importance of the service sector is addressed in a broad range of solar and wind generation scenarios, and in specific time and weather conditions (in a single scenario). Results show that including the service sector leads to statistically significantly better estimations of the potential of renewable resource integration in urban areas. In specific time and weather conditions, including the service sector results in estimations that are up to 33% higher than if only households are considered. The results can be used by researchers to improve urban energy systems models, and by decision-makers and practitioners for grid planning, operation and management.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2017.07.134