Solar thermal collector component for high-resolution stochastic bottom-up domestic energy demand models
conference contributionposted on 29.10.2015 by Paul Henshall, Eoghan McKenna, Murray Thomson, Philip Eames
Any type of content contributed to an academic conference, such as papers, presentations, lectures or proceedings.
High-resolution stochastic ‘bottom-up’ domestic energy demand models can be used to assess the impact of lowcarbon technologies, and can underpin energy analyses of aggregations of dwellings. The domestic electricity demand model developed by Loughborough University has these features and accounts for lighting, appliance usage, and photovoltaic micro-generation. Work is underway at Loughborough to extend the existing model intoan integrated thermal-electrical domestic demand model that can provide a suitable basis for modelling the impact of low-carbon heating technologies. This paper describes the development of one of the new components of the integrated model: a solar thermal collector model that provides domestic hot water to the dwelling. The paper describes the overall architecture of the solar thermal model and how it integrates with the broader thermal model, and includes a description of the control logic and thermal-electrical equivalent network used to model the solar collector heat output.
This project was supported by the Engineering and Physical Science Research Council within the High Performance Vacuum Flat Plate Solar Thermal Collector for Hot Water and Process Heat project (EP/K009230/1) and the Transformation of the Top and Tail of Energy Networks project (EP/I031707/1).
- Mechanical, Electrical and Manufacturing Engineering
- Centre for Renewable Energy Systems Technology (CREST)