Impact of source variability on flexibility for demand response
O'Connell, Sarah Reynders, Glenn Keane, Marcus M.
O'Connell, Sarah
Reynders, Glenn
Keane, Marcus M.
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Identifiers
http://hdl.handle.net/10379/17294
https://doi.org/10.13025/18538
https://doi.org/10.13025/18538
Repository DOI
Publication Date
2021-08-05
Type
Article
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Citation
O'Connell, Sarah, Reynders, Glenn, & Keane, Marcus M. (2021). Impact of source variability on flexibility for demand response. Energy, 237, 121612. doi: https://doi.org/10.1016/j.energy.2021.121612
Abstract
This paper assesses the quality of the services provided for demand response by analysing the results of experimental work activating flexible sources in buildings, while evaluating the impacts on occupant comfort and extending the dataset through aggregation, to quantify the uncertainty for multiple systems. Power and energy flexibility is an integral part of the solution to address the challenge of grid balancing with increased renewable generation integration. However, the variability of the provided flexibility, as measured by the stability and consistency of load reduction or increase, may vary widely. To address this, the concept of quality of flexibility is introduced and analysed through the results of experiments conducted at a case study building to activate three sources of flexibility: heat pumps, Air Handling Unit fans and battery storage. The results show that fan data exhibits low uncertainty, suitable for ancillary services, whereas heat pumps¿ volatility is large. Standard error for heat pumps was within the quality threshold of 10 %, appropriate for energy services. Aggregation of multiple systems through the creation of a semi-synthetic dataset decreased the uncertainty for hourly energy services to as low as 2 %. For all cases, the impact on occupant comfort was not found to be significant.
Publisher
Elsevier
Publisher DOI
Rights
Attribution 4.0 International (CC BY 4.0)