Delivery of contracted energy flexibility from communities
conference contribution
posted on 2019-05-17, 13:38 authored by Rami S. El Geneidy, Bianca HowardThis paper contributes to existing research on energy flexibility by introducing centralised and decentralised model-predictive control (MPC) strategies
designed to deliver demand reductions over specific
time periods for demand response based on real-time
demand projections. The MPC strategies were evaluated with co-simulations of an English community
fitted with heat pumps over three afternoons in January, March and November with a demand response
event. Effects of dynamic and static electricity pricing on delivery of DR were analysed. In line with
previous findings factors like seasonality and pricing
were found to influence the flexibility potential of the
community. Operational differences found between
the centralised and decentralised MPC set-ups highlight importance of the control set-up for scalability
and delivery of flexibility.
Funding
This research was made possible by Engineering and Physical Sciences Research Council (EPSRC) support for the London-Loughborough (LoLo) Centre for Doctoral Research in Energy Demand (grant EP/H009612/1).
History
School
- Architecture, Building and Civil Engineering
Published in
Proceedings of Building Simulation 2019: 16th Conference of IBPSAPages
3660 - 3667Citation
EL GENEIDY, R.S. and HOWARD, B., 2019. Delivery of contracted energy flexibility from communities. IN: Corrado, V. ... et al (eds). Proceedings of Building Simulation 2019: 16th Conference of IBPSA, Rome, Italy, 2nd-4th Sept 2019, pp.3660-3667.Publisher
IBPSAVersion
- AM (Accepted Manuscript)
Acceptance date
2019-05-06Publication date
2020-04-01ISBN
9781775052012ISSN
2522-2708Publisher version
Language
- en
