The drive to decarbonise the grid through intermittent generation requires an increase in system flexibility. To achieve this all energy assets, regardless of size and location, need to be incentivised to contribute. For smaller and remote assets and microgrids, the ability to participate in the current third-party flexibility markets remains limited. A toolkit has therefore been developed to allow assessment for smaller systems to use standard flexible energy tariffs, orchestrated by a simple, independent locally-situated controller, to achieve financial benefits and assist grid balancing. The toolkit has demonstrated that significant savings are achievable for a small mini-district scheme. The integrated Python-based optimisation engine can be used on low-cost platforms, such as the Raspberry Pi, which indicates that the developed algorithms has the potential to orchestrate microgrids as part of an integrated control system.
|Number of pages||9|
|Publication status||Published - 12 Nov 2020|
|Event||uSIM2020 Building to Buildings – Urban and Community Energy Modelling: 2nd IBPSA-Scotland Conference - Heriot Watt University, Edinburgh, United Kingdom|
Duration: 12 Nov 2020 → 12 Nov 2020
Conference number: 2
|Conference||uSIM2020 Building to Buildings – Urban and Community Energy Modelling|
|Period||12/11/20 → 12/11/20|
- community energy
- predictive controls
- energy system modelling
- district heating
- heat pumps
FingerprintDive into the research topics of 'Towards a smart community evaluation and implementation toolkit - low-cost mini-district predictive controls with flexible tariffs'. Together they form a unique fingerprint.
OccDem - a program to generate statistically-based occupancy and occupant-driven electrical demand profiles.