What is TRC doing with a Bess feasibility study?

TRC is working to deliver a feasibility study for utility-scale BESS installations, helping demonstrate cost-effectiveness, engineering requirements, and resiliency benefits.

What is a Bess feasibility analysis?

The feasibility analysis assesses the state of the grid and highlights all the system benefits associated with the proposed BESS to identify the revenue streams available to the project sponsor. It may not be straight forward to monetize some system benefits, which would require incentives or regulatory changes to unlock their value.

What is the technical feasibility of a Bess project?

The technical feasibility of the BESS project is evaluated in a way that would be familiar to developers of power generation projects. The objective of this analysis, which includes load flow modelling, is to ensure that there is no detrimental impact to the grid.

What is Bess & how does it work?

BESS help address these concerns by enabling energy producers to store and release energy, providing a continuous flow of clean energy during periods of high demand, or when wind and solar energy is temporarily unavailable.

How can Bess be used to restore system stability?

The graph illustrates how BESS can be used to restore system stability. System frequency typically needs to be maintained within a fixed band (typically 50 Hz ± 0.5 Hz). If a large generation outage or a sudden drop in outputs from VRE results in a fall in system frequency, the BESS can respond very quickly to restore stability.

How does a Bess impact the dispatch of other generation resources?

Impact of the BESS on the dispatch of other generation resources. This will often be from evaluated using a Production Cost Model (PCM), or dispatch model covering the whole electricity system. Analysis of system dispatch to identify any generators or other resources that are no longer used or required after addition of the BESS.