Energy Storage Solution
Trimark offers an integrated solution to battery energy storage, combining NEC’s Distributed Storage Solution (DSS®) with Trimark’s T1-S SCADA platform.
- Trimark is a reseller of NEC’s DSS®, which is a pre-configured, fully integrated energy storage platform empowering the delivery of advanced energy services at the grid edge. The NEC DSS® reduces enterprise energy costs by optimizing how and when energy is supplied from the grid.
- By combining Trimark’s T1-S SCADA control platform with DSS, owners can align multiple generation sources, control charge and discharge events, track power characteristics at the point of interconnection, trend asset performance for predictive maintenance, and automatically produce and distribute scheduled reports.
- The combined DSS/T1-S platforms support smoother intermittent distributed renewable generation and shaving of peak demand.
Trimark’s Integrated Control Overview
Trimark’s T1-S SCADA platform delivers unparalleled intelligence to balance, protect, command, and control any battery type across an extensive range of applications. The platform provides a flexible system robust enough to work across multiple MW storage configurations or in concert with power production assets.
Trimark’s T1-S SCADA communicates seamlessly with a range of other controls, such as SCADA, DAS, or EMS, meeting all the communication requirements for IEC 61850. IEC 61850 is the standard for utility automation that regulates data communication for electrical grid generations.
NEC Distributed Storage System Overview
- For commercial and industrial (C&I) enterprises, the DSS platform simplifies “behind- the-meter” deployment of energy storage-based services that reduce energy costs and increase resiliency.
- Distribution utilities benefit from “front-of-the-meter” DSS deployments that smooth intermittent distributed renewable generation, shave demand peaks, achieve more efficient system utilization, and better manage distributed assets.
An Integrated Approach for PV and Battery Energy Storage Operations
- Firm capacity/solar smoothing: Guarantees availability of backup energy by maintaining a PV production schedule within a pre-defined dead band with the ability to make adjustments in selected time increments
- Grid support: Provides short-term power adjustments to maintain system frequency within required levels and reduce rapid voltage and power swings
- Energy shifting: Utilizes a Schedule Mode or Peak Limiting mode to determine charge and discharge periods
- Power setpoint: Enables control from an ISO – Automated Dispatch System (ADS) or Automatic Gain Control (AGC) – local operations or remote (owner) control room dispatch to implement the desired ramp-rate and power output settings at each battery
- Black start operation: Start up without power from the grid and operate in standby mode while disconnected from the grid
- Ramping support: Provides supplemental power during startup and shutdown of baseload generation or when solar output fluctuates
- Energy arbitrage: Shifts energy production from low-value to high-value periods
- Spinning reserves: Grid-connected reserve power ready for instantaneous delivery
- Non-spinning reserves: Reserves not connected to the grid but able to deliver power within minutes
Battery Energy Storage Uses
- Balancing grid supply and demand: Can help balance electricity supply and demand on multiple time scales
- Peak shaving and price arbitrage opportunities: Can flatten daily load or net load shapes by buying power and charging during lower price periods and selling power and discharging during higher-price periods
- Storing and smoothing renewable generation: Storing excess solar-generated electricity and supplying it back to the grid or to local loads when needed can reduce renewable curtailments, negative wholesale power prices, and price spikes related to evening peak ramping needs
- Deferring large infrastructure investments: Installing batteries at strategic locations, at a much lower cost, enables utilities to manage growing demand while deferring large grid investments
- Reducing end-use consumer demand charges: Large power consumers can reduce their electricity demand charges by using on-site energy storage during peak demand times
- Back-up power: Batteries can provide back-up power during outages or to support electric reliability