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03.

Battery Energy Storage Systems (BESS)

Battery Energy Storage Systems are a technological solution that help to balance the electricity grid in real time.

Battery Energy Storage Systems (BESS)

Powering the Future

Battery Energy Storage Systems, also called BESS, is a technological solution that helps to balance the electricity grid in real time. Electricity flows on the grid may fluctuate due to various reasons, such as weather, power station outages, congestion on the grid, or geopolitical reasons.

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Intelligent Battery Energy Storage Systems can complement the grid by providing a continuous power flow, making them a key pillar of your business energy strategy.

 

The future grid will need to accommodate growing supply volatility from intermittent resources and quickly evolving fuel infrastructures, as well as increased demand-side functionality with distributed energy resources and the electrification of transportation, buildings, and industry. These trends will create significant new opportunities for technologies that decouple legacy dependencies and increase grid flexibility. These changes are accelerated by technical and economic forces, National and state policies, and recent legislation, including the Bipartisan Infrastructure Act and the Inflation Reduction Act. Texzon Utilities and its collaboration efforts will ensure that grid-scale energy storage is able to meet the demands of this new era in electricity delivery.

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Suitable for an efficient and innovative economic optimization

TriVA Partner Network is assessing several optimization and sizing systems to properly optimize BESS to ensure integration into the local environments and market designs, including the most recent ones relying on machine learning and AI.

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How does BESS work?

BESS will be charging either straight from the power grid or from a renewable energy resource, such as solar and wind turbine power. The system then discharges the electricity back into the grid when it’s economically convenient e.g. during peak hours or following specific balancing orders from the Local Transmissions System Operators (TSOs). From a high-level basic technical standing point, Battery Energy Storage Systems can be connected in front of the meter when directly connected to the transmission grid (for utility-scale installations) or behind the meter when connected to a local distribution network such as a business or industry.

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Financial advantages of BESS

Battery Energy Storage Systems allow you to engage in energy arbitrage. With BESS, you buy your energy during off-peak hours when grid prices are lowest, store it, and use it during peak hours when prices are at their highest. When coupled with on-site wind or solar power plants, BESS enable you to maximize the value of the electricity produced from such renewable sources, contributing to a certain extent to reducing the cost of energy both at the wholesale level and hence reflecting it on electricity bills.

 

Additionally, Battery Energy Storage Systems can play a central role in providing valuable and potentially highly remunerated energy services (such as electricity frequency regulation or electricity volume balancing in real-time) to the grid through the local TSOs, supporting them in facing the challenges arising from higher penetration of renewable energy sources such as solar and wind into the grid.

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Benefits of Integrating Battery Energy Storage System

BESS are expected to provide fast response and efficient intraday flexibility, with storage duration ranging from a few seconds to 4-8 hours​. For such a reason, they might be retained as an excellent fast responsive and efficient backup system for relatively short-term balancing needs, compared to Pumped Hydro Storage and thermal peaking plants that can cover power flexibility needs over a longer period.

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Environmental advantages

Battery Energy Storage Systems (BESS) can offer several environmental advantages and therefore significantly impact the energy transition. A few of them are:

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  1. Reducing carbon emissions: BESS can help integrate renewable energy sources such as solar and wind into the grid, reducing reliance on fossil fuel-based power plants which can lead to significant reductions in greenhouse gas emissions.

  2. Increasing energy efficiency: By storing excess energy during low-demand periods and then releasing it during peak-demand periods, BESS helps with energy management, reduce the wastage of energy and conserve natural resources.

  3. Supporting grid stability: BESS can provide fast and reliable response times to grid disturbances, which can help prevent blackouts and other disruptions, ensuring a more reliable and secure power supply.

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Services

Battery Energy Storage System Capabilities

TriVA Partner Network™  with Texzon Utilities, provides the following services to support your battery energy storage implementation:

 

  • Study of current power expenditures and rate plans

  • Conceptual design, viability, and feasibility studies

  • Energy system Integration

  • BESS installed cost estimate 

  • ROI, IRR and cashflow – payback schedule

  • BESS (battery energy storage system) design and integration

  • Electrical and mechanical engineering

  • Electrical load analysis

  • PPA (power purchase agreements) & VPA (virtual power agreements)

  • Utility interface and interconnection

  • Structural and support engineering 

  • Permitting and applications support

  • Software: Helioscope, Energy Toolbase, CAD, delos, etc.

  • Technical field services and project management

  • Independent engineering reviews & inspections

  • Civil engineering and environmental impact analysis / design

  • In-House grant writing, defining federal and state incentives, etc.

  • Financial products, project capital, and funding incentives

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