Prohresivka BESS

The Prohresivka BESS project represents a new approach to investing in battery energy storage systems in Ukraine. Instead of treating storage as a single large infrastructure asset, the project structures one utility-scale system into multiple investable layers, combining transparent pricing, real-time market data, and institutional-grade execution.

This model allows investors to access energy storage not just as a technical asset, but as a financial product.

Project Overview: 40 MW / 160 MWh Utility-Scale BESS

The Prohresivka project is designed as a 40 MW / 160 MWh battery energy storage system connected to the Ukrainian power grid.

Key parameters:

• Total capacity: 160 MWh
• Power output: 40 MW
• Grid connection: 35 kV
• Operating model: daily arbitrage in the day-ahead market (DAM)
• Dispatch strategy: 1–2 optimized cycles per day

The system is specifically positioned to capture intra-day price volatility, converting market inefficiencies into predictable revenue streams.

Layered Investment Structure: From Infrastructure to Financial Product

A key innovation of the Prohresivka project is its layered investment model.

Instead of requiring a full-system investment, the project is divided into distinct layers:

• Full system (complete asset exposure)
• MV power station
• Battery container
• Battery rack
• Battery cell

Each layer has:

• clearly defined technical scope
• transparent pricing per kWh
• available inventory
• minimum investment thresholds

This structure enables:

• flexible capital allocation
• participation from a wider range of investors
• clear understanding of what is being financed

By packaging a single BESS asset into standardized units, the project bridges the gap between infrastructure investment and fintech-style accessibility.

Transparent Pricing and Real-Time Economics

Unlike traditional energy projects, the Prohresivka BESS is supported by a transparent pricing and analytics framework.

Each investment layer is linked to:

• base system cost
• allocation of balance-of-system components
• operational overhead
• risk-adjusted pricing

At the same time, the project integrates real Ukrainian market data:

• day-ahead electricity prices
• historical volatility
• real-time revenue estimates

This allows investors to see:

• how revenue is generated
• how dispatch decisions are made
• how daily profit evolves under current market conditions

The result is a level of transparency rarely available in energy infrastructure investments.

Revenue Model: Monetizing Market Volatility

The Prohresivka project generates revenue through electricity price arbitrage in the Ukrainian day-ahead market.

Core mechanism:

• charge the battery during low-price hours
• discharge during high-price periods

Typical daily structure:

• night → morning cycle (optional)
• day → evening cycle (primary revenue driver)

Based on real market data:

• daily revenue can range from approximately ₴1.3M to ₴1.7M under favorable conditions
• annual returns can reach 15–25%, depending on volatility and operational efficiency

The project uses optimized dispatch logic to ensure that cycles are only executed when economically justified, balancing short-term profit and long-term battery health.

Advanced Dispatch Optimization

Battery storage is not a passive asset. The Prohresivka project relies on algorithmic optimization to determine:

• when to charge
• when to discharge
• whether to run one or two cycles per day
• how to manage partial charge and discharge

The system accounts for:

• round-trip efficiency
• battery degradation
• transaction costs
• slippage in market execution

This ensures that operational decisions are driven by net profitability, not just theoretical price spreads.

Strategic Location and Grid Integration

The project is located in Mykolaiv region, with access to a 35 kV grid connection.

This provides:

• proximity to key transmission infrastructure
• ability to respond quickly to market signals
• integration with renewable generation in the region

As Ukraine continues to expand solar and wind capacity, assets like Prohresivka play a critical role in balancing the grid and stabilizing supply.

Risk Considerations

While the Prohresivka project offers strong return potential, several factors must be considered:

• market volatility may decrease over time
• regulatory changes can impact pricing and access
• battery degradation affects long-term performance
• grid constraints may influence dispatch

The project addresses these risks through:

• conservative operational assumptions
• transparent economics
• adaptive dispatch strategies

Why Prohresivka Matters for the Future of Energy Investment

The Prohresivka BESS project demonstrates how energy infrastructure can evolve into a more accessible and data-driven asset class.

It combines:

• real physical infrastructure
• financial structuring
• live market integration
• transparent investor interface

This model aligns with global trends toward:

• decentralized investment
• digital asset management
• data-driven infrastructure financing

Conclusion

The Prohresivka project is not just a battery storage facility. It is a platform for investing in energy market dynamics.

By structuring a single BESS asset into investable layers and linking it to real-time market economics, it provides:

• accessibility
• transparency
• strong return potential

For investors looking to enter the Ukrainian energy storage market, Prohresivka represents a practical and scalable entry point into one of the most dynamic segments of modern energy infrastructure.