Kai Karlstrom
Director of Solutions Engineering
Climate Adaptive Battery Storage Infrastructure.
Site-Level Risk Analytics
Quantify heat, flood, and storm risk to every BESS installation in your portfolio, from thermal management systems to enclosures, inverters, and grid connection points.
Why BESS Operators Need Climate Adaptive Infrastructure Analytics
Generic Risk Scores Don’t Protect Battery Assets
Battery energy storage is the fastest-growing segment of energy infrastructure, and one of the most climate-sensitive. Extreme heat accelerates cell degradation and increases thermal runaway risk. Flooding threatens enclosures, inverters, and balance-of-plant equipment. Storms damage structures and disrupt grid connections.
Yet most climate risk assessments treat BESS sites as generic points on a map. They miss the critical interaction between specific battery chemistry, thermal management design, enclosure ratings, and local hazard exposure.
Repath delivers climate risk analytics engineered for the specific vulnerabilities of battery storage infrastructure, connecting your system specifications to forward-looking physical hazard projections at the site level.
Climate Risk Intelligence Engineered for Battery Storage
Repath combines climate hazard modelling with your BESS specifications; battery chemistry, thermal management type, enclosure IP rating, inverter tolerances, and site elevation to quantify physical risk and financial exposure with precision. From site selection to operational adaptation, Repath enables you to:
Assess thermal risk to battery performance and safety
Protect balance-of-plant from flood and storm exposure
Optimise site selection and design for climate resilience
Map Climate Vulnerability Across Your BESS Portfolio
See which installations face the greatest climate exposure, from heat-driven degradation to flood and storm risk and understand how that exposure evolves through 2030, 2040, and 2050 under multiple climate scenarios.
Quantify Climate-Driven Performance Degradation and Downtime
Estimate how extreme heat events reduce round-trip efficiency and accelerate warranty-period degradation. Quantify expected flood and storm downtime. Translate physical climate exposure into financial terms — enabling informed decisions on insurance, adaptation CAPEX, and portfolio risk management.
Protect balance-of-plant from flood and storm exposure
Identify which BESS installations face unacceptable flood, wind, or debris risk to inverters, transformers, switchgear, and grid connection infrastructure — and quantify the financial exposure
Strategic CAPEX vs. OPEX Clarity
Evaluate candidate sites against current and projected climate hazards. Inform enclosure specifications, elevation requirements, drainage design, and thermal management sizing before committing CAPEX.
Ready to protect your battery storage investments from physical climate risk?
Book a Demo Today, and let us help you make the right decisions to protect them!
