Zero‑Carbon Industrial Cooling

Solar‑Powered. Grid‑Light. Climate‑Resilient.

Sun‑Ice delivers large‑scale cooling and heating for industrial and commercial buildings — powered primarily by the sun, with thermal storage that keeps operations stable, efficient, and climate‑resilient. The grid becomes the backup, not the primary energy source.

Industrial buildings face year‑round thermal loads that strain energy budgets and infrastructure.

Cooling is often the largest single energy expense, and traditional HVAC systems depend heavily on the grid or diesel.

• Rising electricity tariffs increase operating costs.
• Grid instability threatens production uptime.
• Diesel generators add carbon, noise, and maintenance burden.
• Sustainability standards are tightening globally.

Industrial operators need a solution that reduces cost, cuts carbon, and improves resilience — without compromising performance.

Sun‑Ice uses solar energy to drive industrial cooling during the day.

Excess solar is stored as cold in our thermal storage system and released when the sun is no longer shining.

• Solar‑powered cooling and heating
• Thermal storage for night‑time and peak‑load operation
• Grid‑light architecture (grid used only as backup)
• Zero diesel in normal operation
• Climate‑resilient performance during outages and extreme weather

This architecture transforms industrial buildings into low‑carbon, low‑cost, energy‑independent facilities.

Flagship Deployment: 25,000 sqm, 5‑Storey Industrial Building — Shanghai, China

Our solar‑driven thermal architecture is fully operational in a large industrial facility, delivering both cooling and heating with net‑positive annual energy performance.

• Demonstrated at full industrial scale
• Integrated into a multi‑storey, mixed‑use industrial building
• Achieves cooling and heating with solar as the primary energy source
• Exceeds the Green Mark efficiency standard

This is not a pilot — it is a commercial, real‑world deployment.

Financial

• Cooling cost equivalent: €0.07/kWh with solar and PCM storage
• €0.04/kWh daytime
• €0.03/kWh nighttime
• Typical 7‑year payback

Operational

• 24/7 cooling, heating, and dehumidification
• Stable indoor conditions year‑round
• Solar as the primary energy source
• Grid used only as backup during extended bad weather

Environmental

• Net‑positive annual energy balance
• Significant CO₂ reduction
• Exceeds Green Mark efficiency thresholds

• Industrial buildings with year‑round thermal loads
• Manufacturing and processing facilities
• Pharma, biotech, and clean‑production environments
• Large commercial or mixed‑use buildings
• Warehouses, logistics hubs, and distribution centers

Any facility with continuous cooling or heating demand can benefit from Sun‑Ice’s zero‑carbon thermal architecture.

• Lower operating costs through solar‑driven cooling
• Reduced grid dependence and improved energy resilience
• Zero carbon emissions during normal operation
• Stable thermal performance even during outages
• Scalable architecture for buildings from 5,000 to 50,000+ sqm
• Future‑proof compliance with sustainability standards

Ready to Scale Zero‑Carbon Cooling and Heating — Today

Sun‑Ice is already deployed at industrial scale and ready to be integrated into new or existing facilities.

Transform your building into a solar‑powered, grid‑light, climate‑resilient asset.

Ready to Scale Zero‑Carbon Cooling and Heating — Today

Sun‑Ice is already deployed at industrial scale and ready to be integrated into new or existing facilities.

Transform your building into a solar‑powered, grid‑light, climate‑resilient asset.