What Makes Us Different
Engineered for Stable Heat Rejection
Simple systems that behave predictably
Dry air coolers are engineered to deliver consistent heat rejection with minimal control complexity — reducing failure points and ensuring reliable operation over the long term.
Designed to
Integrate Cleanly
Works with existing plant,
not against it
Systems are designed to integrate seamlessly with existing chillers, pipework, and controls, avoiding unnecessary rework and ensuring smooth operation from day one.
Low-Energy by Design, Not Compromise
Reduced operating cost through simplicity
By eliminating compressors and water consumption, dry air coolers reduce energy use and maintenance burden — delivering a robust, cost-effective solution without operational compromise.
Revolutionising Industrial Cooling With Dry Air Coolers
NovaCool Solutions Ltd dry air coolers provide reliable, low-energy heat rejection by transferring heat from closed-loop process water or glycol circuits directly to ambient air using finned coils and controlled airflow. This approach avoids open water systems and refrigerant-based heat rejection while maintaining stable thermal performance.
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The outcome is lower electrical demand, reduced system complexity, and predictable maintenance requirements, all while supporting year-round operation in UK conditions. Designed for use with treated water or glycol mixtures, dry air coolers integrate seamlessly with existing process chillers or operate as standalone cooling solutions.
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For sites seeking additional efficiency, dry air coolers can be combined with ambient cooling systems to extend free-cooling operation and improve overall energy performance—without compromising process control or reliability.
How Dry Air Coolers Work For You
Dry air coolers turn ambient air into a dependable heat sink for your process. Heat is removed from a closed-loop water or glycol circuit and rejected to the surrounding air through finned coils, with airflow modulated to match real thermal demand rather than running flat-out.
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High-efficiency EC fans and variable-speed control ramp output up or down as conditions change, keeping temperatures stable while minimising electrical load. Remote monitoring provides continuous visibility, so performance stays optimised without manual intervention.
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In hybrid configurations, controls automatically blend dry cooling with mechanical chilling, cutting chiller runtime and reducing system strain while maintaining precise setpoints. The result is consistent temperatures, predictable operation, and year-round control—whether the dry air cooler is supporting process chillers or carrying the load on its own, engineered the way NovaCool builds systems: calm, controlled, and reliable.
Why Choose Dry Air Coolers?
Dry air coolers deliver lower energy demand, stable heat rejection, and reduced operational risk by transferring heat from process water or glycol circuits directly to ambient air. Whether configured on open or closed systems, they provide reliable cooling without relying on refrigerant-based heat rejection.
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Their simple, robust design supports predictable maintenance planning and consistent thermal performance, helping reduce fouling risk and unplanned downtime when properly specified and maintained. In cooler climates, dry air coolers significantly reduce mechanical cooling hours, lowering electrical load while maintaining dependable, year-round operation.
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For manufacturers seeking efficiency gains without disrupting existing plant infrastructure, dry air coolers integrate seamlessly with process chillers and wider cooling systems. Delivered by NovaCool Solutions Ltd, they offer a practical route to reduced energy exposure, operational stability, and long-term cooling confidence.
Tailored Solutions For Industrial Applications
Every industrial site places different demands on its cooling systems, which is why dry air coolers are engineered around your process, your layout, and your operating conditions. NovaCool Solutions Ltd delivers fully engineered solutions, including schematic design, pipework integration, and site-specific installation to achieve correct flow rates, effective heat rejection, and long-term system reliability.
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Dry air coolers are deployed across plastics manufacturing, pharmaceutical production, food processing, chemical plants, and renewable energy facilities—where consistent performance and control matter. Each system is designed to reduce energy exposure, limit operational risk, and support maintainable plant operation, delivering stable cooling performance that protects production over the long term.
