What Makes Us Different
Engineered for Critical Industrial Processes
Cooling designed around uptime, control, and risk
Systems are engineered specifically for production-critical environments, delivering stable temperature control and predictable performance where downtime is not acceptable
Future-Ready Refrigerant Choices
Compliance built in,
not bolted on later
Where refrigeration is required, systems are specified with low-GWP refrigerants and future-ready components to meet current and upcoming regulations without compromising reliability.
Turnkey Delivery, Engineer-Led
Designed, installed, and commissioned by engineers
From initial design through installation and commissioning, projects are delivered by engineers to ensure correct integration, faster handover, and dependable operation
from day one.
Tailored Chilled Water Systems For Your Industry
NovaCool Solutions Ltd delivers chilled water systems that hold temperature, protect uptime, and scale with your operation. Each design is engineered around real process loads, site conditions, and production demand, ensuring stable temperatures and predictable performance once the system is live—not just on paper.
The outcome is a cooling system that integrates cleanly with existing plant, supports future expansion, and avoids the instability caused by oversizing or poor hydraulics. From standard process cooling to low-temperature glycol systems, hybrid free-cooling designs, and multi-chiller redundancy, configurations are selected to maintain continuity in critical operations.
Where continuity during installation matters, temporary capacity can be added seamlessly using industrial chiller hire, ensuring production remains protected throughout project delivery.
Innovative Designs For Long-Term Efficiency
NovaCool chilled water systems are engineered to reduce energy exposure while maintaining stable, predictable cooling performance. By integrating free cooling, low-GWP refrigerants, and correctly sized pump and pipework arrangements, systems operate efficiently without compromising control or reliability.
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The outcome is lower electrical demand, smoother operation, and reduced strain on critical components. Multi-chiller configurations and flexible plantroom layouts allow capacity to be added or upgraded over time, avoiding disruptive rework as operational needs change. Intelligent control strategies ensure cooling is delivered where and when it’s required, supporting process efficiency and extending equipment life.
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Designed by NovaCool Solutions Ltd, these systems are built not just to meet today’s demands, but to adapt to future requirements—delivering long-term stability, efficiency, and confidence in operation.
Why Choose NovaCool For Your Cooling Needs?
NovaCool Solutions Ltd delivers chilled water systems that work as intended, integrate cleanly, and perform consistently over time. An engineer-led approach ensures each system is designed around your actual process conditions reducing risk at handover and during operation.
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Every project includes site assessment, detailed system design documentation, and full commissioning, so performance is predictable from day one. Integration with existing plant is managed to protect uptime and minimise disruption, while energy-efficient strategies such as hybrid free cooling and low-GWP refrigerants are applied where they deliver genuine benefit.
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Optional monitoring and aftercare packages provide ongoing visibility and control, helping systems remain efficient as operating conditions change. The outcome is reliable cooling, controlled energy use, and long-term operational confidence—supporting productivity without compromise.
Comprehensive Support From Start To Finish
NovaCool Solutions Ltd manages chilled water projects end to end, delivering clarity, control, and accountability from initial consultation through design, installation, and commissioning. A single engineer-led point of contact keeps communication simple and decisions clear, reducing delays and avoiding handover gaps.
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Systems are fully documented for compliance, operational reference, and future modification, with provision for temporary connections to support maintenance or peak demand without disrupting production. Aftercare options, preventative maintenance, and ongoing technical support help ensure performance remains stable as operating conditions evolve.
