Automotive Cooling Systems
At Andely Solutions, we provide advanced automotive cooling systems designed for efficiency, reliability, and sustainability. Our portfolio includes industrial chillers, dry coolers, and custom ventilation systems, among other technologies, helping automotive and aerospace manufacturers cut costs, extend equipment life, and save up to 90% in water and energy.
Types of Cooling Systems for Automotive Applications
As automotive production lines and aerospace facilities grow in scale and complexity, the need for intelligent, adaptable cooling technologies becomes essential. Manufacturers must align their infrastructure with modern demands for efficiency, reliability, and sustainability.
Scale Removal Solutions
Limescale buildup reduces cooling efficiency and increases energy costs. Andely’s solutions prevent and remove scale in closed circuits.
Key Benefits
- Extends lifespan of cooling systems
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Reduces maintenance frequency
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Ensures consistent heat exchange efficiency
HVAC Chillers
These systems ensure climate control and comfort in assembly plants, offices, and testing facilities.
Key Benefits
- Efficient air conditioning for large spaces
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Low energy consumption with inverter technology
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Supports a healthier, more productive work environment
Dry Coolers
Eco-friendly and water-free, dry coolers are ideal for cooling hydraulic systems, compressors, and automotive test benches.
Key Benefits
- No water consumption
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Low maintenance operation
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Reliable cost reduction over time
Adiabatic Dry Coolers
A hybrid solution that combines dry cooling with adiabatic pre-cooling, achieving up to 90% water and energy savings.
Key Benefits
- Handles peak loads efficiently
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Sustainable alternative to traditional cooling towers
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Reduces operating and maintenance costs
Ventus HVLS Fans
High-volume, low-speed fans engineered for large automotive plants and warehouses.
Key Benefits
- Up to 70% energy savings compared to traditional fans
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Improves thermal comfort and reduces HVAC loads
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Covers wide spaces with minimal energy use
Air Handling Units (UMA) and Duct Systems
For ventilation and air distribution, UMA and ducts ensure clean, consistent airflow across production floors and paint lines.
Key Benefits
- Improves air quality
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Energy-efficient ventilation
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Flexible design for industrial facilities
Scale Removal Solutions
Limescale buildup reduces cooling efficiency and increases energy costs. Andely’s solutions prevent and remove scale in closed circuits.
Key Benefits
- Extends lifespan of cooling systems
-
Reduces maintenance frequency
-
Ensures consistent heat exchange efficiency
How to Reduce Water and Energy Use in Automotive Manufacturing
Andely Solutions helps automotive and aerospace plants drastically cut water and energy consumption with next-generation HVAC-R systems. For example, adiabatic dry coolers can lower resource use by up to 90% compared to traditional cooling towers, while maintaining reliable temperature control.
Our systems also integrate sensors and smart automation that adjust cooling in real time — preventing unnecessary overcooling and ensuring optimal efficiency. This not only saves water and energy but also extends equipment life, reduces operating costs, and helps manufacturers achieve their sustainability and carbon reduction goals.
Our systems also integrate sensors and smart automation that adjust cooling in real time — preventing unnecessary overcooling and ensuring optimal efficiency. This not only saves water and energy but also extends equipment life, reduces operating costs, and helps manufacturers achieve their sustainability and carbon reduction goals.
FAQs: Automotive Cooling Systems
Find answers to common questions about Andely Group and our sustainable industrial solutions.
How do automotive cooling systems work?
They remove heat from industrial equipment, assembly lines, and testing facilities, ensuring reliable and safe operating conditions.
What type of cooling systems are used in the automotive sector?
Chillers, dry coolers, adiabatic dry coolers, ventilation systems (UMA, ducts, HVLS), and scale removal technologies.
What is the most efficient cooling method for automotive manufacturing?
It depends on the application. Hybrid systems combining chillers with dry or adiabatic coolers are often the most efficient for large plants.
Can automotive plants operate without cooling towers?
Yes. Many new-generation solutions replace cooling towers with dry or adiabatic systems, drastically reducing water use and maintenance costs.
How do cooling systems help sustainability goals?
By cutting water and energy consumption, extending equipment life, and lowering carbon emissions while ensuring production efficiency.
Not always. Many new-generation systems replace them with dry or adiabatic cooling for better efficiency.
