Chillers
Chillers offer solutions for cooling high-precision industrial processes, such as those in semiconductor and biomedical industries.
Taking on the Chiller Challenge to Drive Industrial Efficiency
INVENTEC provides advanced dielectric cooling fluids for chiller systems, delivering tailored solutions that ensure thermal stability, reduce energy consumption, and extend equipment lifespan in demanding industrial environments.
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Dielectric cooling fluids for chiller systems
What is the use of chillers in high precision industrial processes?
Chillers are essential in high-precision industrial processes, particularly in semiconductor manufacturing and biomedical applications. In semiconductor manufacturing, chillers are used to control the temperature of equipment and production environments, ensuring the precision needed for the creation of microchips. They prevent overheating, which could lead to defects in the delicate semiconductor processes. Dielectric cooling fluids, which are non-conductive, are often used in these chillers to absorb and dissipate heat without causing electrical short circuits, making them ideal for semiconductor manufacturing where electrical components are involved.
In biomedical applications, chillers also play an essential role in maintaining exact temperatures for sensitive equipment and processes. They are used in cryopreservation, where precise cooling is required to preserve biological samples, tissues, or cells. Chillers help ensure that medical devices operate within their optimal temperature ranges, preventing potential damage and maintaining performance in critical healthcare settings. Both in semiconductor manufacturing and biomedical applications, chillers are crucial for maintaining temperature stability, ensuring safety, and enhancing efficiency across these high-precision fields.
What are dielectric fluids?
Dielectric fluids are already around for some time in electrical engineering, serving as insulating oils in high-voltage equipment. Dielectric fluids prevent electrical discharges, enhance insulation, and dissipate heat, ensuring the reliability of power systems. Dielectric fluids also find use in cooling electronic components and industrial processes, requiring high-temperature stability. In recent years, dielectric fluids are increasingly considered for immersion cooling of servers in datacenters as an alternative to air cooling. In essence, dielectric fluids play a vital role in ensuring the efficiency and safety of diverse technologies.
Why choosing THERMASOLV™ dielectric fluids?
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Discover our dielectric cooling fluids for electronic & electric devices!
THERMASOLV IM6
- Dielectric heat transfer fluid
- Boiling point: 47°C/117°F
- Ultra-low GWP
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Industrial Cooling Solutions – Chillers – Frequently Asked Questions (FAQ)
What is a chiller in industrial applications?
A chiller is a system designed to remove heat from industrial processes or equipment by circulating a cooling fluid that absorbs and dissipates excess heat.
Why are chillers important in modern industry?
Chillers maintain stable operating temperatures, prevent overheating, and ensure optimal performance of equipment, which directly improves reliability and product quality.
What role does INVENTEC play in chiller systems?
INVENTEC provides advanced dielectric cooling fluids specifically designed for chiller systems, ensuring safe, efficient, and reliable cooling in sensitive industrial applications.
What are dielectric cooling fluids and why are they used in chillers?
Dielectric cooling fluids are non-conductive liquids that safely remove heat while protecting electronic and electrical components from short circuits or corrosion risks.
Which industries benefit the most from using chillers?
Electronics, data centers, automotive, chemical, and high-precision manufacturing industries rely heavily on chillers to manage heat loads effectively.
How do INVENTEC’s cooling fluids improve chiller performance?
INVENTEC’s dielectric fluids provide excellent thermal stability, low viscosity for better circulation, and enhanced safety for equipment directly exposed to cooling media.
Can existing chiller systems switch to dielectric cooling fluids?
Yes. With proper evaluation and adjustment, many existing systems can transition to dielectric fluids, gaining both performance and safety benefits.
What is the environmental impact of using INVENTEC cooling fluids?
INVENTEC develops dielectric cooling fluids with reduced environmental footprint, focusing on low global warming potential (GWP) and high recyclability.
Do chillers with dielectric fluids reduce maintenance costs?
Yes. By lowering equipment stress and minimizing risks of leakage-related damage, dielectric fluids help extend equipment lifespan and reduce overall maintenance costs.
Are commercial dielectric fluid-based chiller solutions available?
Yes. INVENTEC offers ready-to-use dielectric cooling fluids for chillers, supporting industries with safe, efficient, and sustainable cooling solutions.
Chillers Guide: Reliable Cooling Systems Enhanced by Dielectric Fluids
Chillers are widely used industrial systems designed to remove heat from processes, machinery, or environments by circulating a cooling fluid. They play a critical role in maintaining stable operating temperatures for electronics, medical devices, aerospace systems, and automotive testing facilities. Traditionally, chillers rely on water or glycol-based fluids, but these can be limited in performance and electrical safety when used with sensitive equipment.
To address these challenges, dielectric cooling fluids for chiller systems are increasingly adopted. These non-conductive fluids provide both thermal efficiency and electrical insulation, making them ideal for direct use with power electronics, battery packs, and medical imaging equipment. They help reduce energy consumption, extend equipment lifetime, and improve overall system reliability while ensuring safety in demanding industrial applications.
Benefits & Applications
Key BenefitsChillers provide precise temperature control for industrial processes, ensuring consistent thermal management and improved process reliability. They minimize thermal stress on sensitive equipment, reduce energy consumption, and enhance overall equipment efficiency in high-precision operations.
Technical AspectsChillers employ advanced refrigeration cycles, cooling fluids, and heat exchangers to maintain stable temperatures for critical processes. They are suitable for semiconductor manufacturing, biomedical applications, and other high-precision industrial operations requiring uniform cooling and minimal thermal fluctuation.
ApplicationsChillers are widely used in semiconductor fabrication, biomedical laboratories, laser processing equipment, and precision manufacturing. They help maintain process stability, protect sensitive instruments, and ensure consistent output quality in demanding industrial environments.
Chillers in Automotive Testing & EV Battery Cooling
In the automotive industry, chiller systems are essential for testing and validating electric vehicle (EV) batteries, motors, and inverters under different thermal conditions. By using dielectric cooling fluids, chillers can safely manage high voltages and prevent short-circuits while providing efficient heat extraction. This ensures improved battery safety, performance consistency, and reliability during fast-charging cycles and endurance testing.
Chillers for Aerospace & Defense Electronics
In aerospace and defense, chillers are applied to manage the heat generated by high-performance systems such as radar electronics, avionics, and laser systems. When paired with dielectric cooling fluids, these systems gain additional protection against electrical risks while benefiting from improved thermal stability. This ensures mission-critical reliability in environments where overheating can compromise performance and safety.
Chillers for Medical Imaging & Diagnostic Systems
In the medical industry, chillers are critical for cooling high-energy devices such as MRI scanners, CT scanners, and linear accelerators used in radiotherapy. The integration of dielectric cooling fluids provides safe and stable temperature control even in electrically sensitive environments. This enhances patient safety, ensures equipment accuracy, and reduces downtime in clinical operations.
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Technical support
Inventec has a worldwide dedicated Technical Support team to help you along the different stages of our cooperation.
Depending on your request, we provide online or onsite support
- to select the right product based on your specific needs
- to assist you in your product qualification process
- to guide you with the initial set up of you process at all your worldwide manufacturing facilities
- to provide fast response on technical issues which could occur at any time during mass production.
