Revolutionizing Cooling: Galden's HT PFPE Fluids Bring Innovation to Heat Management

At the 2025 Tech Show in London, Galden, a brand of high-performance, inert fluids produced by Solvay Specialty Polymers unveiled a cutting-edge solution designed to tackle the most challenging cooling needs in today’s industries. Their new HT PFPE (Perfluoropolyether) Heat Transfer Fluids are set to transform how industries manage heat, from advanced computing systems to complex chemical processes. With their remarkable properties, these fluids are catching the attention of sectors like semiconductors, pharmaceuticals, supercomputers, and even nuclear energy.

A Smarter Way to Handle Heat

Effective cooling technology is essential for maintaining smooth operations in high-performance systems. As devices and machinery become more compact and powerful, they generate more heat, which must be carefully managed to avoid failure. Galden’s HT PFPE fluids provide a reliable, efficient solution, capable of handling the most demanding heat management tasks across a wide variety of industries.

What sets these fluids apart is their ability to stay stable even under extreme temperatures. They are designed to work across a wide range of temperatures, offering flexibility for use in everything from delicate electronics to large-scale industrial systems. With these fluids, businesses can easily ensure that their systems stay at optimal temperatures, whether cooling a supercomputer or regulating the temperature in a pharmaceutical plant.

Safe, Reliable, and Long-Lasting

A key advantage of Galden’s HT PFPE fluids is their exceptional safety. Unlike many conventional coolants that can react with metals or other materials, these fluids are chemically inert, which means they won’t cause corrosion or degrade over time. This makes them particularly useful in industries where reliability is paramount, such as in nuclear reactors or semiconductor manufacturing.

The fluids are also non-flammable, reducing the risk of fires in environments where heat is a constant concern. Their broad compatibility with various materials also helps extend the lifespan of critical components by preventing degradation, saving companies from the cost of frequent maintenance and repairs.

Versatile Solutions for Diverse Industries

While Galden’s HT PFPE fluids were initially developed for the high-tech sector, their versatility has made them a popular choice across a range of industries. From electronics and computing to pharmaceuticals and nuclear power, these fluids are proving to be indispensable for managing heat.

In the world of supercomputing, for example, these fluids help ensure that high-performance machines stay at optimal temperatures even under intense workloads. In pharmaceutical and chemical industries, they provide precise temperature control during sensitive processes. And in nuclear power, they help keep systems stable by regulating heat levels, minimizing the risk of system failure.

A Step Forward in Cooling Technology

Galden’s HT PFPE fluids represent a major leap forward in cooling technology. Thanks to their combination of safety, reliability, and performance, they’re becoming the go-to solution for industries that can’t afford to compromise on heat management. These fluids help businesses not only maintain smooth operations but also enhance safety and efficiency.

As industries continue to push the boundaries of technology, the demand for better cooling solutions will only grow. Galden’s HT PFPE fluids are perfectly positioned to meet that demand, offering a flexible and effective way to manage heat in even the most high-stakes environments.

Why It Matters

Whether it’s ensuring the safe operation of a nuclear reactor or keeping a supercomputer running at peak performance, effective heat management is critical in today’s tech-driven world. Galden’s HT PFPE fluids offer an easy but powerful solution to this challenge. By providing a safer, more reliable way to handle heat, they are helping pave the way for the next generation of high-performance systems.