Heatric, part of the Meggitt Group, is the world leader in diffusion bonded heat exchangers. Heatric compact heat exchangers are used in the most demanding duties across a range of industries including:
The Heatric Printed Circuit Heat Exchanger (PCHE) combines Heatric’s unique engineering and manufacturing expertise to deliver high integrity, inherent safety, game changing size reduction and world leading performance.
With more than 30 years of experience, and thousands of units in operation, Heatric’s global services can minimise unit downtime through preventative maintainence and servicing solutions.
Heatric’s purpose is to enable the extraordinary. The company offers world leading capabilities in thermal engineering, etching, diffusion bonding and stainless steel fabrication. Through applied innovation, Heatric is enabling customers to achieve their goals.
Heatric manufacturing – Find out more about Heatric’s manufacturing capabilities.
Quality & safety – Explore Heatric’s quality and safety processes.
Timeline – Learn about Heatric’s past, along with some key points from the company’s history.
Virtual tour – An interactive tour of key areas from Heatric’s manufacturing facilities.
Working for Heatric – Information on Heatric’s current vacancies and how to apply.
Worldwide locations – An interactive map of Heatric’s global offices.
Language summaries – An overview of Heatric as a company available in 14 languages.
Headquartered in the United Kingdom, Heatric, a division of Meggitt (UK) Limited, design and manufacture bespoke heat transfer solutions for selected energy markets. A world leader in heat exchanger technology, Heatric have produced over 2500 PCHEs for operation in extreme environments across the globe, for both existing and emerging energy markets.
As bespoke manufactured products with fully integrated features, the inner workings of a Heatric PCHE are something that engineers rarely get an opportunity to see. This interactive 3D model allows the user to disassemble a Heatric PCHE to improve their understanding of the inner workings and components that make-up this robust, high-integrity technology.