Product news and events
On this page you can read about some of the newest releases from Alfa Laval’s brazed heat exchanger portfolio and find upcoming events and exhibitions.
Alfa Laval’s range of brazed plate heat exchangers are ideal for a wide range of heating and cooling applications. They offer efficient heat transfer under extreme temperatures and pressures within a smaller footprint than comparable options on the market. And all of that is on top of a long lifecycle with low service needs.
At Alfa Laval, we are committed to constantly improving the performance and capabilities of our heat exchanger technology. We have an extensive research and development organization, with leading industry experts whose knowledge is continuously reinvested into new innovations.
Latest product newsPogledaj više
Below you find a list of selected events and exhibitions where Alfa Laval will participate during 2019. If you want to book a meeting with Alfa Laval or any of our partners, please send an e-mail.
Brzi vodič za izbor
Vodič za Alfa Laval proizvode je jednostavan alat za upotrebu koji vam pomaže da odaberete najbolje rešenje za svoje potrebe. Takođe, u njemu se navode lokalni Alfa Laval partneri preko kojih možete zatražiti ponudu za svoj izabrani proizvod.
Your hub for the latest in heating and cooling
With expertise from decades of experience in heat exchange, Alfa Laval offers knowledgeable resources for today’s heating and cooling challenges. Discover answers to complex questions on everything from energy efficiency to natural refrigerants, along with helpful tools that make it simpler to find the right technology for your application.
Minimum risk. Maximum thermal performance.
Introducing our new generation of double-wall brazed heat exchangers. Built with our three-barrier technique, the new Alfa Laval double-wall brazed plate heat exchangers give you the greatest protection against media mixing. Unlike traditional double-wall designs, there is limited loss to efficiency, ensuring your system achieves the highest possible thermal performance.