Proton OnSite designs and manufactures proton exchange membrane (PEM) electrochemical systems to make hydrogen from water producing safe, pure, reliable onsite hydrogen to meet global hydrogen requirements ranging from grid-level support for energy storage to turbine generator cooling in power plants.
Whether you're annealing, sintering, brazing, carburizing, vacuum-treating, thermal spraying, or welding metal parts, Air Products offers high-purity gases, gas handling equipment and technology; international supply capability and - most importantly - unmatched industry experience and technical... Read More
Wellman Furnaces, Inc. brings innovation together with the ability to engineer, design and build the answer to your heat processing problem. We offer our customers years of experience in the custom engineering of fuel fired and electrically heated furnaces and heat processing systems. Also, we... Read More
Thermo Transfer Inc. is a manufacturer of heat processing equipment with the capability of providing complete design, manufacturing and installation of new equipment. We also provide repairs and modifications to your existing heat processing equipment. Thermo Transfer Inc. also offers a...
HOGEN® S Series hydrogen generation systems produce up to 1.05 Nm3/hr (40 scf/hr) of ultra-high purity hydrogen gas for applications such as materials processing, power plant generator cooling and electronics applications. A single HOGEN® 40 hydrogen generator will furnish the cooling hydrogen... Read More
The HOGEN® H Series hydrogen generation system is a fully integrated, packaged electrolysis system that produces medium pressure high purity hydrogen from water and electricity. The system includes up to three electrolyzer cell stacks, as well as the support and safety systems necessary for... Read More
On-site hydrogen generator in two integrated, automated, site-ready enclosures. Load Following operation automatically adjusts output to match demand. Automated tank topping operating with power-conservation mode during standby. Read More