In the rapidly evolving landscape of green energy and industrial gas processing, PSB Industries has unveiled a game-changing solution that’s set to transform the industry: the Deox-H2 + TSA system. This innovative package addresses critical purification challenges across a wide range of sectors, including green energy, oil & gas, petrochemical, air separation, and transportation industries.
At the heart of this groundbreaking package lies the seamless integration of two powerful technologies: catalytic combustion for oxygen removal (Deox-H2) and Temperature Swing Adsorption (TSA) for moisture removal. This dynamic duo works in tandem to effectively remove both oxygen and moisture from hydrogen gas streams, ensuring unparalleled purity and quality. The system’s multi-layered adsorbent bed is capable of handling a wide range of inlet conditions, guaranteeing compliance with even the most stringent industry specifications.
One of the most impressive aspects of the Deox-H2 + TSA system is its versatility. It’s designed to perform under a variety of pressure and temperature conditions, making it an adaptable choice for diverse hydrogen processing facilities. The system can effectively handle inlet oxygen concentrations up to 4%, reducing oxygen levels to less than 1 ppmv, while also processing hydrogen gas with high moisture content, reducing water levels to below 1 ppmv. Operating pressures range from 100 psig to 800 psig, with temperatures from 50°F to 300°F, showcasing its remarkable adaptability.
In today’s world, environmental impact is a top concern for many industries. PSB Industries has addressed this head-on with their new package. The system boasts zero gas emissions or losses during operation, setting a new standard for environmentally friendly gas purification. These sustainability-focused elements make it a leading solution in applications where emission control and reduced environmental impact are crucial.
By combining oxygen removal and moisture purification into a single package with a common control point, PSB Industries has created a cost-effective solution that simplifies installation and reduces operational costs. This integrated design makes it an attractive option for businesses looking to optimize their processes across various project needs. The fully automatic system requires minimal operator intervention, further enhancing its efficiency and ease of use.
PSB Industries hasn’t compromised on quality or safety in the development of this package. The Deox-H2 + TSA system is manufactured in accordance with North American standards such as ASME, ANSI, NEC, and UL. It can also provide CRN registration for Canadian projects, ensuring it meets stringent industry standards for pressure vessels and safety.
Recognizing that every industrial application is unique, PSB Industries has made sure that the Deox-H2 + TSA system is fully customizable. This flexibility allows businesses to tailor the system to their specific needs, ensuring optimal performance in their particular industrial context. For applications that don’t require oxygen removal, PSB Industries offers a stand-alone Dryer package option, providing further flexibility to meet the specific needs of hydrogen producers.
As Brian Meyer, Application Sales Manager at PSB Industries, puts it, “With the Deox-H2 + TSA system, PSB Industries continues to push the boundaries of hydrogen purification technology. Our goal is to provide businesses with solutions that not only meet the strictest purity standards but also offer long-term operational savings and environmental benefits.”
PSB Industries’ Deox-H2 + TSA system represents a significant leap forward in hydrogen purification technology. By combining efficiency, versatility, environmental consciousness, and cost-effectiveness, this system is poised to become an indispensable tool for industries relying on high-purity hydrogen gas streams. As we move towards a future that demands ever-higher standards of purity and environmental responsibility, innovations like this will undoubtedly play a crucial role in shaping the landscape of gas processing technology.