New branding announces its position as an official member of the OPW family
Hamilton, OH, November 18, 2024 – It’s been quite the six-decade journey for CPC-Cryolab, a Tampa, FL-based developer of critical-service components for use in industrial-gas and cryogenic applications that feature liquid hydrogen (LH2) and helium. Founded in 1961, the products of CPC-Cryolab were at the forefront of the nascent space program in the United States and also played a key role in outfitting the nation’s first commercial-sized LH2 plant, meaning that its valves, filters, hoses, piping systems and transfer connections have been to outer space and back many times.
But one of the company’s most significant journeys took place earlier this summer when its parent company, Marshall Excelsior Company, Marshall, MI, which had acquired CPC-Cryolab in 2021, was itself acquired by OPW. Today, as a fully integrated member of the OPW family and residing within the OPW Clean Energy Solutions business unit, CPC-Cryolab looks toward a future of new opportunities and continued success, while remaining committed to its legacy of delivering cutting-edge solutions to the cryogenic and industrial-gas industries.
To acknowledge this landmark occasion, CPC-Cryolab is excited to announce the unveiling of a new company logo, one that visually positions it as a full-fledged member of the OPW family. The new brand identity communicates CPC-Cryolab’s drive to reach new heights of quality and global presence while reinforcing its commitment to developing and delivering the safest, most reliable and most efficient cryogenic and industrial-gas solutions for use in these important markets.
To learn more about CPC-Cryolab and its new status as a member of OPW Clean Energy Solutions, please visit cpc-cryolab.com. You can find more information on OPW Clean Energy Solutions at opwces.com.
About CPC-Cryolab
Founded in 1961, CPC-Cryolab, Tampa, FL, has been a leader for more than six decades in the engineering, design, manufacturing and supply of vacuum-jacketed filters, valves, hoses, piping systems, manifolds and transfer connections for use in mission-critical industrial-gas and cryogenic applications that feature the handling, transfer and storage of liquid hydrogen (LH2) and helium. For more information on CPC-Cryolab and any of its products and services, please visit cpc-cryolab.com.
About OPW Clean Energy Solutions
OPW Clean Energy Solutions was formed in December 2021 when OPW acquired both ACME Cryogenics and RegO® Products. Since then, the company has continued to expand its reach as a supplier of clean-energy fluid-handling equipment and systems, most notably with the acquisitions in 2024 of Demaco, Marshall Excelsior Company (MEC) and SPS Cryogenics/Special Gas Systems (SPS-SGS). ACME is a leading provider of mission-critical cryogenics products and services that facilitate the production, storage and distribution of cryogenics liquids and gases. RegO is a leading provider of highly engineered flow-control solutions for the cryogenic and liquified-gas end markets. Demaco specializes in the development of vacuum-insulated piping solutions for the cryogenics industry. MEC and its subsidiaries CPC-Cryolab, BASE Engineering, Inc., and Xanik develop and supply mission-critical flow-control products and solutions for the LNG, LH2, helium and anhydrous ammonia (NH3) markets. SPS-SGS is a manufacturer of vacuum-insulated pipeline systems for use in the handling of a wide array of industrial gases. Together, they are taking OPW beyond conventional fueling solutions and helping define what’s next for alternative energy markets. For more information on OPW Clean Energy Solutions, please visit opwces.com.
About OPW
OPW is defining what’s next through innovations designed to enhance safety, reliability, efficiency and business performance for the clean energy, propane energy, fluid-handling and vehicle wash industries. OPW has manufacturing operations in North America, Europe, Latin America and Asia Pacific, with sales offices around the world. OPW is part of Dover Corporation.