is a hydrofluoroolefin (HFO) with an extremely low GWP (almost zero) [2]. This initiative directly supports global sustainability initiatives (such as the Kigali Amendment to the Montreal Protocol) aimed at phasing down high-GWP hydrofluorocarbons (HFCs).
This review analyzes the 2022 announcement regarding strategic expansion of its Forane® 1233zd production capacity, which positions the company as a key player in supplying low global warming potential (GWP) fluorochemicals [1, 2]. Executive Summary
In 2022, Arkema announced two major steps to increase the global supply of Forane® 1233zd, a specialty fluorochemical primarily used as a foam blowing agent, refrigerant, and solvent. The initiatives focused on boosting production capacity at its Calvert City (USA) plant and enhancing global logistics to meet rising demand driven by environmental regulations [1, 2]. Key Strategic Steps is a hydrofluoroolefin (HFO) with an extremely low
The investment directly responds to the increased need for alternatives to previous generation blowing agents (like HFC-245fa) in commercial refrigeration, chillers, and industrial applications [1]. Conclusion
The company upgraded its logistical infrastructure to ensure consistent, reliable, and expedited supply to customers worldwide, mitigating potential disruptions in the specialty chemicals market [2]. Strategic Significance and Impact Low GWP Solution: Forane® 1233zd Executive Summary In 2022, Arkema announced two major
Arkema expanded its production capabilities in Calvert City, Kentucky, specifically targeting the high-purity production of HFO-1233zd(E) [1]. This increase addresses the growing demand for sustainable, high-performance foam insulation materials.
Disclaimer: This review is based on publicly available information from Arkema's 2022 press releases. Forane 1233ZD and expedited supply to customers worldwide
This expansion strengthens Arkema’s leadership in the blowing agent market, particularly for high-efficiency insulation boards (polyurethane and polyisocyanurate foam) crucial for energy-efficient building construction [1].