Neenah to increase capacity of Cranemat wet laid nonwoven

February 12, 2020 - United States Of America

Neenah technical materials, a subsidiary of Neenah has announced an investment to increase production capacity for Cranemat to support continued strong growth in water filtration. The Cranemat business, based in Pittsfield, Massachusetts, was acquired by the leading company involved in filtration business, in 2014 and has steadily grown since that time.

Cranemat is the registered trademark name for Neenah’s line of polyester and polyolefin wet laid nonwoven membrane substrates, designed for the liquid filtration and membrane separation sectors.

Known for its reliability and uniformity in the membrane casting process, Cranemat contributes to enhanced membrane performance and efficiencies. From its versatile uses in flat sheet, spiral wound elements, plate and frame for MBR, and disc filtration, Cranemat comes in various grades, designed for microfiltration, ultrafiltration, nanofiltration, and reverse osmosis. These filters are used in desalination of salt, brackish and industrial process water, as well as industries such as electronics, dairy, juice, e-coat, mining, medical, and pharmaceutical, the company said in a press release.

Continuous improvements in quality and resulting increasing demand from customers have led to the need for increased capacity for Neenah’s Cranemat products. Utilising an available idled machine, with a modest capital investment the additional capacity will almost double current capacity and be available by the end of 2020.

“Factors such as rapid industrialisation and population development have led to a growing demand for clean water globally, which increases demand for effective reverse osmosis and other filtration solutions. This investment illustrates a strong commitment to our global strategic customers to support the rapid growth in this category as well as a great opportunity to expand into new areas and with new customers,” Christoph Stenzel, vice president sales and marketing global filtration said.