Resource Library

GORE PEM M275.80 for Water Electrolysis helps to reduce the energy requirements of electrolysis stacks with its ability to operate effectively at high and low current densities and variable power levels within seconds. Additionally, thanks to our PEM’s low gas permeability and high energy efficiency, PEM electrolysers can safely produce more hydrogen gas per unit of energy input.

Biosolids Composting: The integrated approach to a comprehensive wastewater treatment solution

This infographic illustrates the difference between non-membrane and standard membrane filter bags. Learn how GORE LOW DRAG Filter Bags outperform both in terms of emission control, bag life, and energy costs.

Coal-fired power provider Eins Energie, based in Chemnitz (Germany), has been supplying around 400,000 household and commercial customers in Chemnitz and the surrounding area with electricity and district heating since 1961. This case study illustrates how Gore helped Eins Energie to reduce mercury emissions to consistently below the applicable limit of 7 μg/m³.

GORE® Cooling Filters offer the most efficient and reliable cooling technology available for outdoor electronic enclosures. Unlike closed loop systems like AC and HEX, GORE Cooling Filters enable the use of DAC by providing critical environmental protection – allowing you to take full advantage of natural thermal efficiency of air.

A 260 °C (500 °F) maximum service temperature, acid-resistant fiberglass fabric filter bag for use in reverse air style dust collectors and where durability and chemical resistance are required.

A producer of cement in Mexico was looking to consistently meet maximum kiln feed. The plant selected GORE^® LOW DRAG Filter Bags to replace its existing membrane filters. The bags’ new membrane promotes increased airflow through the baghouse with persistently low differential pressure.

Cement producers need filtration solutions that meet both their productivity goals and their bottom line. When a cement plan in Canada looked for ways to improve operations in its pulse-jet baghouse, they found a simple solution that didn’t require adding more modules to the baghouse.

Read the following case study to learn how GORE® LOW DRAG Filter Bags make the difference in the production of TiO2 by helping you to reduce the need for offline cleaning while improving your production efficiency at the same time.

Consistent 1.2" H₂O differential pressure has been maintained since installation of GORE membrane filter bags despite a 9" H₂O excursion due to pulse-system failure. There has been no noticeable dust on the clean side of the tube sheet since installation. The first set of bags lasted three years.