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Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

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.

English (U.S.)

Data Sheet: Fiberglass Fabric High Durability Filter Bag

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

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.

English (U.S.)

Case Study Filtering Soda Ash using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

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.

English (U.S.)

Case Study Styrene Acrylinitrile Resin Rotary Dryer Filtering using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

Secondary after-filter blinding was eliminated. GORE membrane filter bags were cost justified in less than one month. Bag life was expected to approach two years. Customer quickly converted all SAN and ABS dryer systems to GORE membrane filter bags. Customer increased profits substantially in these areas.

English (U.S.)

Case Study PVC Spray Dryer Dustex Reverse Air Collector Filtering using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

Airflow increased by 10%. Production rated increased. Lower operating DP 1-2". Improved cake release eliminated product discoloration and product contamination. Bags attained 5+ years of service.

English (U.S.)

Case Study PVC - Paste Resins Conveying Line Collector using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

Lower operating DP (5"-7" DP) improved cake release, allowing increased airflow through collector. Bleed-through stopped, allowing capture of product. First set of bags lasted more than five years.

English (U.S.)

Case Study Toner Dust Jet Mill Collector Filtering using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

Results showed no visible emissions, excellent and consistent product yield, and secondary filter blinding significantly reduced. No bag failures since installation.

English (U.S.)

Case Study Carbon Black Dryer Exhaust Collector Filtering using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

Solution involved installing GORE Fabric Filter Bags. Results were sixty months of continuous, problem-free service, with excellent pressure differential.

English (U.S.)

Case Study: Filtering Grindings of Titanium Dioxide using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

Bag life is now between 9 and 18 months, as opposed to the previous 2-4 months. Energy savings due to low DP is about $2,000/year. Emissions are virtually non-detectable with 0% opacity. Improved product recovery provided over $10,000/year of additional salable products. Less downtime and improved airflow equated to a production increase of over 10%.

English (U.S.)

Case Study: Filtering Milled Calcium Carbonate Coated with Stearic Acid using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses GORE Filter Bags - By Industry

High production levels and low pressure drop. Increased mill efficiency yielded considerable energy savings by producing a set tonnage in a much shorter period. The excellent cake-release characteristics enabled the collector to be operated continuously for 12 months at a maximum pressure drop of 5" w.g. The emission problem was eliminated.

English (U.S.)