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Low Drag Filter Bags for lead processing Case Study

Filtration

GORE LOW DRAG Filter Bags incorporate an entirely new class of membranes that acts as a true surface filter in fume and fine powder applications. The membrane provides excellent particulate capture efficiency, dust cake release and filtration performance. It can be operated at a lower differential pressure (dP), resulting in fan energy savings, longer bag life and improved process control.

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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.

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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.

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Case Study: Cement Producer, Mexico - GORE® LOW DRAG™ Filter Bags help achieve maximum kiln feed rate

Particle and Gas Filtration for Industrial Processes & Bag Houses

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.

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Case Study: Cement Producer, Canada - GORE® LOW DRAG Filter Bags optimize operations for greater clinker production rates and decreased energy consumption

Particle and Gas Filtration for Industrial Processes & Bag Houses

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.

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Particle and Gas Filtration for Industrial Processes & Bag Houses

Coal fired power plants in India are under regulatory pressure to reduce emissions of SO2, among other pollutants. In choosing flue gas desulfurization (FGD) solutions, plants must consider factors such as reagent cost, availability and handling, site space constraints, auxiliary power consumption, reaction byproduct disposal, fly ash preservation, and required outage time, in addition to overall cost and complexity to operate.

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GORE® LOW DRAG Filter Bags – Improving Process Efficiency in TiO2 Production

Particle and Gas Filtration for Industrial Processes & Bag Houses

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.

English (U.S.)

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Particle and Gas Filtration for Industrial Processes & Bag Houses

English (U.S.)

GORE LOW DRAG Filter Bags for Carbon Black Production

Particle and Gas Filtration for Industrial Processes & Bag Houses

GORE LOW DRAG Filters Bags offer carbon black producers the best solution for high-performance, cost-effective product collection. An innovative, proprietary ePTFE membrane, robust design and construction methods, and our expertise in application support and system optimization ensure high productivity and product quality while maintaining low cost of ownership.

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.)