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Filter bags in a baghouse

Particle and Gas Filtration for Industrial Processes & Bag Houses

Combining cutting-edge technology with a wealth of expertise, Gore’s high-performance filter bags enable manufacturing processes to capture emissions and reduce their environmental impact. 

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Pulse-jet and reverse air GORE LOW DRAG Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses

A cost-effective and reliable choice for dust & particulate matter collection

Whether you are using pulse-jet baghouse technology or reverse air filter bags, you need to be confident that your process meets the regulations around particulate matter compliance testing. GORE® LOW DRAG Filter Bags are available for both pulse-jet and reverse air baghouse systems, bringing the benefits of improved filtration efficiency, low energy use, and long bag life to your industrial process.

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4 Mistakes That Produce High Pressure Drops in a Baghouse

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

When baghouse differential pressure falls, you lose efficiency. Baghouse pressure drop effectively means that less air is pushed through your filters, reducing your baghouse capacity and restricting your productivity potential.

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GORE® LOW DRAG FILTER BAGS thumbnail

Particle and Gas Filtration for Industrial Processes & Bag Houses

A 260 °C (500 °F ) maximum service temperature, polytetrafluoroethylene fabric for use in pulse jet, reverse air, and shaker style dust collectors with chemically aggressive operating conditions.

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GORE® LOW DRAG FILTER BAG Polytetrafluoroethylene Felt 830 g/m² (24.5 oz/yd²)

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

A 260 °C (500 °F) maximum service temperature, expanded polytetrafluoroethylene felt filter bag for use in pulse jet style dust collectors with chemically aggressive operating conditions.

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Image of case study GORE® LOW DRAG Filter Bags — Low Emissions, Lower Pressure Drop, Longer Bag Life and Stable Operation in TiO₂ Production

A multi-national TiO₂ producer had installed a set of standard Aramid bags. Shortly after their installation, the baghouse experienced an ongoing steady increase in pressure drop (dP).

As a result, the service life of these bags was short: just one year. These bags also suffered from problematic intermittent emissions. Learn how Gore helped solve the issues.

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Case study front page: GORE® LOW DRAG Filter Bags – Longer Bag Life and More Stable Operation in Refining Catalyst Production

Particle and Gas Filtration for Industrial Processes & Bag Houses

A multinational producer of alumina catalyst desired longer pulse jet filter bag life and steadier operation in their dryer bag house. For this trial, they installed GORE LOW DRAG Filter Bags on an identical backer.

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Partial image of data sheet page

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

A 135 °C (275 °F) continuous service temperature filter bag, with ePTFE membrane on polyester felt backer for use in pulse jet style dust collectors.

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Partial image of data sheet page

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

A 260 °C (500 °F) continuous operating temperature filter bag, with ePTFE membrane on PTFE coated fiberglass woven backer for use in pulse jet style dust collectors.

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laminated info

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

A 190°C (375°F) maximum service temperature, polyphenylenesulfide felt filter bag for use in pulse jet style dust collectors subject to chemical attack.

English (U.S.)