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3 Baghouse Maintenance Mistakes That Can Cost You Money

Particle and Gas Filtration for Industrial Processes & Bag Houses

Dust on dirty tube sheets can make it difficult to isolate the source of dust leaks. Be sure to thoroughly clean tube sheets before doing black light testing.

English (U.S.)

3 Easy Ways To Find Leaking Filter Bags in a Baghouse

Particle and Gas Filtration for Industrial Processes & Bag Houses

Dust on dirty tube sheets can make it difficult to isolate the source of dust leaks. Be sure to thoroughly clean tube sheets before doing black light testing.

English (U.S.)

4 Mistakes That Produce High Pressure Drops in a Baghouse

Particle and Gas Filtration for Industrial Processes & Bag Houses

4 Mistakes That Produce High Pressure Drops in a Baghouse

English (U.S.)

surface morphology

Particle and Gas Filtration for Industrial Processes & Bag Houses

A paper originally presented at the Powder & Bulk Solids Conference on the benefits, economic impact and methods of filter media failure analysis.

English (U.S.)

membrane

Particle and Gas Filtration for Industrial Processes & Bag Houses

A seven page article first presented at the Powder & Bulk Solids Conference, Rosemont, Illinois, USA, on the design and testing of antistatic filters. 

This paper will examine the filtration and electrical properties of both conventional (non-membrane) filters and filters using expanded polytetrafluoroethylene (ePTFE) membrane as the filtration surface. 

English (U.S.)

Thumbnail image from cover of GORE Filtration Products brochure.

Particle and Gas Filtration for Industrial Processes & Bag Houses

Gore’s filtration solutions keep you running longer, more efficiently and with greater particulate capture. Our filters are constructed using advanced materials, including expanded PTFE, a highly versatile material that is chemically inert, durable and resistant to extreme temperatures. These attributes make our filters reliable in harsh conditions, over time and when interacting with harmful chemicals.

English (U.S.)

Case Study: Aluminum Oxide Catalyst Flash Dryer Filtering using GORE Filter Bags

Particle and Gas Filtration for Industrial Processes & Bag Houses

The filter bags provided over 12 months of less than 6" DP service and allowed continuous production. At the design rate of 2,080 lb/hr failure occurred because of wear at the snap band cuff due to cage movement.

English (U.S.)

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

Particle and Gas Filtration for Industrial Processes & Bag Houses

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

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

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.)