Pressure drop is the resistance to air flow across the baghouse.

A common application is the dirty side of a baghouse or precipitator.

The installation of each baghouse required a construction plan that had to be reviewed by agency engineers.

A baghouse removes particulates from the plant's air emissions.

Continuously cleaned baghouse compartments are always online for automatic filtering.

This type of baghouse cleaning (also known as pressure-jet cleaning) is the most common.

Stationary units - An example of a stationary collector is a baghouse.

Fine particles can be efficiently removed from the flue gases with baghouse filters.

Dirty gas enters from the bottom of the baghouse and flows from outside to inside the bags.

Dust-laden gases enter the baghouse and pass through fabric bags that act as filters.

Cyclones are used to capture large particulates and reduce the particulate load to the baghouse.

This includes electric arc furnace dust and baghouse dusts.

The afterburner is located upstream of the baghouse ensuring that fine particles are decontaminated.

There the pollutants of the flue gas are extracted by different additives, which separated at the baghouse filters.

Cleaning a mechanical-shaker baghouse is accomplished by shaking the top horizontal bar from which the bags are suspended.

Pressure drop, filter drag, air-to-cloth ratio, and collection efficiency are essential factors in the design of a baghouse.

Cleaning can take place while the baghouse is online (filtering) or is offline (in isolation).

When dry, they may yield large amounts of particulates that may require recycling after being intercepted in the baghouse.

The compressed air is accelerated by a venturi nozzle mounted at the reverse-jet baghouse top of the bag.

This technology is often combined with the baghouse or SCR system at the tail end of an incineration plant.

A baghouse is an air pollution abatement device used to trap particulate by filtering gas streams through large fabric bags.

Pneumatic conveying systems often employ filtration to stop or slow the flow of material that is transported, through the use of a baghouse.

The unloading terminal for rail cars and its conveyors are enclosed and equipped with baghouse filters.

Dirty gas enters the bottom of the baghouse and passes through the filter, and the dust collects on the inside surface of the bags.

An understanding of the term air-to-cloth ratio is vital to understand the mechanics of any baghouse system regardless of the exact type used.