Fluidized bed concentrator

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A Fluidized Bed Concentrator for VOC control at Honda Manufacturing of Alabama. Fluidized Bed Concentrator (FBC) at Honda Alabama.png
A Fluidized Bed Concentrator for VOC control at Honda Manufacturing of Alabama.

A fluidized bed concentrator (FBC) is an industrial process for the treatment of exhaust air. The system uses a bed of activated carbon beads to adsorb volatile organic compounds (VOCs) from the exhaust gas. Evolving from the previous fixed-bed and carbon rotor concentrators, the FBC system forces the VOC-laden air through several perforated steel trays, increasing the velocity of the air and allowing the sub-millimeter carbon beads to fluidize, or behave as if suspended in a liquid. This increases the surface area of the carbon-gas interaction, making it more effective at capturing VOCs.

Contents

Components

A 3-D design of the fluidized bed concentrator in Solidworks. FBC-Solidworks.png
A 3-D design of the fluidized bed concentrator in Solidworks.

The fluidized bed concentrator consists of five primary components:

How it works

A flow schematic of process gas in the Fluidized Bed Concentrator system. FBC Flow Schematic.png
A flow schematic of process gas in the Fluidized Bed Concentrator system.

Industrial Processes requiring ventilation, including paint booths, [2] printing, and chemical production, exhaust the ventilated air to the fluidized bed concentrator (FBC) at room temperature. [3] The air first passes into the Adsorption tower, where it moves through six perforated trays of clean carbon beads. The 0.7mm Bead activated carbon (BAC) fluidizes in the trays and captures the VOCs as they intermix.

The saturated carbon beads are passed from the Adsorber tower to the Desorber tower, where the beads are heated to 350 °F and the VOCs are released. Typically the Adsorber tower is many times larger than the Desorber tower, leading to an air volume reduction and an increase in VOC concentration. The ratio of Adsorber size to Desorber size is called the Concentration Ratio, and ranges from 10:1 to 100:1. [4]

The concentrated VOC gas stream is sent from the Desorb tower to a thermal oxidizer, where the organic compounds are heated to 1400 °F and oxidized, or broken down into Carbon Dioxide (CO2), Water (H20), and by-products. In some cases, small amounts of Carbon Monoxide (CO), Nitrogen Oxide (NOX), and other gases are produced.

Emissions and energy usage

Members of the Honda Alabama Environmental Air Quality team are honored for their efforts to reduce CO2 and NOx emissions. Honda Alabama Wins Air Quality Award.jpg
Members of the Honda Alabama Environmental Air Quality team are honored for their efforts to reduce CO2 and NOx emissions.

The primary advantage of the FBC over traditional rotor concentrators lies in its ability to achieve any concentration ratio up to the lower explosive limit (LEL). This allows Honda Alabama's paint shop to switch from oxidizing 100,000 CFM of VOCs in a Regenerative Thermal Oxidizer (RTO), to oxidizing only 1,500 CFM of VOCs in a small thermal oxidizer, at a much higher concentration. Reducing the volume of air to be oxidized from 100,000 CFM to 1,500 CFM (66:1 concentration ratio), allows for a much lower energy usage and consequently, fewer CO2 and NOX emissions.

"Despite an increase in Line 2 production, Honda is realizing a reduction in plant VOC emissions of nearly 60 metric tons annually as a result of the installation of the FBC system. Also, the new [FBC] system uses approximately 20% of the energy of an RTO system." - Honda Manufacturing of Alabama

Industries served

The Adsorber tower and stack of a Fluidized Bed Concentrator. Fluidized Bed Concentrator.jpg
The Adsorber tower and stack of a Fluidized Bed Concentrator.

See also

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References

  1. "Honda Manufacturing Alabama Honored As Air Conservationist of the Year" . Retrieved 7 November 2014.
  2. "Toyota named Low-Carbon Auto Manufacturing of the Year" . Retrieved 7 November 2014.
  3. "VOC Emissions from Industrial Painting Processes". Metal Finishing. Retrieved 7 November 2014.
  4. "Ford Environmental VOC Emissions". Ford. Retrieved 7 November 2014.
  5. "HMA Honored As Air Conservationist of the Year" . Retrieved 7 November 2014.