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Effect of Preloading on the Scale‐up of GAC Microcolumns

Speth, Thomas F. / Miltner, Richard J.

A previously presented microcolumn scale‐up procedure is evaluated. Scale‐up assumptions that involve equal capacities in microcolumns and field columns are studied in an effort to determine whether preloading activated carbon with a natural water significantly reduces the carbon's capacity for a target compound. The capacities observed in the column studies are compared with isotherms for distilled–deionized water, groundwater, and groundwater with preloaded carbon. Total organic carbon breakthrough in the field column is presented to explain capacity reductions. A simplified version of a mass transfer model and a more complex model are used to predict the pilot‐column results.

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Effect of Preloading on the Scale‐up of GAC Microcolumns

Speth, Thomas F. / Miltner, Richard J.

A previously presented microcolumn scale‐up procedure is evaluated. Scale‐up assumptions that involve equal capacities in microcolumns and field columns are studied in an effort to determine whether preloading activated carbon with a natural water significantly reduces the carbon's capacity for a target compound. The capacities observed in the column studies are compared with isotherms for distilled–deionized water, groundwater, and groundwater with preloaded carbon. Total organic carbon breakthrough in the field column is presented to explain capacity reductions. A simplified version of a mass transfer model and a more complex model are used to predict the pilot‐column results.

Effect of Preloading on the Scale‐up of GAC Microcolumns

Speth, Thomas F. / Miltner, Richard J.

A previously presented microcolumn scale‐up procedure is evaluated. Scale‐up assumptions that involve equal capacities in microcolumns and field columns are studied in an effort to determine whether preloading activated carbon with a natural water significantly reduces the carbon's capacity for a target compound. The capacities observed in the column studies are compared with isotherms for distilled–deionized water, groundwater, and groundwater with preloaded carbon. Total organic carbon breakthrough in the field column is presented to explain capacity reductions. A simplified version of a mass transfer model and a more complex model are used to predict the pilot‐column results.

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Title:

Effect of Preloading on the Scale‐up of GAC Microcolumns

Contributors:

Speth, Thomas F. (author) / Miltner, Richard J. (author)

Published in:

Journal ‐ American Water Works Association ; 81 ; 141-148

Publication date:

1989-04-01

Size:

8 pages

ISSN:

1551-8833 , 0003-150X

DOI:

https://doi.org/10.1002/j.1551-8833.1989.tb03192.x

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Granular Activated Carbon , Organics , Testing , Adsorption

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