THE ENHANCEMENT OF THE PHYSICAL ABSORPTION OF GASES IN AQUEOUS ACTIVATED CARBON SLURRIES

JT TINGE; AAH DRINKENBURG

THE ENHANCEMENT OF THE PHYSICAL ABSORPTION OF GASES IN AQUEOUS ACTIVATED CARBON SLURRIES

JT TINGE, AAH DRINKENBURG

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Abstract

The enhancement of the gas-liquid mass transfer rates in aqueous slurries containing small activated carbon particles was studied in a semi-batchwise operated stirred cell absorber with a plane interface. The maximum observed enhancement factors for absorption of propane, ethene and hydrogen in the aqueous slurries were 3.6, 3.3 and 2.0, respectively. It was shown that for our results and those reported in the literature the maximum enhancement factor, E(max), decreases with increasing liquid side gas-liquid mass transfer coefficient, k(l). From all the experimental data the following relationship is found:

(E(max) - 1) = 0.0019 (k(l)/[m s(-1)])(-0.71)

although different types of activated carbon particles and differences in sizes were used by the various research groups. To describe these results a simple theory is presented.

Original language	English
Pages (from-to)	937-942
Number of pages	6
Journal	Chemical Engineering Science
Volume	50
Issue number	6
Publication status	Published - Mar-1995

Keywords

STIRRED CELL
INTERFACIAL-AREAS
BUBBLE COLUMN
MASS-TRANSFER
LIQUID
WATER
PARTICLES
PROPANE
CAPACITY
ETHENE

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title = "THE ENHANCEMENT OF THE PHYSICAL ABSORPTION OF GASES IN AQUEOUS ACTIVATED CARBON SLURRIES",

abstract = "The enhancement of the gas-liquid mass transfer rates in aqueous slurries containing small activated carbon particles was studied in a semi-batchwise operated stirred cell absorber with a plane interface. The maximum observed enhancement factors for absorption of propane, ethene and hydrogen in the aqueous slurries were 3.6, 3.3 and 2.0, respectively. It was shown that for our results and those reported in the literature the maximum enhancement factor, E(max), decreases with increasing liquid side gas-liquid mass transfer coefficient, k(l). From all the experimental data the following relationship is found:(E(max) - 1) = 0.0019 (k(l)/[m s(-1)])(-0.71)although different types of activated carbon particles and differences in sizes were used by the various research groups. To describe these results a simple theory is presented.",

keywords = "STIRRED CELL, INTERFACIAL-AREAS, BUBBLE COLUMN, MASS-TRANSFER, LIQUID, WATER, PARTICLES, PROPANE, CAPACITY, ETHENE",

author = "JT TINGE and AAH DRINKENBURG",

year = "1995",

month = mar,

language = "English",

volume = "50",

pages = "937--942",

journal = "Chemical Engineering Science",

issn = "0009-2509",

publisher = "PERGAMON-ELSEVIER SCIENCE LTD",

number = "6",

}

TY - JOUR

T1 - THE ENHANCEMENT OF THE PHYSICAL ABSORPTION OF GASES IN AQUEOUS ACTIVATED CARBON SLURRIES

AU - TINGE, JT

AU - DRINKENBURG, AAH

PY - 1995/3

Y1 - 1995/3

N2 - The enhancement of the gas-liquid mass transfer rates in aqueous slurries containing small activated carbon particles was studied in a semi-batchwise operated stirred cell absorber with a plane interface. The maximum observed enhancement factors for absorption of propane, ethene and hydrogen in the aqueous slurries were 3.6, 3.3 and 2.0, respectively. It was shown that for our results and those reported in the literature the maximum enhancement factor, E(max), decreases with increasing liquid side gas-liquid mass transfer coefficient, k(l). From all the experimental data the following relationship is found:(E(max) - 1) = 0.0019 (k(l)/[m s(-1)])(-0.71)although different types of activated carbon particles and differences in sizes were used by the various research groups. To describe these results a simple theory is presented.

AB - The enhancement of the gas-liquid mass transfer rates in aqueous slurries containing small activated carbon particles was studied in a semi-batchwise operated stirred cell absorber with a plane interface. The maximum observed enhancement factors for absorption of propane, ethene and hydrogen in the aqueous slurries were 3.6, 3.3 and 2.0, respectively. It was shown that for our results and those reported in the literature the maximum enhancement factor, E(max), decreases with increasing liquid side gas-liquid mass transfer coefficient, k(l). From all the experimental data the following relationship is found:(E(max) - 1) = 0.0019 (k(l)/[m s(-1)])(-0.71)although different types of activated carbon particles and differences in sizes were used by the various research groups. To describe these results a simple theory is presented.

KW - STIRRED CELL

KW - INTERFACIAL-AREAS

KW - BUBBLE COLUMN

KW - MASS-TRANSFER

KW - LIQUID

KW - WATER

KW - PARTICLES

KW - PROPANE

KW - CAPACITY

KW - ETHENE

M3 - Article

SN - 0009-2509

VL - 50

SP - 937

EP - 942

JO - Chemical Engineering Science

JF - Chemical Engineering Science

IS - 6

ER -

THE ENHANCEMENT OF THE PHYSICAL ABSORPTION OF GASES IN AQUEOUS ACTIVATED CARBON SLURRIES

Abstract

Keywords

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