982 PHYSICAL AND CHEMICAL TREATMENT OF WASTEWATERS
providing a highly clarified feed and permitting an extended
operation of carbon beds. Carbon beds were of the upflow
full-countercurrent columns and were usually operated as
packed types since the turbidity of the applied water was
always less than 0.3 JTU. The columns were also operated at
times as expanded beds by drawing 10% of the carbon.
The efficiency of carbon bed treatment depends on:- Contact time between the carbon and the
wastewater - The pH of the wastewater (below pH of 9.0,
the rate of adsorption of organics in wastewater
increases with decreasing pH) - Temperature of the wastewater
- Quality of the influent.
Carbon-Bed Design The following are the important design
parameters used in the design of activated-carbon beds:- Properties of filtering material: The two most
common sizes of granular carbon normally used
for wastewater treatment are 8 30 mesh and
12 14 mesh; 8 30 mesh carbon is preferable,
although its surface area is less, because it reduces
losses during regeneration, head loss is less, and
the operation of the filter becomes easier. Culp and
Culp (1971) have reported the desirable physical
properties for granular activated carbon for use in
wastewater treatment.- Depth of carbon bed: 3 to 10 m.
- Flow rates: 140 to 700 m^3 /min per square meter
of column cross-sectional area. For optimum per-
formance of the bed, the actual depth and rate of
flow should be determined by a dynamic pilot-
plant test in the laboratory. - Activated carbon contact time: 15 to 35 mm,
depending on the objective of treatment and the
impurities to be removed from the wastewater.
A diagram of a carbon-gas-adsorption process is presented
in Figure 3.
In the 1970s, over 30 granular activated-carbon plants
were designed in the United States for use at municipal
wastewater-treatment plants (DeJohn and Edwards, 1981).
Thirteen of the plants are classed as physical-chemical and
15 as tertiary treatment plants, and 4 use carbon to dechlori-
nate. According to the authors, there have been some prob-
lems encountered at certain physical-chemical and tertiary
treatment plants, but in their opinion, granular activated
carbon is a viable treatment alternative when applied under
proper conditions (Grieves et al., 1964).
One of the changes in conventional treatment technology is
the use of the PACT (Powdered Activated Carbon Treatment)
process using powdered carbon in the aeration tank of an
activated sludge system (Meidl, 1981). The developmentBackwash effluent
returnBackwash
effluent
sumpColumn
1Column
2Column
3Column
From storage^4
reservoir
Raw water
feed pump
Virgin
carbon
makeupSlurry
mixing
tankRegenerated
carbon
returnRegenerated
carbon
storageUtility
waterHigh-pressure
waterEductorQuench
tankSpent
carbon
tankEductorHigh-pressure
waterWet
scrubberMultiple-
hearth
regen-
eration
furnaceEductorHigh-pressure
waterUtility
waterFinal effluentEffluent
retention
sumpBack-
wash
sumpBackwash
pumpFIGURE 3 Carbon-adsorption process diagram (From Eckenfelder, 2000. Reprinted with permission from
McGraw-Hill.)C016_005_r03.indd 982 11/22/2005 11:25:19 AM