2. WHAT IS SLUDGE FROM
WATER TREATMENT
Generally, it contains bio solids removed from liquid sewage.
Sludge thickening is important because it is the process used in
wastewater treatment centres to increase the solids concentration
and decrease the free water. This step minimizes the load on the
downstream processes, and digestion.
3. WHY IS SLUDGE THICKENING
IMPORTANT?
Sludge thickening is an important process in treating solid waste.
It minimizes the water waste, enabling the re-treatment of bio
solids so that they can safely circulate back to waterways. It is use
for the correct product and solution, so having an expert on hand
will give your company the safeguards of dealing with the process
in a safe manner.
4.
HOW SLUDGE THICKENING WORKS
There are various processes used in sludge
thickening. Each depends on the downstream
process, the size of the wastewater plant, and the
physical limitations associated with it
5. METHOD’S OF SLUDGE
THICKENING
Gravity thickening,
Centrifugal thickening,
Floatation thickening,
Belt-type thickening,
dissolved air flotation, and
rotary drum thickening.
6. Gravity thickening
Gravity thickening involves using specially designed circular
tanks that concentrate thin sludge’s to a more-dense sludge
product. The limitation of this form of is that it works mostly for
the excess watery sludge derived from an activated-sludge process.
Thickening tanks have slow-moving vertical paddles.
Sludge flows into the thickening tank, and eventually, it removes
excess water from the solids collecting at the bottom. A gravity
thickener has a similar process to the tanks, but it has a sloped
design so that solids collect at the base.
7.
8. Centrifugal thickening
Centrifugal thickening increases the sludge concentration (i.e.
thickens the sludge) by encouraging the particles to migrate to the
walls of a rapidly rotating cylindrical vessel under the influence of
a centrifugal force.
There are a number of configurations of centrifuge used for
reducing the water content of sludge. They can be used for both
thickening and dewatering.
9.
10. Centrifuges are available in a number
of configurations, including:
solid bowl
basket, and
disc-nozzle.
11. Solid bowl centrifuge
Centrifuges based on the solid bowl configuration are the most
widely applied to sludge processing and are most often referred to
as decanting centrifuges. They consist of a horizontal
cylindrical−conical bowl, rotating at 1000−3500 RPM, with
an Archimedean screw conveyor within the bowl which rotates
independently of the bowl and at a slightly lower speed.
12.
13. basket centrifuge
A basket centrifuge is based on an upright rotating vessel (or
basket) which can be either perforated or solid, with the solid
basket type being the most widely used of the two in sludge
thickening. The feed is continuously introduced into the centrifuge
while the liquid (centrate) is removed via an overflow weir.
14.
15. Disk-nozzle centrifuge
The disk-nozzle centrifuge consists of a stack of 50−150 inverted
cones separated by ~ 2 mm. In this configuration, the solids pass
down the channels formed between the adjacent cones under the
action of centrifugal force, while the water passes to the centre.
This configuration is rarely used for sludge processing since the 2
mm channels are subject to clogging by larger sludge particles.
16.
17. flotation thickening
Dissolved air flotation (DAF) provides thickening of sludge's
by encouraging the solids to float to the surface, rather than
allowing them to sink to the tank base as with gravity thickening,
where they can be removed by a skimmer. DAF is applied when
the sludge solids are neutrally buoyant (i.e. neither sink nor float)
and so cannot be readily removed by conventional settling.
18.
19. Belt-type thickening
Equipped with a running filter cloth and plow, the
belt-type thickening machine realizes consistent
performance when it comes to the concentration of
gravity. A high level of performance in terms of
thickening for all types of sludge generated from
water treatment means that it helps improve sludge
treatment systems.
20.
21. dissolved air flotation
DAF is applied to increase the sludge solids concentration when
these solids are neutrally buoyant (i.e. neither sink nor float) and so
cannot be readily removed by settling. This is usually the case for
waste activated sludge (WAS) which demands a relatively
low solids loading rate (SLR) of 20−30 kg dry solids per m2 tank
area per day (kgDS/(m2d)) if treated by gravity thickening,
compared to almost five times this rate for DAF.
22.
23. Rotary drum thickening
Rotary drum thickening increases the sludge solids concentration
(i.e. thickens the sludge) by agitating the solids in a slowly-
rotating vessel with porous walls though which the water
(or filtrate) drains.
A rotary drum thickener (RDT) is based on the same principle as
a gravity belt thickener (GBT), in that water drains from the
sludge through a retaining porous medium. For an RDT the
porous medium is the cylindrical wall of a 0.5−1.5 m diameter
drum which rotates at speeds between 5 and 20 RPM while the
sludge continually passes through it.