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| Price | USD1,5000-USD20,3000 |
| MOQ | 1 pc |
| Delivery Time | 30-60 days |
| Brand | Xin Shengman |
| Place of Origin | CHANGZHOU |
| Certification | ISO9001 and CE |
| Model Number | Organic Fertilizer Machine |
| Packaging Details | Plywood cases |
| Payment Terms | T/T |
| Supply Ability | 6sets/Month |
| Place of Origin | CHANGZHOU | Warranty | 1 year |
| Packaging Details | Plywood cases | After-sales Service | Engineers available to service machinery overseas |
| Material | SUS304, SUS304L, SUS316, SUS316L | Model Number | Organic Fertilizer Machine |
| Supply Ability | 6sets/Month | Certification | ISO9001 and CE |
| Name | Organic Fertilizer Machine | Brand Name | Xin Shengman |
| Payment Terms | T/T | Type | small type |
| Heating source | Steam, electricity, etc | Core Components | Bearing, Pump, Gear, Motor, Gearbox, Other, PLC, |
| Price | USD1,5000-USD20,3000 | Delivery Time | 30-60 days |
| Capacity | 10-5000 Kg/h | Minimum Order Quantity | 1 pc |
| Heating Method | hot water/steam/oil | Application | Organic Fertilizer |
| Power | customed |
Competitive Price Small Vacuum Paddle Biomass Rotary Drum Dryer Organic Fertilizer Machine
Structure introduction:
The
main
structure
is
a
W-shaped
shell
with
a
jacket,
which
is
equipped
with
a
pair
of
hollow
low-speed
rotating
hollow
shafts.
A
number
of
mixing
blades
are
welded
on
the
shaft.
The
jacket
and
the
hollow
mixing
blades
are
all
equipped
with
heat
carriers,
and
the
two
heating
surfaces
heat
the
materials
at
the
same
time.
The
heat
carrier
is
usually
fed
from
the
middle
of
the
dryer
and
discharged
from
the
other
side
through
the
surface
of
the
material
layer
in
the
agitated
state.
Wedge-shaped
hollow
blades
are
densely
arranged
on
the
hollow
shaft,
and
the
thermal
medium
flows
through
the
blades
through
the
hollow
shaft.
The
unit
effective
volume
has
a
large
heat
transfer
area.
The
temperature
of
the
thermal
medium
ranges
from
-
40
°
C
to
320
°
C,
which
can
be
water
vapor
or
liquid
type:
such
as
hot
water,
heat
transfer
oil,
etc.
Indirect
conduction
heating
does
not
carry
air
to
take
away
heat.
Heat
is
used
to
heat
materials.
The
heat
loss
is
only
the
heat
dissipation
to
the
environment
through
the
insulation
layer
of
the
reactor
body.
The
heat
transfer
surface
of
the
wedge-shaped
blade
has
the
function
of
self-cleaning.
The
relative
movement
of
the
material
particles
and
the
wedge-shaped
surface
can
wash
off
the
attached
materials
on
the
wedge-shaped
surface,
so
that
the
clean
heat
transfer
surface
is
kept
in
motion
all
the
time.
The Hollow Paddle Dryer has a metal wall which separates the process mass from the heat source (steam or hot oil). High thermal efficiency is obtained because the heat from the thermal medium goes directly into the process mass. As the material comes into contact with the heated through and agitators, the process mass is heated via conduction. With an insulated dryer, very little heat is lost. To evaporate 1kg of water only requires about 1.2kg of steam for slurry materials. Exhaust gas is minimal and at a low temperature. Therefore, the volume of non-condensable gas from the dryer, which might require treatment, is minimal.
The dryer is an indirect heat transfer device which utilizes a high degree of mechanical agitation to enhance contact with the product being dried. Evaporation rates per square foot of heat transfer surface are maximized through self-cleaning paddles and the mixing effect. Movement of the process material between the slanting surfaces of the revolving wedge-shaped paddles generates shearing forces, which clean the paddle surfaces and maximize conductivity. Counter rotating shafts move the material away from the walls, cleaning the walls by means of the tab on each paddle. This results in higher heat transfer rates than disc or single shaft designs.
The wedge-shaped paddles, and the intermeshing of the dual agitators, create a localized mixing effect around the paddle. This allows more individual particles in the bed to be exposed directly to the heat transfer surface, thereby increasing the heat transfer rate, allowing the use of smaller equipment.
Technical parameters
| Model | KJG-2.7 | KJG-24 | KJG-52 | KJG-81 | KJG-110 |
| Heat transfer area | 2.7 | 24 | 52 | 81 | 110 |
| effective volume | 0.06 | 1.53 | 3.96 | 6.43 | 9.46 |
| revolution | 15-30 | 10-20 | 10-20 | 5-15 | 5-10 |
| power | 2.2 | 11 | 30 | 55 | 95 |
| width of dryer body | 306 | 1118 | 1474 | 1828 | 2210 |
| total width | 736 | 1474 | 1854 | 2286 | 2668 |
| length of dryer body | 1956 | 3454 | 5258 | 6020 | 6122 |
| total length | 2972 | 6147 | 8306 | 9678 | 9880 |
| distance between feeding and disharging | 1752 | 3150 | 4954 | 5562 | 5664 |
| height in center | 380 | 1066 | 1220 | 1220 | |
| total height | 762 | 2032 | 2464 | 2668 | |
| steam inlet | (2) 3/4 | (2) 1 | (2) 11/2 | (2) 11/2 | (2) 2 |
| water outlet | (2) 3/4 | (2) 1 | (2) 11/2 | (2) 11/2 | (2) 2 |
Applications
Petrochemical industry: polyolefin powder, polycarbonate resin, high and low-density polyethylene, linear low-density polyethylene, polyacetal granules, nylon 6, nylon 66, nylon 12, acetate, polyphenylene sulfide, propylene base resin, polypropylene, engineering plastics, polyvinyl chloride, polyvinyl alcohol, polystyrene, polyester, polyoxymethylene, styrene-acrylonitrile copolymerization, ethylene-propylene copolymerization.
Environmental
protection
industry:
sludge,
electroplating
sewage
sludge,
boiler
soot,
sugar
factory
waste
residue,
pharmaceutical
factory
waste
residue,
MSG
factory
waste
residue,
coal
ash.
Feed
industry:
soy
sauce
residue,
bone-based
feed,
distiller's
grains,
food
scraps,
apple
pomace,
orange
peel,
soybean
meal,
chicken
bone
feed,
fish
meal,
feed
additives,
bio-sludge.
Food
industry:
starch,
cocoa
beans,
corn
kernels,
salt,
modified
starch,
medicines.
Chemical
industry:
soda
ash,
NPK
compound
fertilizer,
kaolin,
bentonite,
white
carbon
black,
carbon
black,
phosphogypsum,
calcium
sulfate,
calcium
nitrate,
magnesium
carbonate,
sodium
cyanide,
oxidized
sodium
fluoride,
aluminum
hydroxide,
barium
sulfate,
calcium
carbonate,
molecular
sieves,
dyes,
saponins.
1)
Low
energy
consumption:
As
a
result
of
indirect
heating,
no
much
air
take
away
the
heating,
the
outer
wall
has
insulation
layer,
the
heat
efficiency
can
be
up
to
90%.
For
slurry,
evaporating
1kg
of
water
just
need
1.2kg
vapor.
2)
cheap
investment:
it
has
huge
effective
heat
transfer
surface
area
per
unit,
reduce
treatment
time,
let
the
machine
size
become
small,
so
It
greatly
reduces
the
construction
area
and
building
space.
3)
wide
range
of
materials
handling:
can
use
different
types
of
media,
not
only
can
treat
heat-sensitive
materials,
but
also
handle
high-temperature
materials.
Common
medias
are:
water
vapor,
thermal
oil,
hot
water,
cooling
water
and
so
on.
4)
flexible
operation
method:
Can
be
continuous
operation
or
intermittent
operation,
can
be
applied
in
many
fields.
5)
Low
environmental
pollution:
don't
use
air
to
dry
material,
dust
material
entrainment
is
rare.
Small
solvent
evaporation,
easy
to
treat.
For
contaminated
materials
or
solvent
recovery
conditions,
closed-loop
can
be
used.
6)
Cheap
operating
costs:
Low-speed
mixing
and
reasonable
structure,
Low
wear,
low
maintenance
costs.
For
normal
operation,
just
only
1
person
/
day.
7)
Stable
operation:
Due
to
the
special
compression-expansion
stirring
of
the
wedge
blades,
the
material
particle
contact
with
the
heat
transfer
surface
enough,
it
ensure
the
processing
is
stable.
