Rema Tip Top ' ' '

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Rema Tip Top ' ' '

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All this material will transition over some sort of sizing device. ... This only shortens the life of the crushers manganese walls. ... – PowerPoint PPT presentation

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Title: Rema Tip Top ' ' '

1
Rema Tip Top . . .
The aggregates market represents an extremely
large opportunity for Rema Tip Top products.
This presentation will focus primarily on wear
protection applications in this large market
segment. Rema Tip Top rubber products extend the
service life of steel, in most cases a minimum of
3 to 1. They also help reduce/eliminate noise,
material caking and corrosion. Ultimately this
provides for

increased productivity
reduced maintenance/operational costs
? PROFITABILITY

2
Rema Tip Top . . .
Primary Crusher/Feeder Area
The primary crusher area is where material from
the deposit/pit is hauled and introduced into the
system. This crusher is usually strategically
located near the deposit since it is costly to
have to truck it very far. Here large slabby rock
that also contains smaller rock and sand is
dumped into a feeder. All this material will
transition over some sort of sizing device. It is
here that the smaller material and fines are
separated from the larger rock. The smaller
material will fall through the sizing unit
avoiding unnecessary crushing. The larger rock
will go through a primary crusher which typically
will crush down to something in the 6-8 size.
After this stage all material is moved by
conveyor to the next process.
3
Rema Tip Top . . .
Primary Crusher/Feeder Area

Applications
VFG - Vibrating Grizzly Feeder
Under Crusher Conveyor
Overland Conveyor

Looking down into Jaw Crusher
4
Rema Tip Top . . .
Primary Crusher/Feeder AreaVFG Vibrating
Grizzly Feeder

Feeder Pan - aggregate load is dumped into a
hopper by a front end loader and lands on the
vibratory feeder pan, which feeds the grizzly
bars. Typically would see 2 6 thick rubber.

Feeder Pan
Recommendation Rema Line 70 minimum 2 thick
5
Rema Tip Top . . .
Primary Crusher/Feeder AreaVFG Vibrating
Grizzly Feeder

Grizzly Bars - these bars serve to size the
material with the smaller material falling
through prior to the crusher. The idea is not to
crush materials that you dont need to. This only
shortens the life of the crushers manganese
walls. Rubber has to be shaped to create a
tapered profile.

Grizzly bars
Recommendation Rema Line 60 or 70 3 5 thick
6
Rema Tip Top . . .
Primary Crusher/Feeder AreaUnder Crusher
Conveyor

Applications
Pulleys
Skirting
Slider Bed Bars

7
Rema Tip Top . . .
Primary Crusher/Feeder AreaUnder Crusher
Conveyor
Pulleys lagging applications would typically
limited to drive and possibly a snub pulley.
Conditions can be sloppy and muddy making ceramic
lagging a possibility to reduce slippage. Tail
pulley is usually a winged pulley.
Recommendation Drive - Rema Grip 70 or CK-X
Ceramic Snubber/Bend - Rema Line 40 Gravity
Take-up - Rema Line 40
8
Rema Tip Top . . .
Primary Crusher/Feeder AreaUnder Crusher
Conveyor
Slider Bed Bars - heavy impact and spillage in
the loading region are improved with the use of
impact beds. Impact beds utilize a series of
slider bed bars to help absorb the impact from
the material. They also eliminate belt sag
optimizing the sealing with the skirting.
Recommendation Slider Bed Bars - ½ or 1 thick
red UHMW surface on rubber
Slider Bed Bars
9
Rema Tip Top . . .
Primary Crusher/Feeder AreaUnder Crusher
Conveyor
Skirting - large volumes of material feeding into
the loading region of a conveyor can create
spillage problems if not properly contained. The
skirting needs to create a good seal to the belt
surface and provide long wear life. In some
applications highly turbulent conditions here
can create cutting and gouging problems requiring
a higher performance skirting rubber.
Rema Skirt 50
Recommendation Combi Skirt - various sizes Rema
Skirt 50 - various sizes
Combi Skirt
10
Rema Tip Top . . .
Primary Crusher/Feeder Area Primary/Overland
Conveyor

Applications
Receiving Hoppers
Pulleys
Slider Bed Bars
Skirting
Idler Sleeves

11
Rema Tip Top . . .
Primary Crusher/Feeder Area Primary/Overland
Conveyor
Receiving Hoppers - this transition point is
normally built with steel to form a hopper or
chute of some sort. The load hits the hopper
walls and drops. This is a high wear point
because all of the plants annual tonnage passes
through this point.
Receiving Hopper
Recommendation Rema Line 70 ZP Bars
Rema-Lox Conditional on rock size and impact angle
12
Rema Tip Top . . .
Primary Crusher/Feeder Area Primary/Overland
Conveyor
Pulleys lagging applications would typically
limited to drive and possibly a snub pulley.
Conditions can be sloppy and muddy making ceramic
lagging a possibility to reduce slippage. Tail
pulley is usually a winged pulley.
Recommendation Drive - Rema Grip 70 or CK-X
Ceramic Snubber/Bend - Rema Line 40 Gravity
Take-up - Rema Line 40
13
Rema Tip Top . . .
Primary Crusher/Feeder Area Primary/Overland
Conveyor
Slider Bed Bars - heavy impact and spillage in
the loading region are improved with the use of
impact beds. Impact beds utilize a series of
slider bed bars to help absorb the impact from
the material. They also eliminate belt sag
optimizing the sealing with the skirting.
Recommendation Slider Bed Bars - ½ or 1 thick
red UHMW surface on rubber
Slider Bed Bars
14
Rema Tip Top . . .
Primary Crusher/Feeder Area Primary/Overland
Conveyor
Skirting - large volumes of material feeding into
the loading region of a conveyor can create
spillage problems if not properly contained. The
skirting needs to create a good seal to the belt
surface and provide long wear life. In some
applications highly turbulent conditions here
can create cutting and gouging problems requiring
a higher performance skirting rubber.
Rema Skirt 50
Recommendation Combi Skirt - various sizes Rema
Skirt 50 - various sizes
Combi Skirt
15
Rema Tip Top . . .
Primary Crusher/Feeder Area Primary/Overland
Conveyor
Idler Sleeves - material build-up on return
idlers creates a housekeeping problem as well as
premature wear of idlers and ultimately the
conveyor belt. The installation of an idler
sleeve helps to shed the build-up. When
strategically located the deposit areas can be
limited making clean-up much faster.
Recommendation Rema Sleeve E40 - ¼ thick
16
Rema Tip Top . . .
Primary Screening
This primary screening process removes oversized
materials, (Further down the line, in the process
flow, there will be more screening/sizing of
materials.) Primary screening separates the
larger 6-8 rock from the smaller rock and sand
gravel. This larger rock will go through a
secondary crushing unit.
17
Rema Tip Top . . .
Primary Screening

Applications
Screen Intake/Head Box
Screen Intake Pan
Side Tension Rails
Eccentric Tube and Cross Members
Discharge Lip
Screen Discharge Chute
Screen Under Pan

18
Rema Tip Top . . .
Primary Screening
Screen Intake/Head Box - this transition point is
normally built with steel to form a hopper or
chute. The load hits the hopper walls and drops.
This is a high wear point.
Screen Head Box
Recommendation Rema Line 70 ZP bars Thickness
conditional on rock size and impact angle
19
Rema Tip Top . . .
Primary Screening

Screen Intake Pan - this is the surface area
where material entering
the screen initially hits. It has a high rate of
material flow over it. It is an extremely
high wear area and should have some wear
protection. Wear protection also greatly
reduces the noise. The wear protection
recommendation will be conditional on the
rock size and drop distance.

Material Flow
Screen Intake Pan
Recommendation Rema Line 60 or 70 - ½ - 2
Rema Lox - Conditional on rock size
20
Rema Tip Top . . .
Primary Screening
Side Tension Rails - these rails help to
eliminate material build-up in the corners of the
deck. They are vulnerable to wear due to the
material that contacts them.
Rubber Lined Side Tension Rails
Side Tension Rails
Recommendation Rema Line 40 - ½ - 1 Wet Rema
Line 60 - ½ - 1 Dry
21
Rema Tip Top . . .
Primary Screening
Eccentric Tube Cross Members - these parts make
up the main structure of the screen deck. While
they are not in the main flow of the material
they are still subject to wear as material can
find its way to them.
Rubber Lining on top half of eccentric tube and
cross members
Recommendation Eccentric Tube Rema Line 40 (if
wet) - ½ Rema Line 60 (if dry) - ½ Cross
Members Rema Line 40 (if wet) - ¼ Rema Line 60
(if dry) - ¼
Eccentric Tube
Screen Deck
Cross Members
22
Rema Tip Top . . .
Primary Screening
Discharge Lip - all material exits the screen
over the discharge lip. This area is prone to
high wear and lining will more than double the
life of steel. Rubber lining should not exceed 1
thick or it will create an area for build-up to
occur.
Screen Discharge Lip
Recommendation Rema Line 60 or 70 - ½ - 1
Dry Rema Line 40 - ½ 1 Wet
23
Rema Tip Top . . .
Primary Screening
Screen Discharge Chute - after exiting the screen
deck over the discharge lip material typically
would fall onto the screen discharge chute. This
chute helps contain and direct the material
toward the next stage. Due to the high amount of
material flow over this area it is susceptible to
wear.
Material Flow
Rema Lox
Recommendation Rema Line 60 or 70 - ½ -
1 Rema-Lox
24
Rema Tip Top . . .
Primary Screening
Screen Under Pan - material that goes through the
screen decks eventually falls onto the under pan.
Due to the high amount of material flow over this
area it is susceptible to abrasion wear.
Recommendation Rema Line 60 or 70 - ½ - 1
Screen Under Pan
25
Rema Tip Top . . .
Secondary Crushing
The secondary crushers are usually a cone or
impactor type device. They take the larger 6-8
material, separated at the primary screen, and
crush it down to smaller size. This newly crushed
material then is conveyed to wash down and more
screening areas.
Looking down into Cone Crusher
26
Rema Tip Top . . .
Secondary Crushing

Applications
Over Crusher Conveyor Head Box
Crusher Feed Cone
Crusher Main Frame Liners
Pulleys
Slider Bed Bars
Skirting
Idler Sleeves

27
Rema Tip Top . . .
Secondary Crushing
Crusher Feed Cone - secondary crushing is usually
done by a cone crusher. The feed cone serves as
the intake area to the secondary crusher. All
material that goes through the secondary crusher
goes through the feed cone.
Recommendation Rema Line 60 or 70 - 1½ - 2
Rubber Lining
28
Rema Tip Top . . .
Secondary Crushing
Crusher Main Frame Liners - these sectional
liners make up the frame or skeleton of the
crusher. Material impingement here creates severe
wear problems against steel. Rubber lining this
area extends the life immensely.
Recommendation Rema Line 70 - 1
Rubber Lining
29
Rema Tip Top . . .
Secondary Crusher Under Crusher Conveyor
Over Crusher Conveyor Head Box - material that
has gone through the primary screening area and
still needs to be crushed to a smaller will go
into the secondary crusher. The head box here is
a steel structure that serve to contain the load
and direct material down into the secondary
crusher.
Feed Conveyor Head Box
ZP Bars
Recommendation Rema Line 60 or 70, ZP
Bars Conditional on rock size and impact angle
Belt Travel
30
Rema Tip Top . . .
Secondary Crusher Under Crusher Conveyor
Pulleys lagging applications would typically
limited to drive and possibly a snub pulley.
Conditions can be sloppy and muddy making ceramic
lagging a possibility to reduce slippage. Tail
pulley is usually a winged pulley.
Recommendation Drive - Rema Grip 70 or CK-X
Ceramic Snubber/Bend - Rema Line 40 Gravity
Take-up - Rema Line 40
31
Rema Tip Top . . .
Secondary Crusher Under Crusher Conveyor
Slider Bed Bars - heavy impact and spillage in
the loading region are improved with the use of
impact beds. Impact beds utilize a series of
slider bed bars to help absorb the impact from
the material. They also eliminate belt sag
optimizing the sealing with the skirting.
Recommendation Slider Bed Bars - ½ or 1 thick
red UHMW surface on rubber
Slider Bed Bars
32
Rema Tip Top . . .
Secondary Crusher Under Crusher Conveyor
Skirting - large volumes of material feeding into
the loading region of a conveyor can create
spillage problems if not properly contained. The
skirting needs to create a good seal to the belt
surface and provide long wear life. In some
applications highly turbulent conditions here
can create cutting and gouging problems requiring
a higher performance skirting rubber.
Rema Skirt 50
Recommendation Combi Skirt - various sizes Rema
Skirt 50 - various sizes
Combi Skirt
33
Rema Tip Top . . .
Secondary Crusher Under Crusher Conveyor
Idler Sleeves - material build-up on return
idlers creates a housekeeping problem as well as
premature wear of idlers and ultimately the
conveyor belt. The installation of an idler
sleeve helps to shed the build-up. When
strategically located the deposit areas can be
limited making clean-up much faster.
Recommendation Rema Sleeve E40 - ¼ thick
34
Rema Tip Top . . .
Secondary Screening
35
Rema Tip Top . . .
Secondary Screening

Applications
Screen Intake/Head Box
Screen Intake Pan
Side Tension Rails
Eccentric Tube and Cross Members
Discharge Lip
Screen Discharge Chute
Screen Under Pan

36
Rema Tip Top . . .
Secondary Screening
Screen Intake/Head Box - this transition point is
normally built with steel to form a hopper or
chute. The load hits the hopper walls and drops.
This is a high wear point.
Screen Head Box
Recommendation Rema Line 70 ZP bars Thickness
conditional on rock size and impact angle
37
Rema Tip Top . . .
Secondary Screening

Screen Intake Pan - this is the surface area
where material entering
the screen initially hits. It has a high rate of
material flow over it. It is an extremely
high wear area and should have some wear
protection. Wear protection also greatly
reduces the noise. The wear protection
recommendation will be conditional on the
rock size and drop distance.

Material Flow
Screen Intake Pan
Recommendation Rema Line 60 or 70 - ½ - 2
Rema Lox - Conditional on rock size
38
Rema Tip Top . . .
Secondary Screening
Side Tension Rails - these rails help to
eliminate material build-up in the corners of the
deck. They are vulnerable to wear due to the
material that contacts them.
Rubber Lined Side Tension Rails
Side Tension Rails
Recommendation Rema Line 40 - ½ - 1 Wet Rema
Line 60 - ½ - 1 Dry
39
Rema Tip Top . . .
Secondary Screening
Eccentric Tube Cross Members - these parts make
up the main structure of the screen deck. While
they are not in the main flow of the material
they are still subject to wear as material can
find its way to them.
Rubber Lining on top half of eccentric tube and
cross members
Recommendation Eccentric Tube Rema Line 40 (if
wet) - ½ Rema Line 60 (if dry) - ½ Cross
Members Rema Line 40 (if wet) - ¼ Rema Line 60
(if dry) - ¼
Eccentric Tube
Screen Deck
Cross Members
40
Rema Tip Top . . .
Secondary Screening
Discharge Lip - all material exits the screen
over the discharge lip. This area is prone to
high wear and lining will more than double the
life of steel. Rubber lining should not exceed 1
thick or it will create an area for build-up to
occur.
Screen Discharge Lip
Recommendation Rema Line 60 or 70 - ½ - 1
Dry Rema Line 40 - ½ 1 Wet
41
Rema Tip Top . . .
Secondary Screening
Screen Discharge Chute - after exiting the screen
deck over the discharge lip material typically
would fall onto the screen discharge chute. This
chute helps contain and direct the material
toward the next stage. Due to the high amount of
material flow over this area it is susceptible to
wear.
Material Flow
Rema Lox
Recommendation Rema Line 60 or 70 - ½ -
1 Rema-Lox
42
Rema Tip Top . . .
Secondary Screening
Screen Under Pan - material that goes through the
screen decks eventually falls onto the under pan.
Due to the high amount of material flow over this
area it is susceptible to abrasion wear.
Recommendation Rema Line 60 or 70 - ½ - 1
Screen Under Pan
43
Rema Tip Top . . .
Final Crushing
44
Rema Tip Top . . .
Final Crushing

Applications
Over Crusher Conveyor Head Box
Crusher Main Frame
Main Frame Liners
Pulleys
Slider Bed Bars
Skirting
Idler Sleeves

45
Rema Tip Top . . .
Final Crushing Under Crusher Conveyor
Over Crusher Conveyor Head Box - material that
has gone through the primary screening area and
still needs to be crushed to a smaller will go
into the secondary crusher. The head box here is
a steel structure that serve to contain the load
and direct material down into the secondary
crusher.
Feed Conveyor Head Box
ZP Bars
Recommendation Rema Line 60 or 70, ZP
Bars Conditional on rock size and impact angle
Belt Travel
46
Rema Tip Top . . .
Final Crushing
Crusher Feed Cone - secondary crushing is usually
done by a cone crusher. The feed cone serves as
the intake area to the secondary crusher. All
material that goes through the secondary crusher
goes through the feed cone.
Feed Bowl
Rubber Lining
Recommendation Rema Line 60 or 70 - 1 - 1 ½
47
Rema Tip Top . . .
Final Crushing
Crusher Main Frame Liners - these sectional
liners make up the frame or skeleton of the
crusher. Material impingement here creates severe
wear problems against steel. Rubber lining this
area extends the life immensely.
Rubber Lining
Recommendation Rema Line 60 or 70 - 1
48
Rema Tip Top . . .
Final Crushing Under Crusher Conveyor
Pulleys lagging applications would typically
limited to drive and possibly a snub pulley.
Conditions can be sloppy and muddy making ceramic
lagging a possibility to reduce slippage. Tail
pulley is usually a winged pulley.
Recommendation Drive - Rema Grip 70 or CK-X
Ceramic Snubber/Bend - Rema Line 40 Gravity
Take-up - Rema Line 40
49
Rema Tip Top . . .
Final Crushing Under Crusher Conveyor
Slider Bed Bars - heavy impact and spillage in
the loading region are improved with the use of
impact beds. Impact beds utilize a series of
slider bed bars to help absorb the impact from
the material. They also eliminate belt sag
optimizing the sealing with the skirting.
Recommendation Slider Bed Bars - ½ or 1 thick
red UHMW surface on rubber
Slider Bed Bars
50
Rema Tip Top . . .
Final Crushing Under Crusher Conveyor
Skirting - large volumes of material feeding into
the loading region of a conveyor can create
spillage problems if not properly contained. The
skirting needs to create a good seal to the belt
surface and provide long wear life. In some
applications highly turbulent conditions here
can create cutting and gouging problems requiring
a higher performance skirting rubber.
Rema Skirt 50
Recommendation Combi Skirt - various sizes Rema
Skirt 50 - various sizes
Combi Skirt
51
Rema Tip Top . . .
Final Crushing Under Crusher Conveyor
Idler Sleeves - material build-up on return
idlers creates a housekeeping problem as well as
premature wear of idlers and ultimately the
conveyor belt. The installation of an idler
sleeve helps to shed the build-up. When
strategically located the deposit areas can be
limited making clean-up much faster.
Recommendation Rema Sleeve E40 - ¼ thick
52
Rema Tip Top . . .
Final Screening
53
Rema Tip Top . . .
Final Screening

Applications
Screen Intake/Head Box
Screen Intake Pan
Side Tension Rails
Eccentric Tube and Cross Members
Discharge Lip
Screen Discharge Chute
Screen Under Pan

54
Rema Tip Top . . .
Final Screening
Screen Intake/Head Box - this transition point is
normally built with steel to form a hopper or
chute. The load hits the hopper walls and drops.
This is a high wear point.
Screen Head Box
Recommendation Rema Line 70 ZP bars Thickness
conditional on rock size and impact angle
55
Rema Tip Top . . .
Final Screening

Screen Intake Pan - this is the surface area
where material entering
the screen initially hits. It has a high rate of
material flow over it. It is an extremely
high wear area and should have some wear
protection. Wear protection also greatly
reduces the noise. The wear protection
recommendation will be conditional on the
rock size and drop distance.

Material Flow
Screen Intake Pan
Recommendation Rema Line 60 or 70 - ½ - 2
Rema Lox - Conditional on rock size
56
Rema Tip Top . . .
Final Screening
Side Tension Rails - these rails help to
eliminate material build-up in the corners of the
deck. They are vulnerable to wear due to the
material that contacts them.
Rubber Lined Side Tension Rails
Side Tension Rails
Recommendation Rema Line 40 - ½ - 1 Wet Rema
Line 60 - ½ - 1 Dry
57
Rema Tip Top . . .
Final Screening
Eccentric Tube Cross Members - these parts make
up the main structure of the screen deck. While
they are not in the main flow of the material
they are still subject to wear as material can
find its way to them.
Rubber Lining on top half of eccentric tube and
cross members
Recommendation Eccentric Tube Rema Line 40 (if
wet) - ½ Rema Line 60 (if dry) - ½ Cross
Members Rema Line 40 (if wet) - ¼ Rema Line 60
(if dry) - ¼
Eccentric Tube
Screen Deck
Cross Members
58
Rema Tip Top . . .
Final Screening
Discharge Lip - all material exits the screen
over the discharge lip. This area is prone to
high wear and lining will more than double the
life of steel. Rubber lining should not exceed 1
thick or it will create an area for build-up to
occur.
Screen Discharge Lip
Recommendation Rema Line 60 or 70 - ½ - 1
Dry Rema Line 40 - ½ 1 Wet
59
Rema Tip Top . . .
Final Screening
Screen Under Pan - material that goes through the
screen decks eventually falls onto the under pan.
Due to the high amount of material flow over this
area it is susceptible to abrasion wear.
Recommendation Rema Line 60 or 70 - ½ - 1
Screen Under Pan
60
Rema Tip Top . . .
Classifying, Washing and Dewatering
61
Rema Tip Top . . .
Classifying, Washing and Dewatering

Applications
Classifying Tank Discharge Chute
Sand Screw Intake Chute
Sand Screw Discharge Chute
Dewatering Cyclones
Dewatering Equipment

62
Rema Tip Top . . .
Classifying, Washing and Dewatering
Classifier Discharge Chute/Flume - slurry
containing sand flows into the classifying tank
at the feed end and the solids settle to the
bottom. Heavier materials fall first and they get
progressively lighter the further they move into
the tank. At the bottom are discharge chutes for
each of the material sizes. Underneath the
classifier is the discharge flume. In both areas
the steel is susceptible to premature wear
because of this high flow rate of sand and water.
Discharge Flume
Sand Classifier
Recommendation Rema Line 35 or 40 - ¼ - ½
Discharge areas under classifier
63
Rema Tip Top . . .
Classifying, Washing and Dewatering
Dewatering Screw Intake Chute - the classifier
delivers the material to a sand screw to be
de-watered. The sand screw removes the water from
the sand, usually a high wet abrasion
application. All the material that goes through
this screws enters by the intake chute.
Dewatering Screw
Intake Chute
Recommendation Rema Line 35 or 40 - ¼ - ½
64
Rema Tip Top . . .
Classifying, Washing and Dewatering
Dewatering Screw Discharge Chute - this chute
delivers the de-watered sand to the stacking
conveyor. All dewatered sand discharges through
this point. This is typically a high abrasion
area.
Discharge Chute
Dewatering Screw
Recommendation Rema Line 35 or 40 - ¼ - ½
65
Rema Tip Top . . .
Classifying, Washing and Dewatering
Dewatering Cyclones - centrifugal force causes
larger heavier particles to be thrown against the
cyclone wall where they eventually drop to the
bottom to be discharged. The water is forced to
the discharge outlet. This cyclonic action
creates high abrasion wear against the cyclone
wall.
Rema Line 40 inside cyclone walls
Recommendation Rema Line 35 or 40 - 3/8 - 1/2
66
Rema Tip Top . . .
Classifying, Washing and Dewatering
Dewatering Equipment - devices like an Ortner use
principles similar to cyclones and create
centrifugal force to separate water from sand.
Wear occurs on the walls and bottom surfaces.
Once again rubber will extend the life of the
steel in this environment.
Ortner Rotation
Recommendation Rema Line 35 or 40 - 1
67
Rema Tip Top . . .
Fines Recovery

Applications
Fines Recovery Cyclones
Belt Filter Press Rolls

68
Rema Tip Top . . .
Fines Recovery
Fines Recovery Cyclones - centrifugal force
causes larger heavier particles to be thrown
against the cyclone wall where they eventually
drop to the bottom to be discharged. The water is
forced to the discharge outlet. This cyclonic
action creates high abrasion wear against the
cyclone wall.
Rema Line 40 inside cyclone walls
Recommendation Rema Line 35 or 40 - 3/8 - 1/2
69
Rema Tip Top . . .
Fines Recovery
Fines Recovery Cyclones - fines recovery cyclones
remove most of the fine sand from the plant waste
water prior to going into the settling ponds.
Cyclones
Recommendation Rema Line 35 or 40 - 3/8 - 1
70
Rema Tip Top . . .
Fines Recovery
Belt Filter Press
71
Rema Tip Top . . .
Fines Recovery
Belt Filter Press - water is separated from the
material by pressure applied to a open weave belt
against rollers. The water moves through the belt
and is recycled while the recovery material is
conveyed to a storage area. The material can be
abrasive to the steel rollers. Rubber lining is
applied to prolong the service life.
Open Weave Belt
Recommendation Rema Line 60 - 3/8 - 1
Rubber lined rollers
72
Rema Tip Top . . .

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