Project Description

Palm Oil &Sludge Separating or Dewatering Decanter Centrifuge

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Centrifuge Application Scope

 

centrifuge for palm oil field

1) City tap water, domestic sludge dewatering;
2) Oil drilling mud dewatering;
3) Sludge Oil Recovery;
4) Refinery sludge concentrated dehydration;
5) Distiller ‘s grains dehydration;
6) Paper, printing and dyeing wastewater separation;
7) Medical sludge dewatering;
8) Soy protein dehydration;
9) Plant oil clarification and separation;
10) Cosmetic clarification and separation;
11) Bleaching powder separation.
12) Palm oil sludge Separating.

Features and Composition of Raw Palm Oil

(1) Fresh fruit bunches are sent to preliminary pressing factory within 24h after harvest (mainly to prevent the increase of FFA);
(2) Heat the fruit bunches to 150℃ and keep the temperature for 85min to sterilize the fruits and boil out the stalks;
(3) Use winder – peeling machine to separate the fruits from bunches. Bunches can be used for combustion and fruits are introduced to silo;
(4) Send the fruits into screw press for high-pressure pressing. The pressed cake containing kernel (unbroken, containing palm kernel oil) is squeeze out from the machine head, and the liquid (mainly palm oil) is discharged from the liquid outlet of the presser;
(5) The liquid is discharged from the outlet to the 100m3 tank, and be heated by water (maximum 100°C). After standing, the upper raw palm oil in the tank is directly discharged into the three-phase disc centrifuge to be separated; and the lower water containing palm oil is separated in the three-phase centrifuge (oil+water+dreg);
(6) The palm oil separated in the three-phase centrifuge is returned to the 100m3 tank for standing and extraction of raw palm oil;

Palm Oil Production Process

palm oil centrifuge process

palm oil centrifuge process

LWS Series Three-phase Centrifuge corresponding to the Palm Oil Mill Capacity

Palm oil mill capacity

Model of three-phase centrifuge

Handling capacity

Installed power

15t/h

LWS350×1435CX

5~8m3/h

22+5.5

30t/h

LWS450×1845CX

12~15m3/h

30+11

45t/h

LWS520×2150CX

18~25m3/h

45+15

60t/h

LWS580×2400CX

25~30m3/h

75+18.5

80~90t/h

LWS650×2600CX

32~35m3/h

90+22

 

Two phase centrifuge specification

Model

Dia  mm

Ratio

Speed
rpm

G force

Main Motor kW

Back Motor kW

Capacity m3/h

Weight
kg

Dimension
(L×W×H)mm

LW250×1025B

250

4.1

5000

3500

7.5~11

3~4

1~3

1150

2300×750×1100

LW350×1435B

350

4.1

4000

3136

15~22

4~5.5

3~6

2500

3400×900×1400

LW450×1845B

450

4.1

3800

3640

30~37

7.5~11

6~10

4000

4500×1000×1400

LW500×2050B

500

4.1

3500

3430

45~55

7.5~11

8~12

5000

4900×1200×1470

LW530×2173B

530

4.1

3300

3232

55~75

11~18.5

10~15

5600

5100×1250×1500

LW585×2400B

580

4.1

3000

2948

75~90

15~18.5

15~20

6500

5300×1300×1750

LW630×2583B

630

4.1

3100

3390

90~110

18.5~22

30~45

7800

5100×1550×1400

LW720×2950B

720

4.1

2200

1951

110~160

22~30

70~120

9000

6000×3250×1500

 

 Three Phase Centrifuge Specification

Model

Dia  mm

Ratio

Speed
rpm

G force

Main Motor kW

Back Motor   kW

Capacity m3/h

Weight
kg

Dimension
(L×W×H)mm

LWS250×1025CX

250

4.1

5000

3500

7.5~11

3~4

1~3

1150

2300×750×1100

LWS350×1435CX

350

4.1

4000

3136

15~22

4~5.5

3~6

2500

3400×900×1400

LWS450×1845CX

450

4.1

3800

3640

30~37

7.5~11

6~10

4000

4500×1000×1400

LWS500×2050CX

500

4.1

3500

3430

45~55

7.5~11

8~12

5000

4900×1200×1470

LWS530×2173CX

530

4.1

3300

3232

55~75

11~18.5

10~15

5600

5100×1250×1500

LWS585×2400CX

580

4.1

3000

2948

75~90

15~18.5

15~20

6500

5300×1300×1750

LWS630×2583CX

630

4.1

3000

3175

90~110

30

30~40

7800

5100×1550×1400