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2 Old & Modern Continuous Centrifugals Operation / Evaluation
By Muhammad Mahmood (Process Manager) Shakarganj Mills Limited, Jhang 2

3 Contents An overview of Continuous Centrifugal
Different models of Continuous Centrifugal machines Selection of the type of Centrifugal machine Effect of rpm & Basket Angle Operational Parameters Worldwide manufacturers of Continuous Centrifugal Modern Continuous Centrifugal K 3300 An overview of Continuous Centrifugal K 3300 3 3

4 Contents Specifications of K 3300 Function of different angle basket
Comparison of crystal acceleration force of different basket High capacity with less power consumption of K 3300 New two stage basket of K 3300 Standard Screen arrangement of K 3300 New rubber buffer design “Turbo 3” Product distributor Feeding Device of K 3300 4 4

5 Contents Split Spray nozzle lance of K 3300 Basic Automation
Operator Panel K 3300 Comparison of technical detail of different centrifugals Technical Aspects Economic Aspects Conclusion 5 5

6 Introduction Continuous centrifugals are in great demand in the sugar industry due to their smooth running and ease of operation. Recent development work and extensive factory trails of modern continuous centrifugals have shown particular advantages in separation of the massecuite into its constituents of shipment sugar & molasses. 6

7 An Overview of Continuous Centrifugal
7

8 Different Models of Centrifugal Machines Installed in Sugar Mills
Konti -12 DC Konti-1100 FCB- 1250 SK-1250 8

9 Selection of the type of Continuous Centrifugals Machine
Basic Parameters for selection of the machine Curing Capacity Tons/hr with given condition of Massecuite type and its : i. Brix ii. Purity iii. Temperature Sugar Quality i. Purity

10 Selection of the type of Continuous Centrifugals Machine
Basket RPM Basket Diameter and Angle i. Basket diameter at top ii. Basket angle with respect to the tangential at the centre of basket

11 Effect of rpm and Basket Angle
Rpm are selected with the massecuite type, normal recommended rpm and basket angle are as follow: a / 30º at A Massecuite b / 30 º at B Massecuite c / 34 º at C Massecuite High rpm beyond the recommended limit may cause: a. Crystal damage b. Reduce capacity curing c. Decrease the V belts life d. Decrease the bearing life e- Ultimately risk operation of the Machine

12 Effect of rpm and Basket Angle
Low rpm against recommended limits may cause Low quality sugar production More molasses circulation in the system Lesser degree basket against the recommended angle may cause/require : Resistance to travel the massecuite and sugar over the basket screen. More power demand for capacity run.

13 Effect of rpm and Basket Angle
Higher degree basket beyond the recommended angle may cause: Low quality sugar production More molasses circulation in the system

14 Start up Pre-cautions Bearings are fully greased
Basket is fully tightened with housing unit. Nickel working screens are fully tightened and sides are overlapped according to the direction of rotation and screen holding clamps are tightened. No foreign material is present in the basket and massecuite distributor. Top cover is placed and no air entering point left open in the casing or top cover. Rotation of the machine with motor run. Machine is steam heated to +/- 60ºC Feeding pipe contains no cooled massecuite.

15 Start up Pre-cautions 9. Steam up the feeding pipe of pugmill at both side of the massecuite control valve to reduce the viscosity of the feeding massecuite at the start up and prevent the massecuite from entering the machine, during massecuite removing from pugmill feeding pipe , temporarily blind the feeding pipe of the machine . 10. Stop the steam heating when feeding massecuite and machine gained good operation temperature and machine came in normal operation. 11. Close the feed control valve and open the main massecuite control valve.

16 Start up Pre-cautions 12. Start the machine, after Delta run, start feeding massecuite and notice the over all behavior of the machine at operating conditions, after satisfaction, regulate the massecuite feed control valve. 13. Always use hot water of C immediate after the auger control valve along with massecuite feed to lubricate the massecuite for ease of equal distribution with in the distributor. 14.Very Important to regulate operation of the machine for good quality sugar production at designed capacity at recommended Ampere of the Machine. If there is problem with operation at full load, check and rectify it do not leave it pending for next crop or compromise at reduced capacity operation.

17 Operational Parameters
Use nozzle water spray at basket to maintain Sugar quality with following conditions: Distance not less than 50 mm Water temperature C Water pressure 2 kg/cm2 Good spray is observed with fish tail type nozzles spraying at two points at 180 degree to each other.

18 Operational Parameters
Avoid over washing the sugar crystals, better check is to maintain molasses brix, If at recommended molasses brix sugar quality is not achieved then check other parameters like: Machine rpm Number of V belts and tightening condition Massecuite quality Nickel working screen condition Internal cleaning of the machine casing & distributor

19 Operational Parameters
Check and maintain: Cleaning the machine casing at defined interval Inspection of the sugar quality Hourly record the data for; Feeding massecuite temperature Water spray temperature Running Ampere of the machine Bearing temperature Sugar and molasses quality

20 Worldwide Manufacturer of Continuous Centrifugals
BMA - Germany FCB – France Broadbent – England Silverweibull – Sweden Hein Lehman - Germany Western States – U.S.A Guangxi Su Group – China Patange- India Five Cail KCP-India 20

21 Modern Continuous Centrifugal
K 3300 Newly designed K 3300 series Continuous Centrifugal is highly sophisticated machine with modern characteristics and efficient safe operation. Reduction in installation height and small space requirement of the new design easy to install and easy to assemble. 21

22 An overview of K 3300 Continuous Centrifugal
22

23 Specifications of K 3300 Basket Diameter 1,300 mm Basket Angle
280 / 350 Screen Area 19,500 cm2 Max. gravity factor 2,906 Max. Speed 2000 rpm Capacity for A-massecuite 35 – 45 t/h Capacity for B-massecuite 22 – 35 t/h Capacity for C-massecuite 15 – 19 t/h Capacity for C-affination 22 – 30 t/h 23

24 Function of different Angle Basket
Centrifugal basket angle determines at what proportion of the centrifugal acceleration is available to move the crystals up the screens and out of the basket. 280 basket 300 basket 24

25 Comparison of Crystal acceleration force of different basket angle
Basket Speed, RPM Ratio of transport force, F 280 2000 7.3 300 1800 6.5 Steeper basket at high rpm have high crystal acceleration force as where 300 basket has less crystal acceleration force 25

26 Salient Features of New Continuous Centrifugals
K 3300 26

27 High Capacity with Less Power Consumption of K 3300
25% Less power consumption as compared to old continuous centrifugals. 15% Less wash water quantity. Better molasses brix which resulted less time on pan boiling. Efficient massecuite processing with new turbo 3 distributor. 27

28 Main elements of new design
K 3300 New two stage basket Upper diameter 1300 mm Pre - separation of syrup with high throughput Harmonized sugar layer in main separation step Basket of K 3300 28

29 Standard Screen Arrangement
K 3300 Wedge-wire screen at the pre step Better sugar quality Reduce 25% energy consumption subject to massecuite quality 29

30 New rubber Buffer design K 3300
Rubber buffers outside of heat affected zone Easy replacement of rubber buffer New Motor arrangement V-Belt tension monitoring 30

31 “Turbo 3” – Product Distributor K 3300
Process Features - Efficient heating for reduction of massecuite viscosity - Increase throughput - Higher sugar quality - Better massecuite distribution - Easy assembling & easy accessible 31

32 “Turbo 3” – Product Distributor K 3300
32

33 Feeding Device K 3300 Pneumatically operated control valve
Centering facility Compensator Sight glass (Temperature resistant plastic) Double walled feeding and heating pipe 33

34 Basic Automation K 3300 Pneumatic acting valve - for massecuite and
- mixing / melting medium Magnetic inductive flow meter - for wash water and 34

35 Local Operator Panel K 3300 Two controller for mixing or melting version Flashing light for less v-belt tension Flashing light for to high vibration Display for wash water consumption 35

36 Comparison of Technical Details Of Centrifugals
Description Konti 12-DC K-1100 K 3300 Throughput, t/h For A-mass B-mass C-mass 17 – 18 12 – 14 14 – 16 10 – 12 06 – 08 35 – 45 22 – 35 15 – 19 Basket diameter, mm 1265 1100 1300 Basket Angle 300 / 340 300 280 / 350 Maximum Speed, RPM 1800 2000 Power consumption, Kw 75 90 Maintenance / Complexity High / High Low / High Low / Low

37 Technical Aspects K 3300 37

38 Technical Aspects K 3300 Small space requirements and low installation
height allow a simple replacement of old centrifugals High processing rate and best technological results Optimum massecuite treatment prior to separation to close filling system and large Turbo3 product distributor 38

39 Technical Aspects K 3300 Excellent separation effects to quick syrup
discharge and shifting of the crystals within the basket Optimum running smoothness of the centrifugal to newly designed overall structure Fewer malfunctions to high degree of automation with automatic feed control and monitoring of important functions High operational safety 39

40 Economic Aspects K 3300 40

41 Economic Aspects K 3300 Excellent value for money
High Processing rates Improve process flow Low operating cost Long service life to use of stainless steel for parts in contact with product and syrup Minimized maintenance costs to reduction of wearing parts and improved access possibilities 41

42 Conclusion Improved and modern design of centrifugal requires less
application of water which results lower molasses purity. Enhancement in massecuite curing capacity with less power consumption. Save loss in molasses by 1 to 1.5 degrees with modernization which include: - Better design of centrifugal - Better design of centrifugal screens - Better centrifugal operation - Measuring operating parameters 42

43 Thanks 43

44 Topic is open for discussion…
44


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