Flocculants Used in Sugar Processing | Flocculant Dosing Calculation

Role of Flocculants in the Sugar Industry | Flocculant Dosing Online Calculator

Introduction of flocculants:

Flocculants are a reagent added  to a dispersion of solids in a liquid to bring together  the fine particles to from floc.

The flocculants are generally classified as natural flocculants and Synthetic flocculants.

Natural Flocculants:

They are water soluble anionic, cationic, non ionic polymers . Non ionic polymers adsorb on the suspended particles The most common natural flocculants are

• a) Starch derivatives: Mostly pregelatinized hence water soluble . They are corn or potato, starch are natural starches, anionic oxides starches or amine treated cationic starches . They used of this classes of product has decreased in water treatment but remain important in the paper industries .
• b) Polysaccharides: Usually guar ,gums & mostly used in acidic medium .
• c) Alginate: Anionic & used in potable water treatment  

Synthetic flocculants: 

Polyacrylamides: The most common polymers are those based on Polyacrylamide.  Which is a a nonionic polymer. Their effect is due to bridging between particles polymer chains.  Polymer can be given anionic character by co polymerizing acrylmide with acryl amide acid,.  Cationic polymer are prepared by co polymerizing acryl amide with a cationic monomer.  All available acryl amide based polymers have a specific amount of ionic monomer giving a certain degree of ionic characters. 

Action of flocculants:

• a) Dispersion of polymer in solution phase.
• b) Transport of polymer to solid phase.
• c) Adsorption of polymer on solid surface.
• d) Collision of particles being adsorbed polymer to permit formation.

Advantages of flocculants in clarification:

• a) The rate of settling is fast.
• b) Batter compactness  in  mud.
• c) Improved  clarity  of  juice.
• d) Reduction  in  color  formation  and  mud  volume.
• e) Due  to  thickening  of  mud  lesser  sugar  loss  in  filter  cakes.
• f) Efficiency  of  vacuum  filter  improve.
• g) Clarifier  capacity  increased  by  10-20 %.
• h) 0.3  to 0.5  rise  in  purity  achieved  from  mixed  juice  to  clear juice.
• i) Reduction  in  filter  cake  pol  by  0.3 to 0.5 units.
  

Flocculents in the sugar industry:       

a) A number of synthetic flocculating agents are used in the sugar industry clarification process. These flocculants are synthetic high molecular weight polyacrylamides which are partially hydrolyzed. Their efficiency as settling aids depends on the molecular weight which ranges between 7 to 10 million and the degree of hydrolysis.

b) These compounds serve as bridges among particles of precipitate and thus bring about formation of bigger aggregates of flocs.

c) The most common flocculants used for juice clarification as well as filter feed conditioning are hyolyzed polyacrylamide compounds, Which are anionic types. Cationic types of flocculents have much more limited use, mainly as decolorants in syrup flotation processes.

 d) They are added as 0.05 % concentrated solution in water at the rate of 1.5 to 5 ppm of juice,

e) The dosing is to be connected to the treated juice in the pipe connecting a flash tank to clarifier.

f) The trayless clarifier has reduced the time of juice retention to 45 to 60 minutes. For improving the settling rate and increasing the clarifier throughput the addition of synthetic flocculant is essential.

g) Thus the introduction of synthetic polyacrylamide as a settling aids has been a significant advance in the process of clarification.

Flocculant Properties:

Clarification in sugar process:

a) The  clarification  step  in  sugar  manufacture  is  designed  to  remove  insoluble  suspended  impurities  from  the  mixed  juice .

b) The formation of cane juice floc is based on Ca3(PO)4 and protein. Its effective density is varied by surface charge effects (Zeta potential).

c) Flocculation has been described by Crees et al. as a two-stage reaction, the first step being the scavenging of individual particles into micro-flocs, and the second being the agglomeration of these into macro-flocs that settle relatively rapidly.

d) The nature of  colloid  particles  must  be  collected  into  agglomerates. The  intended effect  of  juice  clarification  by  sedimentation  is  to  achieve  1. higher   clarity  of  juice  2. compact  volume  of  mud. 

e) The higher  clarity  of  juice  means  fewer  suspended  solids.  Flocculants  improve juice  clarity  by  decreasing  suspended   solids.  The  compactness  of  mud  can  reduce  the  retention  time  of  juice  inside  the  clarifier  thus  reducing  the  color  formation  and  also  sucrose  degradation.

Flocculant preparation and dosing:

a) The flocculant tanks in either stainless steel or suitable MS tank with epoxy paint.  This eliminates the potential contact between flocculant molecules and iron, which can quickly result in degraded flocculant.

b) The preparation tank should be located directly above the stock holding tank. The preparation tank having stirrer and a recommended speed of 10-15 rev/min. Otherwise, air sparger is one of the best options for the preparation of flocculent.

c) Always ensure that in-line valves are fully open when dropping the solution from the preparation tank to holding tank. Because molecules  will be sheared if the solution is passed through partially open valves.

d) It has two tanks that are sized to provide a 4 to 8 hours supply of 0.05% to 0.2% concentration. The flocculant demand is equivalent to 1.5 to 4 ppm of juice. The concentration and dosing ppm may vary according to the type of clarifier and dosing process. The final dosing solution concentration is to be maintained at 0.05%.

e) A minimum of four hours of preparation should be allowed before the flocculant solution is dropped to the holding tank. A mixing time of two hours should be considered the absolute minimum mixing time and should only be adopted as an emergency procedure.

f) The water supply must be of good quality with a pH greater than 8, of low hardness and be less than 50ºC. It is recommended that cooled condensate with 8 pH.

g) It is essential that all the flocculant powder is wetted before reaching the water in the mixing tank to prevent the formation of large lumps or ‘oysters’ of flocculant, which are difficult to dissolve fully and can block pipes and screens.

h) Suitable disperser units consist of a funnel hopper and a variable aperture arrangement designed to ensure wetted individual particles of flocculant powder.

i) Flocculant solution will become ineffective after 18 hours, so a fresh solution must be prepared after a long process stoppage.

j) The most suitable pump for flocculant is a progressing cavity pump operating at slow speeds with a variable frequency drive.

k) In some designers flocculant prepared by 0.2% concentration and diluted to 0.03 to 0.05% solution by an inline mixer with condensate water or clear juice while the solution passes from the flocculent pump to the flash tank.  It will help to increase the useful life of the flocculant and reduce water dilution.

Flocculant preparation and holding tank volume and dosing pump calculation.

In this, we take one example and find the above parameters.

Flocculant Dosing Online Calculator

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