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Description

We are a leading manufacturer Exporter of complete sugar plant and machinery from 50 TCD to 2500 TCD and we are in this field from last twenty years. We have a very long list of satisfied costomers and they believe in us just because of our good quality and services.

Our complete range of products are- Cane carrier,Cane kicker(cutter),Cane Fibriser,Crushing mill Tandem with Gear box, Rake type or slat type inter carrier,GRPF TRPF,Bagasse elevater,Crystallizers, Centrifuges, Boiling house equipments like- Evaporating pan, Juice heater, Vacuum Pan, Juice Clarifier,Screened and Unscreened Juice pump, Air blower, Sugar curing and grading Equipments etc.

Sugar Manufacturing Process :

1. Juice extraction from cane

Juice can be removed from cane either by repeated crushing and washing (milling) or by washing alone, with a final squeezing simply to dry the spent fibre (diffusion). Better sucrose extraction can be obtained by crushing finely shredded cane rather than intact stalks and Preparation refers to that step in which cane is finely shredded before juice is extracted either by milling or diffusion. Cane is prepared by passing it through one or two sets of cane knives and then through a shredder.

2.Milling:

A basic cane mill consists of three grooved rollers. Prepared cane is squeezed between the rollers, thus forcing the juice out of the fibre.

A single milling unit would give an unacceptably low extraction. Typically, five mills are set in tandem and cane is passed in series from Mill 1 to Mill 5.

3.Purification of juice:

Juice from a milling tandem contains a large amount of cane fibre that falls out with the juice between the rollers of the mills. To remove the fibre, juice is poured over a wire-mesh screen, or cascaded over an inclined wedge-wire screen.

The juice is heated and lime is added to neutralise the natural acidity.It is then placed in a large settling tank called a clarifier.The purpose of clarification is to produce a clear juice that is light in colour and free of suspended matter. To improve the precipitate formation, flocculent is added.

4. Crystal growth: Evaporation:

Before crystal growth can take place the clear juice must be concentrated to syrup by the removal of water by evaporation. To improve the efficiency, a process known as multiple effect evaporation is used. Multiple effect evaporation is the scheme where juice is boiled in series in several vessels, with steam fed to vessel 1 only. Vapour from vessel 1 boils the juice in vessel 2, vapour from 2 boils the juice in 3, and so on until vapour from the final vessel goes to waste.

The syrup produced by the evaporators is concentrated further in specially designed vessels known as pans. As the concentration rises the dissolved sugar crystallises and the work of the pans is to grow sugar crystals (from the sucrose in syrup) in several steps to maximise the amount of sucrose recovered in raw sugar.

This is typically done in three boiling steps; each step producing, after crystal/molasses separation, A-sugar and A-molasses, B-sugar and B-molasses, and C-sugar and C-molasses or final molasses.

5. Separation of crystals from molasses:

Massecuite leaving the crystallisers has now to be separated into crystals and molasses. The more efficient this separation, the more sucrose will be recovered as sugar and the less sucrose will be lost in molasses.A centrifugal is a machine that separates crystals from molasses. Centrifugation involves spinning massecuite in a perforated basket, centrifugal force acts on the molasses, forcing it through the perforations while the sugar remains on the basket wall. Water and steam may then be sprayed onto the crystals to wash off the remaining molasses.

6.Sugar drying:

In a drier, the moisture is driven off from the surface of the liquor layer covering the crystal by passing heated air around the sugar crystals.

The product from the process described is called SUGAR.

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