Difference between revisions of "How to Make Sugar from Sugar Cane"

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==Short Description==
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=Sugar Production from Sugar Cane=
 
=Sugar Production from Sugar Cane=
  
 
==The basic process==
 
==The basic process==
 
<div class="booktext">
 
  
 
Sugar cane must be crushed to extract the juice. The crushing process must break up the hard nodes of the cane and flatten the stems. The juice is collected, filtered and sometimes treated and then boiled to drive off the excess water. The dried cane residue (bagasse) is often used as fuel for this process. The remaining liquid is allowed to set into a solid mass known as jaggery, gur, chancaca or panela. (Gur is used in the rest of this document.)
 
Sugar cane must be crushed to extract the juice. The crushing process must break up the hard nodes of the cane and flatten the stems. The juice is collected, filtered and sometimes treated and then boiled to drive off the excess water. The dried cane residue (bagasse) is often used as fuel for this process. The remaining liquid is allowed to set into a solid mass known as jaggery, gur, chancaca or panela. (Gur is used in the rest of this document.)
  
</div>
 
  
 
==Yields==
 
==Yields==
 
<div class="booktext">
 
  
 
The yield of gur from sugar cane depends mostly on the quality of the cane and the efficiency of the extraction of juice. The table below gives some extreme values.
 
The yield of gur from sugar cane depends mostly on the quality of the cane and the efficiency of the extraction of juice. The table below gives some extreme values.
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{| border="1" cellpadding="5"
 
|- valign="top"
 
|- valign="top"
 +
| valign="top" |
 +
 
| valign="top" |
 
| valign="top" |
 
'''High quality cane'''
 
'''High quality cane'''
Line 57: Line 45:
 
|}
 
|}
  
</div>
+
 
  
 
High quality cane has a good juice content with high sugar levels (20%+). Poor quality cane or cane that has been harvested early may have similar juice content but the sugar levels will be reduced.
 
High quality cane has a good juice content with high sugar levels (20%+). Poor quality cane or cane that has been harvested early may have similar juice content but the sugar levels will be reduced.
Line 65: Line 53:
 
Yields are also improved by careful control of the boiling process. Boiling should be completed as rapidly as possible and the conditions kept as clean as possible.
 
Yields are also improved by careful control of the boiling process. Boiling should be completed as rapidly as possible and the conditions kept as clean as possible.
  
</div>
 
  
 
==Crushing==
 
==Crushing==
  
<div class="booktext">
 
  
 
Most artisanal sugar producers use a simple crusher consisting of three metal rollers. This is driven by either animal or diesel power. Figures 1 and 2 show both types in operation in Bangladesh. A crusher driven by a single ox can be expected to process around 50kg of cane per hour. A 5HP diesel set could increase this to around 300kg per hour. In these pictures the rollers are set vertically; many machines have horizontal rollers. Suppliers of this machinery are given at the end of this technical brief.
 
Most artisanal sugar producers use a simple crusher consisting of three metal rollers. This is driven by either animal or diesel power. Figures 1 and 2 show both types in operation in Bangladesh. A crusher driven by a single ox can be expected to process around 50kg of cane per hour. A 5HP diesel set could increase this to around 300kg per hour. In these pictures the rollers are set vertically; many machines have horizontal rollers. Suppliers of this machinery are given at the end of this technical brief.
Line 75: Line 61:
 
<center>
 
<center>
  
[[Image:p01.jpg]]<br /> Figure 1: Animal powered crusher ©Neil Cooper/Practical Action
+
[[Image:Sugar from Sugar Cane01.jpeg]]<br /> Figure 1: Animal powered crusher ©Neil Cooper/Practical Action
  
 
</center>
 
</center>
 +
  
 
Important points to remember during crushing are:<br />
 
Important points to remember during crushing are:<br />
  
<blockquote>
+
* Cane must be crushed within 24 hours of being cut. After this time the sugar begins to 'invert' into different sugars that will not set solid.
 
 
Cane must be crushed within 24 hours of being cut. After this time the sugar begins to 'invert' into different sugars that will not set solid.
 
  
Crushing efficiency is the most important factor in good sugar yields. Every possible amount of juice needs to be squeezed from the cane.
+
* Crushing efficiency is the most important factor in good sugar yields. Every possible amount of juice needs to be squeezed from the cane.
  
</blockquote></div>
 
  
 
==Juice treatment==
 
==Juice treatment==
  
<div class="booktext">
 
  
 
Juice should be filtered through a cloth before boiling in order to remove any solids such as dirt or particles of cane.
 
Juice should be filtered through a cloth before boiling in order to remove any solids such as dirt or particles of cane.
Line 99: Line 82:
 
<center>
 
<center>
  
[[Image:p02a.jpg]]<br /> Figure 2: A Diesel powered cane crusher with three vertical rollers in Bangladesh. © Neil Cooper
+
[[Image:Sugar from Sugar Cane02.jpeg]]<br /> Figure 2: A Diesel powered cane crusher with three vertical rollers in Bangladesh. © Neil Cooper
  
</center></div>
+
</center>
  
 
==Juice boiling==
 
==Juice boiling==
  
<div class="booktext">
 
  
 
This is done in large pans over open fires or simple furnaces (see figure 3). The essential requirement is for clean pans and tools. Sediment settles to the bottom of the pan during boiling and is dredged out. Scum rises to the top and is skimmed off. (Both of these wastes can be fed to cattle.) A large pan such as that pictured in figure 3 would hold about 100kg of juice reducing to around 20kg of gur. The pans are usually made from galvanised mild steel sheets.
 
This is done in large pans over open fires or simple furnaces (see figure 3). The essential requirement is for clean pans and tools. Sediment settles to the bottom of the pan during boiling and is dredged out. Scum rises to the top and is skimmed off. (Both of these wastes can be fed to cattle.) A large pan such as that pictured in figure 3 would hold about 100kg of juice reducing to around 20kg of gur. The pans are usually made from galvanised mild steel sheets.
Line 113: Line 95:
 
After removal from the heat, the pans of juice are usually stirred rapidly to incorporate air and promote an even crystallisation. The cooling juice is then poured into pots or moulds to set.
 
After removal from the heat, the pans of juice are usually stirred rapidly to incorporate air and promote an even crystallisation. The cooling juice is then poured into pots or moulds to set.
  
</div>
+
 
  
 
==Cleanliness==
 
==Cleanliness==
 
<div class="booktext">
 
  
 
Cleanliness is vital to the whole process. Once the juice has been heated, impurities will speed the 'inversion' of sugar and lead to reduced yields. All boiling pans and tools need to be thoroughly cleaned between uses.
 
Cleanliness is vital to the whole process. Once the juice has been heated, impurities will speed the 'inversion' of sugar and lead to reduced yields. All boiling pans and tools need to be thoroughly cleaned between uses.
  
 
<center>
 
<center>
 +
[[Image:Sugar from Sugar Cane03.jpeg]]
 +
<br /> Figure 3: A simple open pan used for processing the juice extracted from the sugar cane. © Neil Cooper
  
[[Image:p02b.jpg]]<br /> Figure 3: A simple open pan used for processing the juice extracted from the sugar cane. © Neil Cooper
+
</center>
 
 
</center></div>
 
  
 
==Tools==
 
==Tools==
 
<div class="booktext">
 
  
 
The tools required are very simple Filtration before boiling is done through a fine woven cloth. Scum is removed from the boiling juice by a simple perforated scoop on a long handle. Sediment is removed by scraping a stretched cloth along the bottom of the pan. Once the pan has been removed from the heat, a simple rake is used to stir the thickened juice.
 
The tools required are very simple Filtration before boiling is done through a fine woven cloth. Scum is removed from the boiling juice by a simple perforated scoop on a long handle. Sediment is removed by scraping a stretched cloth along the bottom of the pan. Once the pan has been removed from the heat, a simple rake is used to stir the thickened juice.
  
</div>
 
  
 
==Mass balance==
 
==Mass balance==
  
<div class="booktext">
+
For the technically minded, the weights of the gur, juice and cane can be related as follows:<br />
  
For the technically minded, the weights of the gur, juice and cane can be related as follows:<br />
 
  
<blockquote>
+
<sub>[[Image:img000.gif]]</sub><br />
  
<sub>[[Image:img000.gif]]</sub>
 
  
</blockquote>
+
Typical figures would be:<br />
  
<br /> Typical figures would be:<br />
 
  
<blockquote>
 
  
 
<sub>[[Image:img001.gif]]</sub>
 
<sub>[[Image:img001.gif]]</sub>
 +
<br />
  
</blockquote>
 
  
<br />''Brown Sugar'', Practical Action Technical Brief
+
*''Brown Sugar'', Practical Action Technical Brief
 +
*''Honey Processing'', Practical Action Technical Brief
 +
*''Candy Production'', ITDG Food Chain No 22
 +
*''Cane Sugar''<nowiki>: The Small-scale Processing Option, R. Kaplinsky, IT Publications, 1989</nowiki>
 +
*Sugar Cane: The Tropical Agriculturalist, R. Fauconnier, CTA/MacMillan, 1993
  
''Honey Processing'', Practical Action Technical Brief
 
  
''Candy Production'', ITDG Food Chain No 22
+
==Crushing equipment manufacturers==
  
''Cane Sugar''<nowiki>: The Small-scale Processing Option, R. Kaplinsky, IT Publications, 1989</nowiki>
+
Note: This is a selected list of suppliers and does not imply endorsement by howtopedia
  
Sugar Cane: The Tropical Agriculturalist, R. Fauconnier, CTA/MacMillan, 1993
 
  
</div>
+
'''CIMAG''' - Com E Ind de Maquinas Agricola<br />
 +
Rua St Terezinha 1381,  13970 ITAPIRA SP, Brazil<br /> • A manual mill with a throughput of around 100 litres per hour. (More suitable for juice drinks than gur production.)
  
 +
'''Penagos Hermanos & CIA Ltda'''<br /> Apartado Aereo 689,  Bucaramanga,  Colombia<br /> • A vertical roll, animal powered crusher, capacity of 4-6 tonnes of cane per day. A horizontal roll 4.5kW (6hp) crusher with a throughput of 400kg of cane per hour.<br /> • Other models up to 1.7 tonnes per hour.
  
 +
'''Tanzania Engineering and Manufacture'''<br /> Design Organisation<br /> P O Box 6111,  Arusha,  Tanzania<br /> • Electrically powered 2.2kW (3hp) crusher with a capacity of 20 litres of juice per hour.
  
==Crushing equipment manufacturers==
+
'''Dias & Dia'''s<br /> 690 Negombo Road,  Mabole,  Wattala,  Sri Lanka<br /> • 2hp and 6hp crushers with capacity up to around 400kg per hour.
  
<div class="booktext">
+
'''Agro Machinery Ltd'''<br /> PO Box 3281,  Bush Rod Island,  Monrovia,  Liberia
  
Note: This is a selective list of suppliers and does not imply endorsement by Practical Action
+
P M Madurai Mudaliar, P M and Sang<br /> Madurai Mudalliar Road,  PO Box 7156,  Bangalore, India
  
<div align="left">
+
'''Nafees Industrdfhureeruu meies'''<br /> Samundari Road, FaisalbadPakistan
 
 
{| cellpadding="5"
 
|- valign="top"
 
| valign="top" |
 
CIMAG - Com E Ind de Maquinas Agricola<br /> Rua St Terezinha 1381<br /> 13970 ITAPIRA SP<br /> Brazil<br /> • A manual mill with a throughput of around 100 litres per hour. (More suitable for juice drinks than gur production.)
 
| valign="top" |
 
Penagos Hermanos & CIA Ltda<br /> Apartado Aereo 689<br /> Bucaramanga<br /> Colombia<br /> • A vertical roll, animal powered crusher, capacity of 4-6 tonnes of cane per day. A horizontal roll 4.5kW (6hp) crusher with a throughput of 400kg of cane per hour.<br /> • Other models up to 1.7 tonnes per hour.
 
|- valign="top"
 
| valign="top" |
 
Tanzania Engineering and Manufacture<br /> Design Organisation<br /> P O Box 6111<br /> Arusha<br /> Tanzania<br /> • Electrically powered 2.2kW (3hp) crusher with a capacity of 20 litres of juice per hour.
 
| valign="top" |
 
Dias & Dias<br /> 690 Negombo Road<br /> Mabole<br /> Wattala<br /> Sri Lanka<br /> • 2hp and 6hp crushers with capacity up to around 400kg per hour.
 
|}
 
 
 
</div><div align="left">
 
 
 
{| cellpadding="5"
 
|- valign="top"
 
| valign="top" |
 
Agro Machinery Ltd<br /> PO Box 3281<br /> Bush Rod Island<br /> Monrovia<br /> Liberia
 
| valign="top" |
 
P M Madurai Mudaliar, P M<br /> and Sang<br /> Madurai Mudalliar Road<br /> PO Box 7156<br /> BangaloreIndia
 
| valign="top" |
 
Nafees Industries<br /> Samundari Road<br /> Faisalbad<br /> Pakistan
 
|}
 
 
 
</div></div>
 
  
 
=='''References and further reading'''==
 
=='''References and further reading'''==
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[[fr:Comment faire du sucre de canne]]
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[[hi:करने के लिए गन्ना से चीनी बनाने के लिए]]
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[[pt:Como fazer Açúcar da Cana-de-açúcar]]

Latest revision as of 13:28, 6 November 2012

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Sugar Production from Sugar Cane

The basic process

Sugar cane must be crushed to extract the juice. The crushing process must break up the hard nodes of the cane and flatten the stems. The juice is collected, filtered and sometimes treated and then boiled to drive off the excess water. The dried cane residue (bagasse) is often used as fuel for this process. The remaining liquid is allowed to set into a solid mass known as jaggery, gur, chancaca or panela. (Gur is used in the rest of this document.)


Yields

The yield of gur from sugar cane depends mostly on the quality of the cane and the efficiency of the extraction of juice. The table below gives some extreme values.

High quality cane

Poor quality cane

Juice per 100kg of cane

50kg

40kg

% sugar in juice

22

17

Gur per 100kg of cane

10kg

7kg


High quality cane has a good juice content with high sugar levels (20%+). Poor quality cane or cane that has been harvested early may have similar juice content but the sugar levels will be reduced.

The efficiency with which juice can be extracted from the cane is limited by the technology used. The simple three roller crushers used by most artisanal producers will never extract more than 50kg of juice from each 100kg of cane.

Yields are also improved by careful control of the boiling process. Boiling should be completed as rapidly as possible and the conditions kept as clean as possible.


Crushing

Most artisanal sugar producers use a simple crusher consisting of three metal rollers. This is driven by either animal or diesel power. Figures 1 and 2 show both types in operation in Bangladesh. A crusher driven by a single ox can be expected to process around 50kg of cane per hour. A 5HP diesel set could increase this to around 300kg per hour. In these pictures the rollers are set vertically; many machines have horizontal rollers. Suppliers of this machinery are given at the end of this technical brief.

Sugar from Sugar Cane01.jpeg
Figure 1: Animal powered crusher ©Neil Cooper/Practical Action


Important points to remember during crushing are:

  • Cane must be crushed within 24 hours of being cut. After this time the sugar begins to 'invert' into different sugars that will not set solid.
  • Crushing efficiency is the most important factor in good sugar yields. Every possible amount of juice needs to be squeezed from the cane.


Juice treatment

Juice should be filtered through a cloth before boiling in order to remove any solids such as dirt or particles of cane.

Large-scale sugar processors add lime to the juice in order to coagulate impurities which then settle out. (This is rarely done at the artisanal level.) The juice is then neutralised with sulphur dioxide. Small-scale producers add a variety of clarificants to the juice including wood ash. All of these have the effect of settling out impurities. Many producers also add 'Hydros' (sodium hydrogen sulphate) at the final stages of boiling. This releases sulphur dioxide into the juice and lightens the colour of the final product. (Note that a high sulphur content often remains in the final product.)

Sugar from Sugar Cane02.jpeg
Figure 2: A Diesel powered cane crusher with three vertical rollers in Bangladesh. © Neil Cooper

Juice boiling

This is done in large pans over open fires or simple furnaces (see figure 3). The essential requirement is for clean pans and tools. Sediment settles to the bottom of the pan during boiling and is dredged out. Scum rises to the top and is skimmed off. (Both of these wastes can be fed to cattle.) A large pan such as that pictured in figure 3 would hold about 100kg of juice reducing to around 20kg of gur. The pans are usually made from galvanised mild steel sheets.

The end point of the boiling process is judged from experience; from the sight and sound of the boiling juice. Small samples can be removed to see if they set solid when cooled. For those with access to simple sugar measuring devices, this usually corresponds to a Brix (sugar content) of 90-95%.

After removal from the heat, the pans of juice are usually stirred rapidly to incorporate air and promote an even crystallisation. The cooling juice is then poured into pots or moulds to set.


Cleanliness

Cleanliness is vital to the whole process. Once the juice has been heated, impurities will speed the 'inversion' of sugar and lead to reduced yields. All boiling pans and tools need to be thoroughly cleaned between uses.

Sugar from Sugar Cane03.jpeg
Figure 3: A simple open pan used for processing the juice extracted from the sugar cane. © Neil Cooper

Tools

The tools required are very simple Filtration before boiling is done through a fine woven cloth. Scum is removed from the boiling juice by a simple perforated scoop on a long handle. Sediment is removed by scraping a stretched cloth along the bottom of the pan. Once the pan has been removed from the heat, a simple rake is used to stir the thickened juice.


Mass balance

For the technically minded, the weights of the gur, juice and cane can be related as follows:


File:Img000.gif


Typical figures would be:


File:Img001.gif


  • Brown Sugar, Practical Action Technical Brief
  • Honey Processing, Practical Action Technical Brief
  • Candy Production, ITDG Food Chain No 22
  • Cane Sugar: The Small-scale Processing Option, R. Kaplinsky, IT Publications, 1989
  • Sugar Cane: The Tropical Agriculturalist, R. Fauconnier, CTA/MacMillan, 1993


Crushing equipment manufacturers

Note: This is a selected list of suppliers and does not imply endorsement by howtopedia


CIMAG - Com E Ind de Maquinas Agricola
Rua St Terezinha 1381, 13970 ITAPIRA SP, Brazil
• A manual mill with a throughput of around 100 litres per hour. (More suitable for juice drinks than gur production.)

Penagos Hermanos & CIA Ltda
Apartado Aereo 689, Bucaramanga, Colombia
• A vertical roll, animal powered crusher, capacity of 4-6 tonnes of cane per day. A horizontal roll 4.5kW (6hp) crusher with a throughput of 400kg of cane per hour.
• Other models up to 1.7 tonnes per hour.

Tanzania Engineering and Manufacture
Design Organisation
P O Box 6111, Arusha, Tanzania
• Electrically powered 2.2kW (3hp) crusher with a capacity of 20 litres of juice per hour.

Dias & Dias
690 Negombo Road, Mabole, Wattala, Sri Lanka
• 2hp and 6hp crushers with capacity up to around 400kg per hour.

Agro Machinery Ltd
PO Box 3281, Bush Rod Island, Monrovia, Liberia

P M Madurai Mudaliar, P M and Sang
Madurai Mudalliar Road, PO Box 7156, Bangalore, India

Nafees Industrdfhureeruu meies
Samundari Road, Faisalbad, Pakistan

References and further reading

This Howtopedia entry was derived from the Practical Action Technical Brief Sugar Production from Sugar Cane.
To look at the original document follow this link:
http://www.practicalaction.org/?id=technical_briefs_food_processing

Useful addresses

Practical Action The Schumacher Centre for Technology & Development, Bourton on Dunsmore, RUGBY, CV23 9QZ, United Kingdom.
Tel.: +44 (0) 1926 634400, Fax: +44 (0) 1926 634401 e-mail:practicalaction@practicalaction.org.uk web:www.practicalaction.org

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