Starch production
Starch production is an isolation of starch from plant sources. It takes place in starch plants. Starch industry is a part of food processing which is using starch as a starting material for production of starch derivatives, hydrolysates, dextrins.
At first, the raw material for the preparation of the starch was wheat. Currently main starch sources are:
- maize (in America) – 70%,
- potatoes (in Europe) – 12%,
- wheat - 8%,
- tapioca - 9%,
- rice, sorghum and other - 1%.
Potato starch production
The production of potato starch comprises the steps such as delivery and unloading potatoes, cleaning, rasping of tubers, potato juice separation, starch extraction, starch milk rafination, dewatering of refined starch milk and starch drying.
Delivery and unloading potatoes
Potatoes are delivered to the starch plants via road or rail transport. Unloading of potatoes could be done in two ways:
- dry - using elevators and tippers,
- wet - using strong jet of water.
Cleaning
Coarsely cleaning of potatoes takes place during the transport of potatoes to the scrubber by channel. In addition, before the scrubber, straw and stones separators are installed. The main cleaning is conducted in scrubber (different kinds of high specialized machines are used). The remaining stones, sludge and light wastes are removed at this step. Water used for washing is then purified and recycled back into the process.
Rasping of tubers
Most often the rasping of potato tubers is carried out with a rotary grater. The purpose of this stage is disruption of cell walls, which therefore release the starch. In practice, potato cells are not entirely destroyed and part of the starch remains in the mash. Potato pulp rapidly turns dark, because tyrosine presented in the potato is oxidised by polyphenol oxidase, which is located in the cellular juice. Therefore, cellular juice must be separated as soon as possible.
Potato juice separation
This allows the recovery full-value protein from juice and reduces the onerousness of water juice as a sludge.
Starch extraction
After separation of potato juice the pulp is directed to the washing starch station, to isolate the starch. Most used are stream-oriented washers. In these machines pulp diluted with water is washed with a strong stream of water to flush out the milk starch. The mash smuggling with water is a waste product – dewatered potato pulp. Starch milk is contaminated by small fiber particles (potato tissue fragments) and the remaining components of the potato juice – that’s why it is called raw starch milk.
Starch milk raffination
Raw starch milk is purified in the refining process. This involves the removal of small fibers from the starch milk and then the removal of juice water and starch milk condensation. For this purpose, the screens and hydrocyclones are commonly used. Hydrocyclones due to the low output (approximately 0.3 cubic meter per hour) are connected in parallel and works as multihydrocyclones. For the starch milk desanding bihydrocyclones are used. In order to prevent enzymatic darkening of potato juice the chemical refining of starch is carried out using sulfurous acid. Refined starch milk has a density of about 22° Be, which is about 38% of starch.
Dewatering of refined starch milk and starch drying
It is a suspension of starch in water, which needs dewatering up to 20% of moisture. This is equivalent to the moisture content of commercial starch when stored. High temperature cannot be use in this process because of the danger of starch gelatinization which destroys granular structure. It may result in significant changes of the functional starch properties. Therefore, removal of excess water from milk shall be done only under conditions that prevent the gelatinization of starch.
Dewatering of refined starch milk is carried out in two stages. In the first stage the excess water is removed by means of a rotary vacuum filter. Secondly moist starch is dried, without starch pasting. For this purpose a pneumatic dryier is used. In this device moist starch (with water content 36 – 40%) is floating in strong and hot (160 °C) air flow and then dried during 2 – 3 seconds. Then, the starch is separated from hot air in cyclones. Due to short time of high temperature drying and intensive water evaporation from the starch granules, its surface is heated only to 40 °C.
Dried starch contains about 21% of water. During the pneumatic transport starch loses additional 1% of water.
Received starch is storing separately in silos, in jute bags (100 kg) or paper bags (50 kg). There are three kinds of starch: superior extra, superior and prima. Different sorts of starch depend on degree of purity and whiteness. The differences between them are in an acidity and content of mineral substances.
Table 1. Potato starch production characteristic.
Processing | 2.000 t per 24 hours |
---|---|
Ratio of starch extraction | 87% |
Water expenditure:
- washing - technological |
6.5m3/t
2.5m3/t 4.0m3/t |
Water steam expenditure | 400 – 500 kg/t starch |
SO 2 expenditure |
0.8 kg/t potatoes |
Yield: per ton of potatoes | (16,8%) 175 kg starch |
Loss:
- potatoes losses (transport and washing) - pulp starch losses -juicy water starch losses |
about 10%
0.5% 8 – 9% 1.0% |
The water which is used in starch production (dirty water) for transportation and cleaning doesn’t have to be totally clean. That’s why clarifier usage enables application of closed cycle which noticeably reduces amount of cleaning water that is needed. On the other hand, requirements for quality of technological water are the same as for drinking water (microbiological and chemical contamination). In addition, this type of water should contain low amounts of metals such as: Ca, Mg, Fe, Mn; which has bad influence on starch properties.
Waste products
- Potato juice is a liquid waste product separated from the potatoes pulp after the rasping, using centrifuges or decanters. It contains about 5% of dry substance, including about 2% valuable protein of the potato of high nutritional value, minerals, vitamins and other. Modern starch plants separate the juice from the mash.[1]
- Potato protein can be extrated from the juice by coagulation with heat at low pH. About 600 kg of coagulated protein from each 1000 kg of potato protein can be recovered this way. The coagulated protein product contains about 80% protein (with the digestibility of about 90%), 2.5% minerals, 1.5% fat, 6% nitrogen-free substances and 10% water. Because of the full range of the exogenic amino acids the formulation is a valuable protein feed. The remaining potota Juice is used as fertilizer.
- Potato pulp is a side product of washing the starch from the mash. It contains all non-starchy substances insoluble in water (fragments of wall of cells) fibres and bounded starch which cannot be mechanically separated from the blended parties of potato. The dry substance of the pulp contains 30% of starch, which makes it a good source for animal feed. The pulp contains a lot of water, dry solids about 16%, which is inconvenient in transportation and storage. That’s why it is really often dried and dehydrated.
- Juicy water is a liquid side product obtained after refining of starch milk. It is ten times diluted potato juice. As it is a sludge and it cannot be discharged to open water. It must be treated as waste water or is used as fertilizer.[2]
Application of potato starch
The usage of raw starch is relatively small. Starch is mainly used as material both in the manufacture of food and non-food products. In food processing a lot of starch is converted to starch hydrolysates. Also it is used to receive puddings, jellies, desserts, caramel and other food products. In addition, starch is processed to modified starch in order to change material properties. The modified starches have a wide range of applications in many industries. Applications of starch in non-food sectors include: production of dextrin and adhesives, drilling fluids, biodegradable plastics, gypsum binders and many other. In addition modified starches are used as fillers, emulsion stabilizers, consistency modifiers etc. Other important fields of starch application are textiles, cosmetics, pharmaceuticals and paints.
See also
References
- ↑ Alfa Laval Starch production brochure
- ↑ International Starch Institute Aarhus Denmark Pototo starch effluents
Mieczysław Pałasiński, 2005. Technology of Carbohydrate Processing (in Polish). Polish Society of Food Technologists, Małopolska Branch, Kraków, p. 63 - 76.