Starch is the raw materials for production of crystal food glucose. With at enzyme conversion of the high purity starch, it is possible to receive glucosic syrups of a glucose equivalent (GE) 98%, where there is about 95% glucose and maltose and maltotriose – of about 5%. Starch hydrolysis is carried out with a gain of solids. Thus, 100 kg of amylum is possible to give up to 109.81 kg of glucose syrup on dry basis. Taking in account the losses at manufacture steps a yield can decrease to 105.61 kg. The purified glucose syrup is concentrated up to 73–75% of dry matters and goes to a crystallization step. Crystallization of glucose is carried out in a supersaturated solution within 56–70 hours at reduced temperature from 46–48 °C to 24–26 °C, resulting a mixture of glucose crystals and an intercrystal run-off syrup called a massecuite. The crystallization process is stopped when a 50% of crystals content in massecuite is reached. At the same time glucose yield will be 105.61/2 = 52.8%. Crystallization is carried out according to the single-stage scheme, with partial return of the end product – hydrol into the hydrolised syrup. Then the massecuite is sent to a centrifugation step for dividing glucose crystals and a run-off syrup, which is partially returned to the initial syrup to reduce in GE. The second part of the run-off syrup goes to realization. It must be kept in mind: the higher GE of the glucose syrup sent to a crystallization step, the more quantity of a hydrol is possible to be returned to hydrolysed syrup. Therefore, it is in a resulted a higher yield of glucose crystals. On the basis of the carried-out calculations the computer program was made with which it is possible to define a theoretical glucose and a hydrol yield, while changing values of a hydrolysed syrup. The higher GE values of a hydrolysed syrup are the higher yield of crystal glucose and the lower one of hydrol are. So, at 98% GE of a hydrolysed syrup it is possible to return about 64.66 kg of a hydrol to 105.61 kg of syrup the glucose yield will increase up to 85%, and at the same time a hydrol yield will be (105,61 – 85) i.e. 20.61%.

hydrolysis, glucose equivalent, supersaturation, crystallization, centrifugation, glucose, hydrol, glucose yield

1. Bemiller J.N., Whistler R.L. et al. Starch: Chemistry and Technology. London: Academ Press Elsevier, 2009. P. 238–292

2. Андреев Н.Р., Хворова Л.С. Ангидридная глюкоза: технология производства и применение // Фармация. 2012. № 3. С. 43–45.

3. Пат. RU № 2521510 Способ получения кристаллической ангидридной глюкозы / Хворова Л.С., Селезнева О.Н., Лукин Н. Д. Опубл. 27.06.2014. Бюл. № 18

4. Хворова Л.С. Научно-практические основы получения кристаллической глюкозы. М.: Россельхозакадемия, 2013. 270 с.

5. Пат RU № 2480527 Способ получения затравочной суспензии для уваривания утфеля / Славянский А. А., Семенов Е. В., Карамзин А. В., Лебедева Н. Н., Опубл. 27.04.2013, Бюл. № 12

6. WO 2006125286 Process for the production of pyrogen-free anhydrous crystalline dextrose of high purity from sucrose. Published 30.11. 2006.