THE USE OF SYRUP DERIVED FROM KILMINA IN THE TREATMENT OF COUGH AND THE WORKING OF THE ROOT
Keywords:
drying, licorice, microwave drying, glycyrrhizin, moisture, mold, dry matterAbstract
Licorice is described as a "miracle plant". It's not for nothing, of course. Because more than 110 types of medicines are obtained from it, and it is used in 20 areas of industry. This feature is rare in other plants. The licorice type of this plant is widespread in our republic, and it grows naturally.
Dry and dark extracts made from licorice roots are used for colds, tuberculosis and diseases of the lungs, liver, respiratory tract and cardiovascular system, normalizing the metabolism, gout, oncology, food poisoning, stomach, stomach and tumor. It is recommended for duodenal ulcers, skin burns, and other ailments.
In the food industry, licorice root is used in the preparation of calorie-free drinks, confectionery and bakery products, jam, molasses, preserves, food concentrates, chewing gum, toothpaste and others. If colored paints are obtained in light industry, they are used in the metallurgical industry in the hydrolysis of metals, in the chemical industry in the preparation of ink, and in the coloring of papers. From its waste, it is possible to produce products such as paper thermal insulation board and paper. Therefore, today this plant is in high demand in the USA, Great Britain, Holland, Japan, Germany, Hungary, China, South Korea and many other countries.
References
Utility model certificate FAP 01834 Combined microwave-convective dryer for drying licorice root. Artikov A., Masharipova Z, Rakhmatov F., Jabbarov A.
Skorbina Ye.A., Dergunova E.V., Zavalishina E.Y. Ispolzovanie extracta cornya solodki v tekhnologii hlebobulochnih izdeliy. // Pishevaya industrial. No. 4(13) – 2012.
Abramova G.A., Palagina M.V. Ural malt is used in cooking and pharmaceutical industry. // Vestnik TGEU. #1. 2005. 77-87 st.
A. Artikov, Z. A. Masharipova An Intellectual Method to Optimally Control the Process of Microwave Drying of Thermolabile Products // Chemical technology. Control and management 2020, No. 5-6 (95-96), pp. 213-221
Mamadoliev, I. I., Fayzullaev, N. I., & Khalikov, K. M. (2020). Synthesis of High Silicon of Zeolites and Their Sorption Properties. International Journal of Control and Automation, 13(2), 703-709.
Mamadoliev, I. I., Fayzullaev, N. I. (2020) Optimization of the Activation Conditions of High Silicon Zeolite International Journal of Advanced Science and Technology 29(3), 6807 – 6813.