ANALYSIS OF THE DISTILLATION PROCESS AND THE DEVICES INVOLVED
Keywords:
Distillation process, distillation column, modern industries, engineers, project managers, laboratory technicians, chemists.Abstract
Distillation is a crucial process in chemical industries, used for separating components of a liquid mixture by heating and cooling to extract the desired substances from the mixture. Understanding the distillation process and the devices involved is essential to grasp how this operation is carried out effectively. To comprehend the distillation process better, it is vital to understand the functions of the devices employed and how they work. Each device involved in the distillation of both crude and refined oil plays a significant role in the success of the operation. Properly understanding and utilizing these devices lead to precise and efficient separation of substances.
References
M.S. Narziev, O.R. Abdurakhmanov, F.Y. Khabibov, Karimova, D. Sh. Investigation of flow hydrodynamic structures in the final distillation of a cotton miccella. "Problems and prospects of development of innovative cooperation in research and training." Bukhara, 2017, Pp. 52-53.
Computer – aided methods of analysis and synthesis of chemical engineering systems: textbook for undergraduates of technological specialties/ Ministry of higher and secondary special education of the Republic of Uzbekistan - T.:"Voris - nashriyot". 2012/c -160
М.С. Нарзиев, Ф.Ю. Ҳабибов, Д.С. Каримова Разработка системы управления процессом окончательной дистилляции мисцеллы хлопкового масла на основе адекватной математической модели // Международная научно-практическая конференция “Интеграция современных научных исследований в развитие общества” I- том. 28-29 декабр, 2016. Кемерово. - С.41-44.
Franklin, N.L. Forsyth, J.S., The interpretation of Minimum Reflux Conditions in Multi-Component Distillation.
Zhang Hui, Li Xingang, Gao Xin. A method for modeling a catalytic distillation process based on seepage catalytic packing internal. Chemical engineering science, 2013, P. 699-711.
Brinkmann Ulf, Janzen Anna, Kenig Eugeny Y. Hydro dynamic analogy approach for modelling reactive absorption. Chemical Engineering Journal, 2014, P. 342-353.
