In the primary processing of cotton raw materials, the means of storing cotton,
transporting it from the gins to the departments, and transferring the product between departments are
pneumatic conveying devices. Separators are devices for separating cotton from the air and cotton
mixture in such pneumatic conveying devices. Separators are used in two types of conditions, namely,
in a mobile or stationary state. The device for separating cotton from air consists of three main working
parts: they are the parts for feeding cotton into the working chamber, separating it from the air flow,
and removing cotton and air. These parts, in turn, are divided into structural elements. These elements
lead to a blockage of the air flow and damage to the cotton fiber and seed. Therefore, in order to prevent
this, an improved intensive separator design was developed, and experiments were conducted to
determine the parameters of this separator to determine the air velocity in its inlet and outlet zones. The
results of the experiments are presented in this article.
In the primary processing of cotton raw materials, the means of storing cotton,
transporting it from the gins to the departments, and transferring the product between departments are
pneumatic conveying devices. Separators are devices for separating cotton from the air and cotton
mixture in such pneumatic conveying devices. Separators are used in two types of conditions, namely,
in a mobile or stationary state. The device for separating cotton from air consists of three main working
parts: they are the parts for feeding cotton into the working chamber, separating it from the air flow,
and removing cotton and air. These parts, in turn, are divided into structural elements. These elements
lead to a blockage of the air flow and damage to the cotton fiber and seed. Therefore, in order to prevent
this, an improved intensive separator design was developed, and experiments were conducted to
determine the parameters of this separator to determine the air velocity in its inlet and outlet zones. The
results of the experiments are presented in this article.
| № | Author name | position | Name of organisation |
|---|---|---|---|
| 1 | Abbazov I.. | DSc, Docent, | Jizzakh Polytechnic Institute, Jizzakh city, Republic of Uzbekistan |
| 2 | Khodjayev K.S. | Indipendent researcher | Jizzakh Polytechnic Institute, Jizzakh city, Republic of Uzbekistan |
| 3 | Sharopov B. . | Assistant | Jizzakh Polytechnic Institute, Jizzakh city, Republic of Uzbekistan |
| 4 | Kaldybaev R. . | PhD, Docent, | Republic of Uzbekistan; 2 – 2South Kazakhstan University M.Auezeva, Republic of Kazakhstan |
| № | Name of reference |
|---|---|
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| 4 | 10. Abbazov I., Khodjiev M., Salimov A., Egamberdiev F. Investigation of air velocity in expanding and contracting pipes for the transport of fibrous materials. IOP Conference Series: Earth and Environmental Science, 1142(1), 012101, 2023 11. Usmankulov A., Salomov A., Abbazov I., Egamberdiev F. Creation of improved UXK equipment for cleaning cotton from large impurities. IOP Conference Series: Earth and Environmental Science, 1142(1), 012080, 2023 12. Kattakhodzhaev R.M. Study of the effect of increased saw diameters on the main indicators of the ginning process. // Dis. ... cand. tech. Sciences. - Tashkent: TITLP, 1969. -135 p. [In Russ |
| 5 | 13. Ilkhom, A., Muksin, X., Orof, A., & Ruxsora, K. The composition of releasing passion of dusty in the process of pat. International journal of engineering and advanced technology, 8(3 Special Issue), 279-283, 2019 14. Khodjiev, M., Abbazov, I., Alimov, O., & Karimov, J. Fraction structure of cotton cleaning equipment in cotton enterprises and their cleaning |
| 6 | effectiveness. International Journal of Advanced Research in Science, Engineering and Technology, 6(1), 7983, 2019 15. Abbazov I.Z., Tillaev M.T., Matyakubov I. An additional seeding device installed in the working chamber of a sawmill // "Republican scientific-practical conference of young scientists and students" Tashkent, 2010. -B. 21- 22. (In Uzb) |