ANALYSIS OF HARMFUL MIXTURES IN AIR FLOW DURING COTTON CLEANING

Name of journalTechnical science and innovation
Number of edition2022,№1(11)
View count81

Web Address

DOI

Date of creation in the UzSCI system05-09-2022

Read count81

Date of publication30-06-2022

Main LanguageIngliz

Pages43-50

Tags

Ўзбек

The article analyzes the separation of harmful impurities in the air flow
from various machines during the initial processing of cotton, ways to clean the dusty air
released from the dust, dusty air from the air extracted from dust extractors and
pneumatic transport installations and dust and contaminants before release into the
atmosphere. The causes and ways to reduce the release of large amounts of dust at all
stages of the primary processing of cotton, which can reduce air pollution in production
facilities and air, worsen the working conditions of workers and employees and lead
them to occupational diseases, especially silicosis. The issue of decontamination of
ginneries has been proven to be of paramount importance due to the increasing
pollution of machine-picked cotton. Today, with the widespread introduction of machine
picking, the ginning industry is urgently needed not only to improve the technological
process of receiving, storing and processing cotton, its drying, cleaning and processing,
but also to improve degusting and air purification systems. theoretical and practical
research on the need for measures to be implemented. Dusty air is initially coarse,
moderate, and water purification percentages of cleaning efficiency are given. The
results were analyzed and optimal parameters were recommended.

Tags

pneumatic transport

seed cotton

dusty air

cyclone

dynamic analysis

dust particles

conical cyclone

mineral fractions

№ Author name position Name of organisation

1 Murodov O.J. teacher TashITLI

2 Adilova A.S. teacher TashITLI

3 Rudovskiy P.N. teacher KSU

№ Name of reference

1 I.Z. Abbazov. "Development of a technology for air purification from cotton processing" Dissertation”. 2018

2 O.J. Murodov. "Repair of network machines" 5320300-Technological machines and equipment, textile, light and cotton industry”. 2019. 515

3 E. Zikrioev. “Primary processing of cotton”. 2002. 408

4 O.J. Murodov. Scientific research to determine the amount of fibrous waste in dusty air. “Actual problems of innovative technologies of cotton ginning, textile, light industry, printing production and their solutions in the context of the integration of science, education, production. Republican scientific and practical conference”. 2021. 99

5 O.J. Murodov., A. Djhuraev. “Investigation of vibrations of a lightweight grate on elastic supports of a raw cotton cleaner from large litter in case of random disturbance”. 2017. 95

6 C.J. Stairmand. “The design and performance of cyclone separators”. 1951. 356

7 M.T. Khedive, I.Z. Abbazov, S. Sangirov. Comparative analysis of the work of dust collectors in ginneries. “Actual problems of innovative technologies in the context of integration of science, education and production”. 2014. 176

8 U.S. Baltaev. “Intensification of the process of sedimentation of fibrous particles in a gravitational field and the development of a highly efficient dust collector”. 2008. 148

9 A. Bahrami, F. Ghorbani, Mahjub H., Golbabei F., Aliabadi M. Application of traditional cyclone with spray scrubber to remove airborne silica particles emitted from stone-crushing factories. “Industrial Health”. 2009. 436

10 A.K. Kudratov. “Development and implementation of effective methods for complex purification of air emitted into the atmosphere at enterprises of primary processing of textile raw materials”. 2000. 267

11 G.M. Gordon, I.L. Peisakhov. “Dust collection and gas purification in non-ferrous metallurgy”. 1977. 144

12 P.G. Romankov, M.I. Kurochkina. Hydro mechanical processes of chemical technology. "Chemistry", 1974. 288

13 N. Kharoua, L. Khezzar, Z. Nemouchi. Study of the pressure drop and flow field in standard gas cyclone models using the granular model. “International Journal of Chemical Engineering”. 2011. 12

14 O. Murodov. PAPER • OPEN ACCESS. “Development of an effective design and justification of the parameters of the separation and cleaning section of raw cotton. To cite this article”. 2021

15 O. Murodov O. “Perfection of designs and rationale of parameters of plastic Kolinski cleaning cleaners International Journal of Innovative Technology and Exploring Engineering”. 2019. 2640

16 S.A. Gazieva, B.D. Kurbonov, M.E. Nurov, H.I. Ibrogimov, P.N. Rudovsky. Change of structural index of raw-cotton by technological transitions of its processing News Higher Educational Institution. “Series Technology of Textile Industry”. 2013. 131

17 Chau, S.K. Gupta, R. Gupta. “Patient healthcare monitoring system for emergency situations” “International journal of innovative technology and exploring engineering”. 2019. 287

Waiting

№	Author name	position	Name of organisation
1	Murodov O.J.	teacher	TashITLI
2	Adilova A.S.	teacher	TashITLI
3	Rudovskiy P.N.	teacher	KSU

№	Name of reference
1	I.Z. Abbazov. "Development of a technology for air purification from cotton processing" Dissertation”. 2018
2	O.J. Murodov. "Repair of network machines" 5320300-Technological machines and equipment, textile, light and cotton industry”. 2019. 515
3	E. Zikrioev. “Primary processing of cotton”. 2002. 408
4	O.J. Murodov. Scientific research to determine the amount of fibrous waste in dusty air. “Actual problems of innovative technologies of cotton ginning, textile, light industry, printing production and their solutions in the context of the integration of science, education, production. Republican scientific and practical conference”. 2021. 99
5	O.J. Murodov., A. Djhuraev. “Investigation of vibrations of a lightweight grate on elastic supports of a raw cotton cleaner from large litter in case of random disturbance”. 2017. 95
6	C.J. Stairmand. “The design and performance of cyclone separators”. 1951. 356
7	M.T. Khedive, I.Z. Abbazov, S. Sangirov. Comparative analysis of the work of dust collectors in ginneries. “Actual problems of innovative technologies in the context of integration of science, education and production”. 2014. 176
8	U.S. Baltaev. “Intensification of the process of sedimentation of fibrous particles in a gravitational field and the development of a highly efficient dust collector”. 2008. 148
9	A. Bahrami, F. Ghorbani, Mahjub H., Golbabei F., Aliabadi M. Application of traditional cyclone with spray scrubber to remove airborne silica particles emitted from stone-crushing factories. “Industrial Health”. 2009. 436
10	A.K. Kudratov. “Development and implementation of effective methods for complex purification of air emitted into the atmosphere at enterprises of primary processing of textile raw materials”. 2000. 267
11	G.M. Gordon, I.L. Peisakhov. “Dust collection and gas purification in non-ferrous metallurgy”. 1977. 144
12	P.G. Romankov, M.I. Kurochkina. Hydro mechanical processes of chemical technology. "Chemistry", 1974. 288
13	N. Kharoua, L. Khezzar, Z. Nemouchi. Study of the pressure drop and flow field in standard gas cyclone models using the granular model. “International Journal of Chemical Engineering”. 2011. 12
14	O. Murodov. PAPER • OPEN ACCESS. “Development of an effective design and justification of the parameters of the separation and cleaning section of raw cotton. To cite this article”. 2021
15	O. Murodov O. “Perfection of designs and rationale of parameters of plastic Kolinski cleaning cleaners International Journal of Innovative Technology and Exploring Engineering”. 2019. 2640
16	S.A. Gazieva, B.D. Kurbonov, M.E. Nurov, H.I. Ibrogimov, P.N. Rudovsky. Change of structural index of raw-cotton by technological transitions of its processing News Higher Educational Institution. “Series Technology of Textile Industry”. 2013. 131
17	Chau, S.K. Gupta, R. Gupta. “Patient healthcare monitoring system for emergency situations” “International journal of innovative technology and exploring engineering”. 2019. 287