NEW TECHNOLOGY FOR MULTISTAGE CLEANING OF COTTON FIBER
Keywords:
cotton, fiber, fiber cleaner, working chamber, cleaning effect, clogging, humidity, defect, litter, fibrous waste.Abstract
The article presents the research results of an innovative cotton fiber cleaning technology using a multi-stage fiber cleaning unit with adjustable cleaning frequency. The developed technology significantly increases the fiber cleaning efficiency to 36.15% compared to 25-30% in traditional single-stage fiber cleaners. Experimental data show a 2.5-fold reduction in air consumption and a decrease in pure fiber loss in waste. The proposed technology ensures improved fiber quality, energy savings, and more effective preservation of the natural properties of cotton.
References
1. Agzamov M. et al. Search for ways to increase yield and improve product quality in the process of saw ginning //IOP Conference Series: Earth and Environmental Science. – IOP Publishing, 2021. – Т. 939. – №. 1. – P. 012073.
2. Agzamov M. M., Olimov O. T., Urakov N. A. Research results of innovative cotton fiber cleaning technology //Textile Journal of Uzbekistan. – 2019. – Т. 7. – №. 1. – P. 12-16.
3. Agzamov M. et al. Search for ways to increase yield and improve product quality in the process of saw ginning //IOP Conference Series: Earth and Environmental Science. – IOP Publishing, 2021. – Т. 939. – №. 1. – P. 012073.
4. Olimov O. T., Makhammadiev Z. O. Experimental studies to determine the optimal angle of inclination of the front edge of the saw tooth of the saw cylinder of a straight-through fiber cleaner // Modern materials, technology and technology. – 2017. – P. 271-274.
5. Olimov O. T., Makhammadiev Z. O. Innovative complex for multi-stage cleaning of cotton fiber // Modern innovations in science and technology. – 2014. – P. 263-264.
6. Babajanov S. Kh., Olimov O. T., Makhammadiev Z. O. Study of the interaction of packaging with a winding drum // Youth and knowledge - a guarantee of success. – 2014. – P. 32-34.
7. Makhammadiev Z. O., Olimov O. T. Calculation of roving tension and length of the section in the vertical channel of the flyer // Modern materials, technology and technology. – 2017. – P. 248-252.