ANALYSIS OF FRONT PERFORMANCE DEVICE BASED ON SYSTEMS THINKING

186

In this article, a multi-stage system analysis of a processing device
using IR to Cocoon through systems thinking was carried out, analysing the elements of
the hierarchical structure of the device and the processes that take place in each
element. The elements of the IR device go deep into the device from top to bottom, and
the input and output parameters are selected starting from the internal positions of the
device. If we consider the biochemical processes occurring in the material at the lower
levels of the hierarchy, the changes in the material to be processed, the heat and mass
transfer processes in the elements at the top of the hierarchy, the resulting changes, are
analysed by means of a multi-step structural analysis. Based on the results of the
system analysis, mathematical equations are generated for each process from the links
between input and output parameters from the lower stage to the upper stage, and on
their basis mathematical models are formed to determine the optimum process
conditions. On the basis of the mathematical models constructed, the optimum use of
the treatment device through IR to the stage is selected

Name of journalTechnical science and innovation
Number of edition2022,№1(11)
View count186

Web Address

DOI

Date of creation in the UzSCI system06-09-2022

Read count186

Date of publication30-06-2022

Main LanguageIngliz

Pages281-287

Tags

storage

drying

dehydration

mass

irradiation

cocoon

dome

systematic consumption

machines

English

In this article, a multi-stage system analysis of a processing device
using IR to Cocoon through systems thinking was carried out, analysing the elements of
the hierarchical structure of the device and the processes that take place in each
element. The elements of the IR device go deep into the device from top to bottom, and
the input and output parameters are selected starting from the internal positions of the
device. If we consider the biochemical processes occurring in the material at the lower
levels of the hierarchy, the changes in the material to be processed, the heat and mass
transfer processes in the elements at the top of the hierarchy, the resulting changes, are
analysed by means of a multi-step structural analysis. Based on the results of the
system analysis, mathematical equations are generated for each process from the links
between input and output parameters from the lower stage to the upper stage, and on
their basis mathematical models are formed to determine the optimum process
conditions. On the basis of the mathematical models constructed, the optimum use of
the treatment device through IR to the stage is selected

Tags

storage

drying

dehydration

mass

irradiation

cocoon

dome

systematic consumption

machines

№ Author name position Name of organisation

1 Sultanova S.A. teacher TSTU

2 Safarov J.E. teacher TSTU

3 Artiqov A.. teacher Тошкент кимё-технология институти

4 Zulponov S.U. teacher TSTU

5 Masharipova Z.A. teacher Тошкент кимё-технология институти

6 Samandarov D.I. teacher TSTU

№ Name of reference

1 U.A. Khaliqnazarov, A.A. Turdiboev, D.M. Akbarov. Economic evaluation of new energy-saving electro-technology of anesthesia of mulberry silkworm moth. Electrification and automation of agriculture and water resources management. Journal. “Irrigation and land reclamation”. 2021. 52

2 A.Y. Raximov, A.A. Rakhimov, Z.L. Kadyrov. Analysis of technological processes primary processing and storage of dry cocoonssh (Analysis of technological processes of primary processing and storage of cocoons). “Academic research in educational sciences”. 2021. 2181

3 N. Ahmedov, N. Qahhorov. Current tasks in the development of silkworm breeding. “Agriculture of Uzbekistan”. 2013. 17

4 S. Salimdjanov, A.B. Ishmatov. “Improving the technology of processing natural silk”. 2007. 36

5 A.N. Paxomov, V.I. Konovalov, N.T. Gatapova, A.N. Koliux. “Fundamentals of modeling chemical-technological systems: textbook”. 2008. 80

6 N.V. Usheva, O.E. Moyzes, O.E. Mityanina, E.A. Kuzmenko “Mathematical modeling of chemical and technological processes: textbook”. 2014. 135

7 A.A. Artikov, X.F. Djuraev, Z.A. Masharipova, B.N. Barakaev. Systematic thinking, analysis and analysis of optimal solutions. “Publishing House”. 2020. 185

8 A.A. Artikov, Z.A. Masharipova, F.O. Rakhmatov. “Automated calculations of the equilibrium of a three-phase system in the process of dewatering a liquid material”. 2020. 24

9 N. Akhmedov, Ch. Bekkamov, S. Valiev, U. Jumanova, H. Rahmanova, U. Akhmedov, B. Melikov. “The effect of temperature on physiological processes in the body of silkworms”. 2010. 36

10 D.C. Santiago, R.P. Farias, A.G. Lima. “Modeling and simulation of cross flow band dryer finitevolume approach”. “Proceedings of the international drying”. 2002

11 A.G. Lima, S.F. Mata. “Study of the silkworm cocoon drying kinetic”. proceedings of the international drying symposium”. 1996. 937

12 Y.T. Hendaw. “Stifling cocoons silkworms using butane gas mechanical dryer”. 2017. 149

13 A.S. Awad. “Development of artificial portable fruits dryer”. 2005

14 G. Sangio. “Posted by kokonosushilki firm «Yamato» Prospect”. 2007

Waiting

№	Author name	position	Name of organisation
1	Sultanova S.A.	teacher	TSTU
2	Safarov J.E.	teacher	TSTU
3	Artiqov A..	teacher	Тошкент кимё-технология институти
4	Zulponov S.U.	teacher	TSTU
5	Masharipova Z.A.	teacher	Тошкент кимё-технология институти
6	Samandarov D.I.	teacher	TSTU

№	Name of reference
1	U.A. Khaliqnazarov, A.A. Turdiboev, D.M. Akbarov. Economic evaluation of new energy-saving electro-technology of anesthesia of mulberry silkworm moth. Electrification and automation of agriculture and water resources management. Journal. “Irrigation and land reclamation”. 2021. 52
2	A.Y. Raximov, A.A. Rakhimov, Z.L. Kadyrov. Analysis of technological processes primary processing and storage of dry cocoonssh (Analysis of technological processes of primary processing and storage of cocoons). “Academic research in educational sciences”. 2021. 2181
3	N. Ahmedov, N. Qahhorov. Current tasks in the development of silkworm breeding. “Agriculture of Uzbekistan”. 2013. 17
4	S. Salimdjanov, A.B. Ishmatov. “Improving the technology of processing natural silk”. 2007. 36
5	A.N. Paxomov, V.I. Konovalov, N.T. Gatapova, A.N. Koliux. “Fundamentals of modeling chemical-technological systems: textbook”. 2008. 80
6	N.V. Usheva, O.E. Moyzes, O.E. Mityanina, E.A. Kuzmenko “Mathematical modeling of chemical and technological processes: textbook”. 2014. 135
7	A.A. Artikov, X.F. Djuraev, Z.A. Masharipova, B.N. Barakaev. Systematic thinking, analysis and analysis of optimal solutions. “Publishing House”. 2020. 185
8	A.A. Artikov, Z.A. Masharipova, F.O. Rakhmatov. “Automated calculations of the equilibrium of a three-phase system in the process of dewatering a liquid material”. 2020. 24
9	N. Akhmedov, Ch. Bekkamov, S. Valiev, U. Jumanova, H. Rahmanova, U. Akhmedov, B. Melikov. “The effect of temperature on physiological processes in the body of silkworms”. 2010. 36
10	D.C. Santiago, R.P. Farias, A.G. Lima. “Modeling and simulation of cross flow band dryer finitevolume approach”. “Proceedings of the international drying”. 2002
11	A.G. Lima, S.F. Mata. “Study of the silkworm cocoon drying kinetic”. proceedings of the international drying symposium”. 1996. 937
12	Y.T. Hendaw. “Stifling cocoons silkworms using butane gas mechanical dryer”. 2017. 149
13	A.S. Awad. “Development of artificial portable fruits dryer”. 2005
14	G. Sangio. “Posted by kokonosushilki firm «Yamato» Prospect”. 2007