•  
  •  
 

Abstract

This article discusses the issues of constructing a mathematical model of the technological process of bleaching textile materials in an impregnating reservoir using the heat balance equation, on the basis of which a qualitative analysis of the dynamic properties of an object has been carried out in order to create highly efficient control systems with the use of energy-saving technologies. While constructing a mathematical model characterizing the established and non-established modes of the control object (impregnating reservoir) used changes in heat flow and mass velocity of the incoming tissue. An algorithm for constructing a mathematical model of the process of bleaching cotton fabrics has been proposed. The results of solving a practical problem show the adequacy of the developed model.

First Page

79

Last Page

85

References

  1. Polyakov, K.A., Polyakov, A.E. (2005). Reshenie zadachi optimizatsii ehnergosberegayushhikh rezhimov tekstil'nogo oborudovaniya [Solving the problem of optimizing energy-saving modes of textile equipment]. Izv. Vuzov. Tekhnologiya tekstil'noj promyshlennosti. 1, 124-127.
  2. Yusupbekov, N.R., Igamberdiev, KH.Z., Bazarov, M.B. (2008). Modelirovanie i upravlenie proizvodstvenno-tekhnologicheskimi sistemami s parametricheskimi neopredelennostyami interval'nogo tipa [Modeling and control of production and technological systems with parametric uncertainties of interval type]. KHimicheskie tekhnologii. Kontrol' i upravlenie. 4, 74-78.
  3. Belenkij, L.I., Omelyanchuk, L.A., Shvirev, S.S. (1990). Avtomaticheskoe upravlenie tekhnologicheskimi protsessami otdelochnogo proizvodstva [Automatic control of technological processes of finishing production]. M .: Legpromizdat. 208 p. (in Russian).
  4. Pupkov, K.A. (2000). Analiz i staticheskaya dinamika sistem avtomaticheskogo upravleniya [Analysis and static dynamics of automatic control systems]. Moskva: Redaktsiya. MGTU im. N.EH. Baumana. 748 p. (in Russian).
  5. Mallaev, A.R., Usmanova, R.S. (2016). Povysheniya nedyozhnosti ustanovki gidroochistki zhidkogo topliva [Increasing the unreliability of the liquid fuel hydrotreating unit]. “Integratsiya mirovykh nauchnykh protsessov kak osnova obshhestvennogo progressa”: Mezhdunarodnyj sbornik nauchnykh trudov. 33, Kazan, 225-228. (in Russian).
  6. Bekkulov, J., Ibragimov, B., Eshonkulov, M. (2021). Mathematical model of the trajectory of moving control objects. Engineering sciences: problems and solutions. 110-116.
  7. Mallayev, Alisher Rajabaliyevich, Xusanov, Suban Nurillayevich (2019). Estimation of Parameters of Settings of Regulators Based on Active Adaptation Algorithm. International Journal of Advanced Research in Science, Engineering and Texnology. 6(8), 10376-10380.
  8. Mallaev, A.R., KHusanov, S.N. (2019). Algoritmy sinteza adaptivnogo suboptimal'nogo regulyatora dlya stokhasticheskogo obekta upravleniya [Synthesis algorithms for an adaptive suboptimal controller for a stochastic control object]. Materialy mezhdunarodnoj nauchnoj konferentsii «Innovatsionnyj resheniya inzhenerno-tekhnologicheskikh problem sovremennogo proizvodstva». Bukhara, 14-16 noyabr 2019. 237-240. (in Russian).
  9. Mallaev, A.R., Xusanov, S.N., Sevinov, J.U. (2020).Algorithms of nonparametric synthesis of discrete one-dimensional controllers. International Journal of Advanced Science and Technology. 29(5s). 1045-1050.
  10. Nigmatova, F.U., Somansurova, M.Sh., Siddiqov, I.Kh., Musakhanov, A.A. (2014). Design technique for organizational process flowsheet in clothing manufacture. Automation and Remote Control. 75(6), 1130-1136.
  11. Siddikov, Isamiddin Xakimovich, Khujanazarov, Ulugbek Olimovich, Izmaylova, Renata Nikolayevna, Yunusova, Sayyora Tashkenboevna, Alimova, Gulchexra Raximjonovna (2021). Design Of Standard Regulators For Multi-Link Control Objects. Turkish Journal of Computer and Mathematics Educati. 12(7), 349-353.
  12. Siddikov, I.X., Umrzoqova, D.M. (2019). Synthesis of Adaptive Control Systems of a Multidimensional Discrete Dynamic Object with a Forecating Models. International Conference on Information Science and Communications Technologies. Applications, Trends and Opportunities, ICISCT 2019.
  13. Ibragimov, B. SH. Matematicheskaya model' protsessa regulirovki material'nogo balansa pri otbelivanii tkani (na primere vanny s rastvorom) [Mathematical model of the material balance adjustment process during fabric bleaching (on the example of a bath with a solution)]. Internauka. 47-50. (in Russian).
  14. Sheraliyevich, I.B., Berdimurodovich, E. S. (2021). Basic principles of automation control of heating of protected ground structures. ResearchJet Journal of Analysis and Inventions, 2(5), 1-7.
  15. Ibragimov, B.SH., EHshkobilov, S.B. (2020). Matematicheskaya model' protsessa proizvodstva para kak ob"ekta upravleniya [Mathematical model of the steam production process as a control object]. Internauka. (18-2), 10-13. (in Russian).
  16. Bekkulov, ZH.SH., Ibragimov, SH. (2021). Optimal'noe upravlenie periodicheskimi protsessami [Optimum batch control]. Central Asian Journal of Theoretical and Applied Science. 2(5), 184-190. (in Russian).

Download

Share

COinS
 
 

To view the content in your browser, please download Adobe Reader or, alternately,
you may Download the file to your hard drive.

NOTE: The latest versions of Adobe Reader do not support viewing PDF files within Firefox on Mac OS and if you are using a modern (Intel) Mac, there is no official plugin for viewing PDF files within the browser window.