MATHEMATICAL MODEL OF THE SOLAR ENERGY DEATH PROCESS FOR TUT SILK WORM COCKS

Authors

  • Mirsaatov R.M 1Tashkent State Transport University, Doctor of Technical Sciences, Professor. 2Tashkent State Transport University, PhD, Associate Professor. 3Silk Research Institute, independent researcher. Email: [email protected] Author
  • Khudoyberganov S.B 1Tashkent State Transport University, Doctor of Technical Sciences, Professor. 2Tashkent State Transport University, PhD, Associate Professor. 3Silk Research Institute, independent researcher. Email: [email protected] Author
  • Abdullayev J.E 1Tashkent State Transport University, Doctor of Technical Sciences, Professor. 2Tashkent State Transport University, PhD, Associate Professor. 3Silk Research Institute, independent researcher. Email: [email protected] Author

Keywords:

silkworm, cocoon, solar energy, decontamination, mathematical model, Arrhenius, MATLAB/Simulink, heat balance.

Abstract

This article presents a mathematical model of the process of rendering silkworm cocoons lifeless using solar energy. The model is based on the heat balance equation and the Arrhenius kinetic equation and is implemented in the MATLAB/Simulink environment. The differential equations were solved using the ODE45 method. Simulation results showed that at a concentration coefficient of C=10, the temperature inside the cocoon rises to 80-90°C, achieving an extinguishing efficiency of 99.9997% within approximately 3.5 hours. The proposed model serves as a practical basis for implementing environmentally friendly disinfection technologies in the silk industry.

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Published

2026-06-03

Issue

Vol. 6 No. 5 (2026): Latin American journal of education (LAJoE)

Section

Articles