Quantitative Analysis of High Temperature Protective Clothing Design Based On Solution and Optimization Model of Fractional Partial Differential Equations
Download as PDF
DOI: 10.23977/icamcs2019.12
Author(s)
Hanyue Liu, Aoqi Xie
Corresponding Author
Hanyue Liu
ABSTRACT
This paper is based on the calculation of thermal conduction fractional partial differential equations, combined with function interpolation and nonlinear optimization. The measurement software programming calculation and actual results are finally obtained under the use of fractional-order partial differential equations and nonlinear optimization algorithms to obtain the optimal thickness design of high-temperature protective clothing under the multi-layer heat transfer temperature distribution law and the actual limited working conditions.
KEYWORDS
High temperature protective clothing design, multi-layer heat conduction, genetic algorithm, nonlinear optimal model