Abstract

The article outlines a more general energodynamic theory of biosystems considering their global and local heterogeneity with the help of added nonequilibrium parameters The theory returns the concepts of force speed and power of real processes to thermodynamics and complements the theory of irreversible processes by considering the useful reversible component of real processes It is shown that relaxation processes in some degrees of freedom of biosystems are accompanied by work against equilibrium in other degrees of freedom which is consistent with the Darwinian concept of the struggle for existence Simpler and more informative non-entropy criteria for the evolution and involution of biosystems are proposed and the unity of energy conversion processes in technical and biological systems is proven On this basis the dialectical unity of the processes of evolution and involution occurring simultaneously in biosystems is proven due to which the process of their aging slows down and the duration of the reproductive period increases