The paper analyses performance boundaries of systems converting the heat energy into the mechanical or separation work. Authors approach this problem from the view-point of the finite-time thermodynamics. Using thermodynamic balance equations, authors provide the algorithm for calculation of realizability domain for such systems. The paper shows that the performance of these systems is the upper bounded function of the heat flux, assuming that heat and mass transfer coefficients are given. Authors present sufficient conditions under which the efficiency (specific heat flux per unit of the useful flux) of the system does not depend on kinetic coefficients when operating in the maximum performance mode. The paper shows how to use these condit...
This thesis compiles the publications I coauthored during my doctoral studies at University of Leipz...
While many efforts have been devoted to optimizing the power output for a finite-time thermodynamic ...
International audienceIn recent decades, the approach known as Finite-Time Thermodynamics has provid...
In this paper, new thermodynamic limits on the performance of irreversible separation processes are ...
Irreversible work of separation and irreversible max-imal productivity of heat driven separation are...
From the point of view of finite time thermodynamics, the performance boundaries of thermal machines...
This book addresses the concept and applications of Finite Time Thermodynamics to various thermal en...
Rectification and separation processes generally operate far from their thermodynamically optimal co...
We define and analyse thermodynamic limits for various traditional and work-assisted processes of se...
This work shows the power of the variational approach for studying the efficiency of thermal engines...
The paper considers the limitation problem of the distillation column systems separating multicompon...
Classical equilibrium thermodynamics is a theory of principles, which was built from empirical knowl...
International audienceThe paper studies the possibility of unifying the two branches of the irrevers...
A complex system including several heat reservoirs, finite thermal capacity subsystems with differen...
In this paper, the limiting performance of membrane systems with inhomogeneous composition is studie...
This thesis compiles the publications I coauthored during my doctoral studies at University of Leipz...
While many efforts have been devoted to optimizing the power output for a finite-time thermodynamic ...
International audienceIn recent decades, the approach known as Finite-Time Thermodynamics has provid...
In this paper, new thermodynamic limits on the performance of irreversible separation processes are ...
Irreversible work of separation and irreversible max-imal productivity of heat driven separation are...
From the point of view of finite time thermodynamics, the performance boundaries of thermal machines...
This book addresses the concept and applications of Finite Time Thermodynamics to various thermal en...
Rectification and separation processes generally operate far from their thermodynamically optimal co...
We define and analyse thermodynamic limits for various traditional and work-assisted processes of se...
This work shows the power of the variational approach for studying the efficiency of thermal engines...
The paper considers the limitation problem of the distillation column systems separating multicompon...
Classical equilibrium thermodynamics is a theory of principles, which was built from empirical knowl...
International audienceThe paper studies the possibility of unifying the two branches of the irrevers...
A complex system including several heat reservoirs, finite thermal capacity subsystems with differen...
In this paper, the limiting performance of membrane systems with inhomogeneous composition is studie...
This thesis compiles the publications I coauthored during my doctoral studies at University of Leipz...
While many efforts have been devoted to optimizing the power output for a finite-time thermodynamic ...
International audienceIn recent decades, the approach known as Finite-Time Thermodynamics has provid...