Application of the AdamGibbs Equation to the Non-Equilibrium Glassy State This new form of the AG equation resolves many inconsistencies in the TNM approach: for example, the dependence of x on annealing temperature and time ... JM Hutchinson,S Montserrat,Y Calventus,... - Journal of Non-Cr...
The equation above represents the energy balance for DEB organisms in a non-steady state [12]. The energy balance may be applied to problems such as predicting spatial impact of climate change on biodiversity [73,74]. Once the heat generation is quantified, it can be compared to the losses...
(97) and (98) in deriving the steady-state G–K equation, additional terms related to the heat flux at the boundary are included into the entropy production rate [239]: (104)I=∫V(σs+γ∇⋅q)dV+∫Alλθ2C(qw⋅qw)dA. Minimizing the functional equation (104) will result in...
45), the BFS decrease continues with a steady slope from the positive- to the negative-pressure regime. The latter state may seem less intuitive as one might expect the pressure to be always positive. However, as previous works show, a liquid in tight confinement, such as capillaries or ...
The fundamental equation of the ideal gas - Fundamentals of Equilibrium and Steady-State Thermodynamics - A4 N.W. Tschoegl, 20-Chemical reactions, in: Fundamentals of Equilibrium and Steady-state Thermodynamics, Elsevier Science, Amsterdam, 2000, pp. 154e159... JP Díaz,FJ Expósito,A Redondas...
We introduce a framework of energetics into the stochastic dynamics described by Langevin equation in which fluctuation force obeys the Einstein relation. The energy conservation holds in the individual realization of stochastic process, while the second law and steady state thermodynamics of Oono and ...
Using a path integral method, we calculate a generating functional over trajectories, obtaining exact solutions of the order parameters, path entropy, and steady-state entropy production of infinitely large networks. Entropy production peaks at critical order-disorder phase transitions, but is ...
The shear rate γ enters explicitly into the description of the fluid: the equation of state isp=p(V,T,γ) and thermodynamic equation isdE=TdSpdV+ζdγ, where ζ is a state function. Using the relations found previously to be valid for a wide range of γ:p=p0+p1γ3/2andE=E0+E1...
Tschoegl NW: Fundamentals of Equilibrium and Steady-State Thermodynamics. Amsterdam: Elsevier; 2000: 114-155.N.W. Tschoegl, 20-Chemical reactions, in: Fundamentals of Equilibrium and Steady-state Thermodynamics, Elsevier Science, Amsterdam, 2000, pp. 154e159....
[4] is a phenomenological thermodynamic framework for the steady state instead of thermal equilibrium. The second law of SST is not sim- ple because the steady state produces heat constantly; In such a situation the total heat is divergent. There- fore the meaning of heat in the second law...