Title of article
States of maximum entropy production in a one-dimensional vertical model with convective adjustment
Author/Authors
TONI PUJOL ، نويسنده , , JOAQUIM FORT، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
7
From page
363
To page
369
Abstract
We investigate the hypothesis that the atmosphere is constrained to maximize its entropy
production by using a one-dimensional (1-D) vertical model. We prescribe the lapse rate in the
convective layer as that of the standard troposphere. The assumption that convection sustains
a critical lapse rate was absent in previous studies, which focused on the vertical distribution
of climatic variables, since such a convective adjustment reduces the degrees of freedom of the
system and may prevent the application of the maximum entropy production (MEP) principle.
This is not the case in the radiative–convective model (RCM) developed here, since we accept
a discontinuity of temperatures at the surface similar to that adopted in many RCMs.
For current conditions, the MEP state gives a difference between the ground temperature
and the air temperature at the surface #10 K. In comparison, conventional RCMs obtain a
discontinuity #2 K only. However, the surface boundary layer velocity in the MEP state
appears reasonable (#3 m s−1). Moreover, although the convective flux at the surface in MEP
states is almost uniform in optically thick atmospheres, it reaches a maximum value for an
optical thickness similar to current conditions. This additional result may support the maximum
convection hypothesis suggested by Paltridge (1978).
1.
Journal title
Tellus. Series A
Serial Year
2002
Journal title
Tellus. Series A
Record number
436448
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