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Duncan's Paradox : ウィキペディア英語版
Duncan's Paradox

Duncan's paradox is a thermodynamic thought experiment proposed by T.
Duncan in 2000 〔T.L. Duncan, Phys. Rev. E 61, 4661 (2000).〕 that has connections to the second law of thermodynamics and catalysis. It was raised in response to an
earlier theoretical proposal suggesting that certain gas-surface
reactions (heterogeneous catalysis) can generate steady-state pressure
gradients under low-pressure, sealed blackbody conditions.〔D.P. Sheehan, Phys. Rev. E 57, 6660 (1998).〕
Duncan's paradox was devised to demonstrate the incompatibility of
these purported pressure gradients with the second law of thermodynamics. Specifically, such pressure gradients would allow
construction of perpetual motion machines of the second type;
therefore, because such devices are presumed thermodynamically
impossible, the enabling pressure gradients must also be impossible.
== Pressure and Temperature Paradoxes ==

Duncan's paradox can be envisioned either in terms of pressure or
temperature differences. Consider a dimeric gas (A2) that is
susceptible to endothermic dissociation or exothermic
recombination (A2 ↔ 2A). The gas is housed
between two surfaces (S1 and S2), whose chemical reactivities
are distinct with respect to the gas. Specifically, let S1
preferentially dissociate dimer A2 and desorb monomer A, while S2
preferentially recombines monomers A and desorbs dimer A2.
For the pressure paradox, let S1 and S2 cover the apposing faces of a
radiometer, which is housed inside a sealed blackbody cavity, itself
lined with S2 (Fig. 1). Let the surface area of the vanes be much less
than that of the cavity walls so that the cavity gas concentrations are
effectively set by the gas-surface reactions on the walls. Because S1
preferentially desorbs monomers compared with S2, and because two
monomers are desorbed for every dimer, it can be shown, for a broad
range of parameters, that there will be a greater gas pressure over the
S1 than over the S2 vane faces. This steady-state pressure differential
turns the radiometer and can be harnessed to perform steady-state
work; in this case (Fig. 1), a weight is lifted against gravity.
Appealing to the first law of thermodynamics, it can be shown that this
steady-state work must come ultimately from heat from the heat bath;
however, this contradicts the Kelvin-Planck form of the second law,
which forbids the conversion of heat solely into work in a thermodynamic
cycle such as this. Thus, if the second law is inviolable, such
pressure differences must be thermodynamically impossible.
Duncan's temperature paradox follows similarly from this. Here, surface
desorbed A2 and A set up a convective cycle between S1 and S2 (Fig.
2). S1 provides and excess of A to S2, while S2 provides an excess of
A2 to S1. Because the reaction A2 → 2A is
endothermic—and its reverse exothermic—it follows that S1 cools
down and S2 heats up. The permanent temperature difference thus
established between S1 and S2 can be harnessed via a heat engine (e.g.,
a thermoelectric device) to perform work, again as before, at the
ultimate expense of the surrounding heat bath and in violation of the
Kelvin-Planck form of the second law (Fig. 2). As proposed by Duncan
for his pressure paradox, this temperature paradox also would be
resolved by forbidding the existence of differential gas-surface
products between different surface types.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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