From 78771d1269cb0257d0e793ec2f9e615f85319d65 Mon Sep 17 00:00:00 2001 From: Ben Spencer Date: Wed, 12 May 2021 17:14:31 -0600 Subject: [PATCH] Update units in moisture transport documentation ref #224 --- doc/content/source/materials/ConcreteThermalMoisture.md | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/doc/content/source/materials/ConcreteThermalMoisture.md b/doc/content/source/materials/ConcreteThermalMoisture.md index 6ee711a07..cd0db0740 100644 --- a/doc/content/source/materials/ConcreteThermalMoisture.md +++ b/doc/content/source/materials/ConcreteThermalMoisture.md @@ -358,8 +358,8 @@ $W$ = total water content (g/g)\\ $H$ = pore relative humidity, and $H=P_v$/$P_{vs}$ \\ $P_{vs}$ = saturate vapor pressure $= P_{atm}\exp\left(4871.3\frac{T-100}{373.15T}\right)$ [!cite](Bary2012) (where $T$ is the temperature in K))\\ $P_{atm}$ = standard atmospheric pressure $= 101.325 Pa$ \\ -$D_h$ = moisture diffusivity (also referred as humidity diffusivity), $m^2/s$\\ -$D_{ht}$= coupled moisture diffusivity under the influence of a temperature gradient, $m^2/s$\\ +$D_h$ = moisture diffusivity (also referred as humidity diffusivity), $kg/(m^2\cdot s)$\\ +$D_{ht}$= coupled moisture diffusivity under the influence of a temperature gradient, $kg/(m^2\cdot s\cdot K)$\\ $W_d$= total mass of free evaporable water released into the pores by dehydration of the cement paste\\ $t$ = time, $s$