Fig. 1. Single-barrier well completion schematic

(1)	$\begin{array}{l}\displaystyle \frac{1}{ r_{ti} \, U} = \frac{1}{r_{ti} \, U_{ti}} + \frac{1}{r_{ti} \, U_t} + \frac{1}{d_{ann} \, U_{ann}} + \frac{1}{r_{ci} \, U_c} + \frac{1}{r_c \, U_{cem}}\end{array}$

(2)	$\begin{array}{l}\displaystyle \frac{1}{ r_{ci} \, U} = \frac{1}{r_{ci} \, U_{ci}} + \frac{1}{\lambda_c} \ln \frac{r_c}{r_{ci}} + \frac{1}{\lambda_{\rm cem}} \ln \frac{r_w}{r_c}\end{array}$

where

$\begin{array}{l}r_w\end{array}$	wellbore radius
$\begin{array}{l}r_c\end{array}$	outer radius of the casing
$\begin{array}{l}r_{ci}\end{array}$	inner radius of the casing
$\begin{array}{l}h_c = r_c - r_i\end{array}$	casing wall thickness
$\begin{array}{l}\lambda_c\end{array}$	thermal conductivity of the casing material
$\begin{array}{l}\lambda_{cem}\end{array}$	thermal conductivity of cement
$\begin{array}{l}\lambda\end{array}$	thermal conductivity of wellbore fluid
$\begin{array}{l}\displaystyle U_{ci} = \frac{\lambda}{2 \, r_{ci}} \, {\rm Nu}_{ci}\end{array}$	Heat Transfer Coefficient between inner surface of the casing and moving fluid (see also Pipe Flow Heat Transfer Coefficient)
$\begin{array}{l}{\rm Nu}_{ci}\end{array}$	Nusselt number for the moving wellbore fluid with account of its contact with inner surface of the casing

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See also