Fig. 1. Single-barrier well completion schematic |
The Heat Transfer Coefficient (HTC) of dual-barrier well completion is defined by the following equation:
(1) | \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}} |
(2) | \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} |
where
r_w | wellbore radius |
r_c | outer radius of the casing |
r_{ci} | inner radius of the casing |
h_c = r_c - r_i | casing wall thickness |
\lambda_c | thermal conductivity of the casing material |
\lambda_{cem} | thermal conductivity of cement |
\lambda | thermal conductivity of wellbore fluid |
\displaystyle U_{ci} = \frac{\lambda}{2 \, r_{ci}} \, {\rm Nu}_{ci} | Heat Transfer Coefficient between inner surface of the casing and moving fluid |
{\rm Nu}_{ci} | Nusselt number for the moving wellbore fluid with account of its contact with inner surface of the casing |
See also
Physics / Thermodynamics / Heat Transfer / Heat Transfer Coefficient (HTC) / Heat Transfer Coefficient (HTC) @model
[ Dual-barrier well completion Heat Transfer Coefficient @model ]
[ Thermal conductivity ] [ Nusselt number (Nu) ]