Next: Pipe, Sudden Contraction Up: Fluid Section Types: Liquids Previous: Pipe, White-Colebrook Contents
A sudden enlargement (Figure ![[*]](crossref.png)
) is characterized by head
losses
\Delta_1^2 F of the form:
| \Delta_1^2 F = \zeta \frac{\dot{m}^2}{2 g \rho^2 A_1^2 }, | (154) |
where \zeta is a head loss coefficient depending on the ratio A_1/A_2, \dot{m} is the mass flow, g is the gravity acceleration and \rho is the liquid density. A_1 and A_2 are the smaller and larger cross section, respectively. Notice that this formula is only valid for \dot{m} \ge 0. For a reverse mass flow, the formulas for a pipe contraction have to be taken. Values for \zeta can be found in file “liquidpipe.f”.
The following constants have to be specified on the line beneath the *FLUID SECTION, TYPE=PIPE ENLARGEMENT card:
The gravity acceleration must be specified by a gravity type *DLOAD card defined for the elements at stake. The material characteristic \rho can be defined by a *DENSITY card.
Example files: centheat1, pipe.
