This is a library to simulate incompressible flow in a pipeline. It solves the pressure gradient equation:
\frac{dP}{dx}=-\rho\nu\frac{d\nu}{dx} - \rho g sin{\theta}-\frac{f\rho\nu^{2}}{2D}
http://en.wikipedia.org/wiki/Fluid_dynamicsSolve the pressure gradient equation: \frac{dP}{dx}=-\rho\nu\frac{d\nu}{dx} - \rho g sin{\theta}-\frac{f\rho\nu^{2}}{2D}
This is a library to simulate incompressible flow in a pipeline. It solves the pressure gradient equation:
\frac{dP}{dx}=-\rho\nu\frac{d\nu}{dx} - \rho g sin{\theta}-\frac{f\rho\nu^{2}}{2D}
http://en.wikipedia.org/wiki/Fluid_dynamicsSolve the pressure gradient equation: \frac{dP}{dx}=-\rho\nu\frac{d\nu}{dx} - \rho g sin{\theta}-\frac{f\rho\nu^{2}}{2D}