§3.5 Integration of Euler differential equation
Euler equation in differential form given is used in the situations that the ideal fluid flows along a streamline in steady.The Euler equation are multiplied by dx, dy and dz, and then added:
3.5.1 Integration under steady potential flow, gravity, incompressible condition
1.Bernoulli equation
Because the ideal fluid only have gravity, fx=fy=0, fz=-g, then
Because the ideal fluid is incompressible, then
Because the ideal fluid is potential flow,
,then
So
Integration
or
The Bernoulli equation can be obtained with an integral along a streamline as formula (3-24).
2.The physical meaning of Bernoulli equation
The physical meaning and geometric meaning of Bernoulli equation is shown in Tab.3-1.
Tab.3-1 The physical meaning and geometric meaning of Bernoulli equation
3.5.2 Integration along the stream under steady, gravity, incompressible condition
Integration result in the potential flow only apply to potential flow.Along with a stream line is also available for integration to rotational flow.
Energy equation is
Formula(3-36)and(3-34)are exactly same in formation.However, integration constant are different.