Introduction to Fluid Analysis                                              371



             10.7  Conduct fluid analysis of the water flow passing through a diffuser pipe. Assume
                 nonslip boundary conditions along the walls. The water has a uniform velocity
                 of 10 mm/s at the inlet and the outlet is at atmospheric pressure. Determine the
                 pressure and velocity distributions of the flow field.



                                        All dimensions are in centimeters.

                                  6.000   10.000
                                                  6.000
                           3.000
                            Inlet                 Outlet






             10.8  Conduct fluid analysis of the water flow passing through a transition pipe. Assume
                 nonslip boundary conditions along the walls. The water has a uniform velocity
                 of 25 mm/s at the inlet and the outlet is at atmospheric pressure. Determine the
                 pressure and velocity distributions of the flow field.




                                          All dimensions are in centimeters.


                     8.000      8.000      8.000
                                                    3.000
              5.000




                                                Outlet
                 Inlet





             10.9  Determine the pressure and velocity distributions of the flow of water inside the
                 following circular chamber. The chamber has a depth of 2 m. Assume nonslip
                 boundary conditions at the walls. The velocity of water at the inlets is 10 cm/s,
                 and the outlets are at atmospheric pressure.