4


                                Pipes Conveying Fluid:

                                     Linear Dynamics II







                    4.1  INTRODUCTION
                    The linear dynamics of  the basic system of  a pipe conveying fluid has been considered
                    in detail in Chapter 3, including, in more abbreviated form, the dynamics of some impor-
                    tant  modified  systems  (Section 3.6). A  characteristic of  all  these  systems,  if  they  are
                    continuously flexible, is that they are all governed by equations (3.38) and (3.70) and the
                    dimensionless parameters of (3.7 l), or by simple variants thereof. Furthermore, solution of
                    these equations may generally be achieved by one of the two methods of Section 3.3.6, or
                    by straightforward extensions of these methods. The only ‘unusual’ system in this respect
                    is that of  articulated pipes, dealt with in  Section 3.8.
                      The systems considered here, on  the other hand, either are governed by  substantially
                    modified  forms  of  the  equations  of  motion  or  require  different  methods  of  solution.
                    Specifically, the following topics are discussed. Nonuniform pipes  are pipes with nonuni-
                    form cross-section and axially variable flow area. Aspirating  or.sucking pipes  are pipes
                    ingesting  flow  at  a  free  end,  rather  than  expelling  it.  Short pipes  also  require  special
                    treatment: from the solid mechanics side the use of Timoshenko beam theory, and from
                    the  fluid  mechanics  side  the  use  of  potential  flow  theory  and  the  introduction of  so-
                    called ‘outflow models’ for the fluid discharging to atmosphere. Pipes with harmonically
                    perturbed flow velocity  are subject to parametric resonances and require special methods
                    of  solution; so does the treatment of forced vibration  of  pipes conveying fluid. Finally,
                    the  section  on applications  presents  some  expected  and  unexpected uses  of  the  work
                    discussed in Chapters 3 and 4.


                    4.2  NONUNIFORM PIPES
                    4.2.1  The equation of motion

                    The  equation  of  motion  will  be  derived  for  a  pipe  with  a  nonuniform  flow  passage
                    and, generally, a nonuniform external form also. Variations in  the shape of  the pipe are
                    axisymmetric, gradual and smooth with respect to the axial coordinate [see Figure 4.1(a)].
                    The pipe is immersed in air or water, so that hydrostatic, added-mass and damping effects
                    associated with the external fluid need generally be taken into account.
                      In this derivation (Hannoyer & Paidoussis  1979a), the lateral dimensions of  the flow
                    passage will not a priori  be considered to be negligible. However, the other assumptions


                    196