
                                                                  
                                                                  
                                      BP() = 
                                                                  
                                       i
                                                     P   w ˙ T g av +   w ˙  m  Chapter 6: Direct Circulation Models    6-15
                                                                  
                                                 g
                                                       Q +  Q m 
                                                           g
                                                  P    T     
                                                       g
                                                                     2  
                                                    P g    T av  Q  + Q    
                                                      P        g  m    
                                                         T
                                        
                                        1 −    f         π g           
                                        
                                            2gD i          D  2      
                                                        4   i        
                                                                      
                                        
                                                                                  2
                               and P in is the injection pressure into the inside of the drill string (lb/ft , abs).
                                   The Fanning friction factor f given in  the above equation is  determined by the
                               standard  fluid  mechanics  empirical  expressions  relating  the  friction  factor  to  the
                               Reynolds number, diameter, and absolute pipe roughness.  In general, the values for
                               Reynolds number, diameter, and absolute pipe roughness  are  known.    The  classic
                               expression for the Reynolds number is
                                            DV
                                             i
                                      N   =                                            (6-45)
                                        R    ν
                               where D i is the inside diameter for the drill string (ft),
                                   There are three flow conditions that can exist in  the inside of  the  drill  string.
                               These are laminar, transitional, and turbulent flow conditions.
                                   The  empirical  expression  for  the  Fanning  friction  factor  for  laminar  flow
                               conditions is
                                      f =  64                                          (6-46)
                                           N
                                            R
                               This  equation  can  be  solved  directly  once  the  Reynolds  number  is  known.    In
                               general, Equation 6-46 is valid for values for Reynolds numbers from 0 to 2,000.
                                   The  empirical  expression  for  the  Fanning  friction  factor  for  transitional  flow
                               conditions is known as the Colebrook equation.  the Fanning friction factor cannot
                               be  determined  directly  and  must  be  solved  by  trial  and  error.    This  empirical
                               expression is