Inductivel~  Coupled  Plasma  Mass  Spectrometry               77


         mean  diameter, D3,2 (a  ratio of the total volume of aerosol  to the total  surface  area).
         When  the  nebulizer  gas  flow  rate for a  Meinhard  TR-30  nebulizer  was  increased
         from 0.6 to  1.0  L/min,  the D3,2 decreased  by  approximately  a factor of  2,  from
         18 to 8.7 pm [S].
              The primary  aerosol  droplets  also  become  slightly  smaller  as  the  sample
         uptake  rate is decreased.  However, the Sauter  mean  diameter is not  as  sensitive to
         changes  in  sample  uptake  rate  as is to the nebulizer  gas  flow  rate.  For  example,
                                    it
         when  the  uptake  rate was  decreased  from  1.0  to  0.6 niL/min, the D3,2  value
         decreased by only 4% (10.9  to  10.5 at a  nebulizer  gas  flow rate of 0.8 L/min) [51.
              As the sample  uptake  rate is increased, the amount of analyte  transported
         into the ICP increases [ 191, but  not propo~ionately (Fig.  3.8). The efficiency of
         analyte  transport  improves  as  the sample  uptake  rate  is decreased. The analyte
         transport  efficiencies  were  60%, 14%,  and 3% at sample  uptake  rates of  10, 100,
         and  1000  p,L/min,  respectively.  As  a   result, detection limits obtained  using  a
         sample  uptake  rate of 50 to 85  pL/min are  similar to those for a l-niL/min uptake
         rate [ 121.
              Three  main  processes  appear to control the modification  and  loss (or trans-
         port) of analyte  aerosol  in  the  spray  chamber:  droplet-droplet  collisions  resulting
         in  coagulation,  evaporation,  and  impact  of  larger  droplets into the  walls  of  the
         spray  chamber.  Aerosol  droplets  can be "lost"  (impact  the  walls  and  flow  down
         the  drain)  as  a  result of several  processes in the spray  chamber [ 1 1,201. Because
         turbulent  gas  flows  are  key to generating  aerosols  with  pneumatic  nebulizers,  the
         gas  in the spray  chamber is also turbulent.  Droplets  with  a  variety of  diameters

















                  0.01   c
                    I  '  I  I   l  @   I  I  1  1  l
                   0.0   0.2   0.4   0.6    0.8   1.0
                      Sample  Uptake  Rate  (mL/min)
          Figure 8  Analyte  transport  rate  (expressed  as  equivalent  volume sample  solution)  as
                                                          of
                                                                          a
          function of  sample  uptake  rate.  A  Cetac  microcentric  nebulizer   (MCN) was  used  in  a
          double-pass  spray  chamber.  (From  Ref. 422.)