1   2   3   4   5           6                 7
                                              boiling point,  the vapour
                                              is largely composed of
                                              copper ions
 3  Theory of  arc   Cooling of arc plasma is based on the bubble theory,  Deionization  of  N,  (0, Deionization  of N,  and   Deionization of free   Deionization of copper
 quenching and   H,  cooling it by the turbulence caused by  H2 bubble  having a small content, has  0, by  a strong blast of   sulphur electrons S",   ions is natural and extre-
 extinction, through   no significant influence)  air. The deionization   takes place through their   mely  fast
 deionization of  arc   by  lengthening  of  the arc  force remains the same   absorption by  the
 plasma   plasma through the arc   for one size of  breaker,   fluorine ions F
 chutes, as a result of mag-  irrespective of the   (electronegative theory)
 netic field induced in the  current
 metallic splitters of the arc
 chute by the inductive arc
 plasma
 4  Number  of no-load   Min.  1000   Min.  1000   Min.  1000   Min.  1000   Min.  5000   Min.  10 000-20  000
 operations (depends
 uponthearcenergy:  the
 lower the arc energy,
 the higher  will  be the
 number of  operations
 and vice versa).
 5  Maintenance   High, to check the con-   Checking the condition of  Very  low  maintenance  except  for checking  the  Requires very  little   Requires very  little
 dition of oil, contacts and  oil is more frequent, in   condition   maintenance,  except   maintenance,  except
 arc quenching tins and   view of  smaller quantity  of  the  arcing contacts  for any  wear, tear or pitting   periodic checks of   periodic checks of
 devices   of oil            pressure and condition   vacuum and condition of
                             of the contacts   the contacts. Maximum
                                              contact erosion  2-3  mm
 6  Dielectric strength   > 2   >2   1   Compressed air has better  2-3   Nearly  10 times (5 times
 compared to air   than  1                    of oil)
                                   I
                                                     I
 7  Arc energy compared  1   1   -   -   Roughly - (Figure 19.6)  Roughly - (Figure 19.6)
                                                     10
                                   3
 to oil
                             (Contact  erosion  low  and  suitable  for  frequent
                             operations)
 8  Whether suitable to   Yes (but for a limited   No, because of generally  On an LT system, such a  No, bccausc of force of   Yes,  in  all  types  of  arc-  Generally not, because
 interrupt small   number  of  switching   one break  per pole, for   phenomenon has no   air blast even at  small   quenching techniques:   of  extremely fast
 inductive   operations), because  of   breakers  12 kV and   relevance, because of   currents which  may   (i)   Puffer type: because  deionization. It has the
 (magnetizing) or   double break per   above, unless the breaker  high  dielectric  strength   develop the tendency to   the flow of gas   tendency to current
 capacitive  currents,   phase that enables quick   is specially designed   between the parting   current chopping. On the   through  the arc is a  chopping. However, in
 without  causing   restoration  of  the   with  extra quenching   contacts compared to the  other hand, it  is possible   function of magni-   view of  continuous
 current chopping   dielectric strength   system through  a jet of   system voltage   that the breaker may fail   tude of current   development in this
 oil       to interrupt the steep   (ii)  Rotating arc type:   field, it has now been
           fronted TRVs         because the   possible to achieve a
                                magnetic  field that  chopping current as low
                                                           (Confd)