Fuel oils, lubricating oils and  their  treatment  153

           The  various  types  of  engine  and  other  equipment  will  have  oils
         developed  to meet  their  particular  duties.
           Trunk piston engine lubricating oil must lubricate the cylinders as well
         as the crankcase: some contamination from  the  products of combustion
         will  therefore  occur,  resulting  in  acidity and  carbon  deposits.  The  oil
          must,  in  addition  to  lubricating,  neutralise  the  acids  and  absorb  the
         deposits.
            Turbine  oil, while lubricating the  moving parts, must also carry away
          considerable quantities of heat from  the bearings. This calls for a stable
         oil  which  will  not  break  down  at  high  temperatures  or  form  deposits.
          Where  gearbox  lubrication  is  also  required  certain  extreme  pressure
          (EP)  additives  will be  needed  to assist the  lubricating film. Contact with
          water  in  the  form  of  steam  will  be  inevitable  so  good  demulsifying
          properties  will  be essential.
            Slow-speed  diesel  engines  will  have separate  cylinder and  crankcase
          lubrication  systems. The  cylinder oil  will  have  to  neutralise  the  acidic
          products of combustion and also have good detergent properties to keep
          the  metal,  surfaces  clean.  Crankcase  oils  are  either  detergent  type,
          multi-purpose oils or rust and oxidation inhibited.  Good  demulsification
          and  anti-corrosive  properties  are  required  together  with  oxidation
          resistance  which  is  provided  by  the  inhibited  crankcase  oil.  The
          detergent  or multi-purpose  oil is particularly  useful  where oil cooling of
          pistons  occurs  or  where  contamination  by  combustion  products  is
          possible.


         Oil  treatment


         Both  fuel  oils  and  lubricating  oils require treatment  before  passing  to
         the  engine.  This  will  involve storage  and  heating to allow separation  of
         water present, coarse and fine filtering to remove solid particles and also
         centrifuging.
           The  centrifugal separator is used  to separate two liquids, for example
         oil and  water, or a liquid  and  solids as in contaminated  oil. Separation is
         speeded  up  by  the  use  of  a  centrifuge  and  can  be  arranged  as  a
         continuous  process.  Where  a  centrifuge  is  arranged  to  separate  two
         liquids,  it  is known as  a  'purifier'.  Where  a  centrifuge  is arranged  to
         separate  impurities and  small amounts of water from  oil it is known as a
         'clarifier'.
           The  separation  of  impurities and  water from  fuel  oil is essential  for
         good  combustion.  The  removal  of  contaminating  impurities  from
         lubricating  oil  will  reduce  engine  wear  and  possible  breakdowns.  The
         centrifuging  of all but  the  most pure clean oils is therefore  an  absolute
         necessity.