Which is Better, Efficient Boiler or Pyrolysis System ?

Fiber and palm kernel shells (PKS) are palm oil mill solid wastes that are produced in CPO production in that mill. The amount of fiber and PKS waste is quite a lot, which is around 20% of each fresh fruit bunch (FFB) or almost the same as the CPO produced. A palm oil mill with a capacity of 60 tons / hour FFB can produce fiber as much as 8.1 tons per hour or 194.4 tons per day and PKS of 3.3 tons / hour per hour or 79.2 tons per day. And because both of them are waste, generally the utilization of the waste is not initially considered, including for use as fuel in boilers in palm oil mills for the production of electricity and steam. The use of fiber and PKS for boiler fuel generally uses 100% fiber and about 30% of the PKS. Under these conditions the remaining 70% of the PKS can be used for other things including being sold or even exported.

When the shell becomes a commercial commodity and demand is greater, palm oil mills replace their old inefficient boilers with new boilers that have a high level of efficiency. In this way, 100% of the PKS is no longer used to boiler fuel and only requires fiber as fuel. In this condition a paradigm shift in thinking begins to occur, that is when the solid waste is almost unnoticed and tends to be considered a problem, then it becomes an important part of earning additional income and it can even be estimated that if the shell is successfully sold then it is sufficient to cover the operational costs of the palm oil mill. Certainly something interesting if the production of CPO (crude palm oil) with 0% operational costs so that profit is increasingly attractive especially amid the recent decline in CPO prices.

Another thing that can be done is to use a pyrolysis unit, to run the boiler. With pyrolysis, not only fiber is used but also the empty fruit bunch (EFB). EFB are solid palm oil mill waste which to date have generally not been utilized. Besides producing energy, pyrolysis also produces products in the form of charcoal (biochar). Although charcoal (biochar) can also be used for energy sources, but in the business of palm oil companies the use of biochar for plantations can be more compatible. The use of biochar in palm oil plantations is mainly to  fertilizer saving, which is one of the major cost components (around 30%) in the CPO production business. With an area of ​​20 thousand hectares of oil palm plantations, fertilizer costs are estimated to reach Rp. 71.50 billion (around US$ 5 million) per year or Rp. 35.75 billion (around US$ 2.5 million) per year for every 10,000 hectares, for more details, please read here. Palm oil mills with big vision certainly try to maximize their potential with the aim of maximizing profits from upstream to downstream production activities. With Biochar can also target the increase in productivity of FFB, for more details, please read here.

The application of biochar will be easier to do in Indonesia than in Malaysia, this is because almost all palm oil mills in Indonesia also have palm oil plantations while in Malaysia the mills generally do not have their own palm oil plantations. The palm oil industry also has an important role for the two countries because Indonesia and Malaysia are the largest CPO producers and owners of biggest palm oil plantations in the world today. The palm oil industry contributes around 7% of Malaysian GDP and 3% of Indonesian GDP, so its role cannot be ignored. Both with pyrolysis and high efficient boilers, biomass waste can be used as an energy source and 100% of the PKS can be commercialized, but with pyrolysis is better because waste of EFB can also be processed, there are biochar product (while only ash if only with regular combustion) for Fertilizers saving in the palm oil plantations and the exhaust gases from the palm oil mill boilers are also clean because they burn gas (syngas) produced from the pyrolysis process.