The Urgency of Biochar Application on Palm Oil Plantations in Indonesia

The large number of acidic soils in Indonesia that are used for palm oil plantations makes the productivity of palm oil fruit or the resulting FFB (fresh fruit bunch) not optimal. The acid soil covers the largest dryland area in Indonesia. It occupies approximately 55% of the total land area (191.09 million ha) in Indonesia. About 107.36 million ha of all Indonesian acid soils is classified as dryland acid soils and the rest (14.93 million ha) as peat soil. Acid soils in Indonesia are distributed amongst the big islands, such as Kalimantan (39.42%), Sumatera (28.81%), Papua (18.03%), Java (7.77%), and Sulawesi (6.95%). Acidic soils with low pH make nutrient absorption low in plants and so do soil microbial activity, which plays a large role in soil fertility. This condition should not be ignored because besides making the cultivation of palm oil plantations not optimal, there will also be a lot of fertilizer used. This makes the operational costs of  palm oil plantation operation high. Biochar is a biomass pyrolysis product that is effective and efficient in overcoming these problems. With the abundant amount of biomass waste produced by palm oil mills or CPO mills as biochar raw materials, efforts to improve the quality of plantation soil should be easy to do and have even become the operational standard for these plantations. But the fact is not.

 

Why hasn't biochar been used to improve soil quality and thus increase the production of palm oil fruit or FFB? The lack of information and education about the benefits and uses of biochar are the main factor. This of course makes the application of biochar in palm oil plantations not yet done even though palm oil mills have abundant biomass waste such as empty palm fruit bunches (EFB) and fiber which are generally not used and cause environmental problems. The priority for processing EFB compared to other products such as EFB pellets or compost also needs separate considerations. The best choice, of course, is based on a comprehensive study according to the characteristics of the business or business will be built. Consider not only short-term economic benefits, but also environmental and long-term benefits is an important thing. 

 

Quantitatively, an increase in the production of palm oil fruit or FFB, an increase of at least 20% with the application of biochar is something that is normal. And a 20% increase in fruit production will also result in a big profit. Productivity of a number of other agricultural commodities can be increased by 30%, 40% or even more than 100%. The low productivity of palm oil fruit in Indonesia can be increased by the application of biochar, which is particularly effective in improving the soil quality in the palm oil plantations. Moreover, about 80% of the components of the cost of producing crude palm oil (CPO) come from the plantations, and 20% in the processing sector (palm oil mills). The operational costs of palm oil mill plantations, especially fertilizers, can also be reduced by the use of biochar. The priority of liquid biofuel development will also get better if the volume of biofuel raw materials such as CPO increases. This shows the strategic role of biochar. Apart from that from the aspect of climate change, biochar will also absorb CO2 concentrations in the atmosphere or reduce the concentration of greenhouse gases, as a solution to today's world problems.  

 

Meanwhile, from the side of the palm oil mill, another advantage obtained from biochar production is the use of excess energy from the pyrolysis process or the production of biochar as an energy source for the boiler. Boiler feed water (BFW) will also be preheated twice when it is used for cooling in the pyrolysis condenser and then the economizer on the boiler. In this way, the energy needed by the boiler decreases. When the boiler energy source uses the energy source from pyrolysis, this means that the palm kernel shell (PKS) can be taken and used for other things and can even be sold directly for local and export markets. The main obstacle to business development in the palm oil industry is the availability of energy source namely electricity. If the energy source is available, the development of palm oil-based businesses is very open and varied, such as the production of CPO derivatives, palm kernel shell processing, PKO production, PKO derivative production, biomass power plants and so on.  

The Big Vision of the Palm Oil Mill: Not Only Generating Electricity with Steam Turbine Generators but also Biochar and Bio-Oil

At the palm oil mill, electricity is generated from a steam turbine generator so a water treatment unit is needed to provide boiler feed water and a boiler unit to produce steam. The specifications of the steam produced are superheated steam with a pressure of 30 bar or equivalent to a temperature of 240 C. The steam then powers the turbine and drives the generator to produce electricity. Steam that comes out of the turbine with a decrease in temperature and pressure is not thrown away, but is used for steamming fresh fruit bunches (TBS) in the sterilizer unit. That is the reason why electricity production in palm oil mills uses steam turbine generators, even though actually producing electricity does not have to use the steam turbine. There are a number of technologies that can be used for electricity production.

The boiler fuel for steam production also does not use fossil fuels but uses palm oil mill waste itself (mesocarp) fiber and palm kernel shell (palm kernel shell). This is what makes palm oil mills very environmentally friendly in terms of their use of energy sources because they use biomass fuels, namely solid waste in the form of (mesocarp) fiber and palm kernel shells. Judging from the environmental aspects of the use of biomass fuel is carbon neutral, so it does not add CO2 in the atmosphere. Environmental issues are very prevalent today due to a number of environmental damage, to the peak of climate change and global warming. This encourages various industrial activities to increasingly pay attention to these environmental aspects.

When a palm oil mill uses its biomass waste as fuel to produce electricity and steam for the operation of the plant and it produces waste or residue in the form of ash, that is something that is common to almost all palm oil mills today. But when the palm oil company has a bigger vision, what is produced besides electricity and steam is biochar, not ash. Why Biochar? Although the management of the palm oil company that separates the plantation and mill divisions is common, the implementation of biochar is also expected to make a better reciprocal relationship. At present the palm oil fruits or fresh fruit bunches are supplied to the mill for oil extraction, so when biochar is produced by the mill the biochar will be supplied nto the  plantation to increase the productivity of the palm oil fruits. When a palm oil company will optimize its CPO products it also means maximizing the productivity of its palm oil  fruit. Palm  oil fruits productivity can be maximized if the cultivation aspects are also maximum. Biochar can be used to maximize fertilization and even reduce the use of fertilizers in oil palm plantations which amount to tens of billions of rupiah, for more details, please read here.

Are there palm oil mills that dare to take up the challenge? God knows Nature. But oil palm companies that have a big vision and understand the importance of increasing the productivity of oil palm fruit in line with environmental aspects, should be challenged with this. Oil palm companies that have big visions will also see this as an effective (pro-planet) environmental solution. This is because besides having a positive effect on the productivity of oil palm, also with environmental aspects. The application of biochar is carbon negative, so that CO2 in the atmosphere will be absorbed into the pores of the biochar, thereby reducing greenhouse gases in the form of CO2 in the atmosphere. When tens to hundreds or even thousands of tons of biochar are applied to oil palm plantations, so much CO2 in the atmosphere is absorbed into the soil. Biochar can also survive tens or even hundreds of years so that the carbon content in the soil increases or is not damaged along with the productivity of the palm oil plantation.

In addition to the production of biochar with continuous pyrolysis also produced biooil which can also be used as fuel or processed into various other biomaterials. With characteristics close to crude oil, it also means that all materials that can be produced from crude oil can be produced with biooil. Another application of biooil is for blending with ship oil (marine fuel oil). Other liquid products in the form of biomass vinegar, its use is also very supportive in palm oil plantations, namely as bio-insecticides and bio-pesticides. Rats that attack many palm fruit can also be overcome with the vinegar biomass, for more details, please read here.