Palm Oil Mill Operation with Pyrolysis and Biogas Unit Integration for Zero Waste, Maximizing Profits and Sustainability

The goal of a palm oil mill to achieve zero waste, maximum profit, and sustainability can be achieved, among other things, through the integration of pyrolysis and biogas unit. This is because nearly all solid and liquid waste from the palm oil mill can be processed into products needed by the palm oil industry, both in the palm oil mill for CPO (crude palm oil) production and on the palm oil plantation for FFB production. With pyrolysis, solid waste is converted into biochar, producing excess energy in the form of syngas and biooil for boiler fuel. Biochar is first used to increase biogas production before being applied to plantation or agricultural land. 

The biogas product can also be used as fuel for palm oil mill boiler, along with syngas and biooil. This method allows 100% of the palm kernel shell (PKS) to be sold or even exported, thus providing additional profits for the palm oil industry. Currently, 30-50% of the palm kernel shell (PKS) is generally used for boiler fuel, mixed with mesocarp fiber, and the remainder is sold or exported. Biochar production with pyrolysis. The biogas product can also be used as fuel for palm oil mill boiler, along with syngas and biooil. This method allows 100% of the palm kernel shell (PKS) to be sold or even exported, thus providing additional profits for the palm oil industry. Currently, 30-50% of the palm kernel shell (PKS) is generally used for boiler fuel, mixed with mesocarp fiber, and the remainder is sold or exported. Biochar production by pyrolysis can utilize both coconut fiber (MF) and empty fruit bunches (EFB) of palm oil. The integration scheme is as follows:

 

The use of biochar on plantations and agricultural lands will save or reduce the use of chemical fertilizers. This is especially true for oil palm plantations, where the largest operational cost is the use of chemical fertilizers. Reducing chemical fertilizer use will result in savings in fertilizer costs. Furthermore, it will provide other environmental benefits, reducing environmental impacts by minimizing waste from excessive chemical fertilizer use. Biochar slow-releases chemical fertilizers, increasing fertilizer efficiency or Nutrient Use Efficiency (NUE). Furthermore, when combined with biochar and organic fertilizer from biogas residue, the slow-release capacity of chemical fertilizers is further enhanced, resulting in higher NUE. Furthermore, another pyrolysis byproduct, pyroligneous acid (PA), is also highly beneficial for palm oil plantations as a liquid organic fertilizer and biopesticide.

Another source of income is carbon credits, or BCR (biochar carbon removal). Furthermore, carbon credits are currently a strong motivator for producers to produce biochar. To obtain these credits, biochar producers must register with a carbon standards organization and follow their methodology. Some popular carbon standards organizations include Puro Earth, Verra, and CSI. Meanwhile, for biogas production, carbon credits can also be obtained through methane avoidance mechanisms. However, the price of biogas from methane avoidance is usually lower than carbon credits from carbon removal or carbon sequestration with biochar. However, both can be accumulated and yield greater profits.

The operational potential of palm oil mills with integrated pyrolysis and biogas units for zero waste, maximizing profits, and sustainability is enormous and is predicted to become a trend because financial returns align with environmental benefits. Furthermore, environmental and sustainability issues are currently a global concern. With approximately 17 million hectares of palm oil plantations and 5.5 million hectares in Malaysia, the potential for biomass waste, particularly EFB and mesocarp fiber for biochar production, and POME waste for biogas production, is abundant. Globally, palm oil plantations cover nearly 27 million hectares. By 2024, Indonesia will be the world's top CPO producer with 56%, followed by Malaysia with 26%, and Thailand with 5%. There are more than 1,000 palm oil mills in Indonesia and approximately 500 in Malaysia.