PKS loading for export
The demand for biomass fuels as renewable energy, including PKS (palm kernel shells), is growing in line with the global decarbonization trend. Likewise, the use of biofuels such as biodiesel is also increasing. Biomass fuels like PKS and biofuels like biodiesel are both carbon-neutral bioenergy products. Both can be produced from palm oil trees. Biofuels like biodiesel are primarily used in the transportation sector, while biomass fuels like PKS are used for power generation or industrial boiler fuel. Palm oil produces its primary product namely crude palm oil and crude palm kernel oil (CPO and CPKO), while the PKS are byproducts or waste, such as EFB (empty fruit bunches) and mesocarp fiber.
Over time, the demand for palm oil has also increased, commensurate with population growth, and its use in the energy sector (biofuel) is even greater than in the food sector. To stabilize prices and avoid sharp fluctuations in palm oil prices, the Indonesian government launched the B-50 program, which uses 50% biodiesel from palm oil and 50% diesel from petroleum. With the B-50 program, palm oil demand has increased by approximately 20% over current average production.
This necessitates increasing palm oil productivity. One such effort is the use of superior seeds. By maximizing CPO production from mesocarp fiber, these superior seeds have thick fiber, thin shells (even shellless), and small kernels. The Psifera variety, with its various unique names by seed producers, is an option for this purpose. These superior seeds are even certified to assure consumers of their quality.
The initially thick PKS of the dura variety, which are favored and most sought after by PKS exporters for use in power plants, will gradually decline. However, considering the slow pace of replanting programs and minimal extensification efforts, the transition from dura to psifera PKS will be lengthy. PKS exporters can still safely export thick dura PKS. The less thin tenera PKS, as a transition to psifera, will likely become more common.
If very thin psifera PKS become commonplace, their calorific value will be low and they will be less desirable for energy applications. If this occurs, special treatment is required to make the psifera PKS more technically and economically viable for energy use. This can be achieved through compaction/densification or processing through torrefaction or pyrolysis to produce higher fixed carbon and calorific value. Furthermore, they can be compacted/densified into pellets or briquettes.
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