Friday, February 23, 2024

2nd Generation Biofuel with Biodiesel Production from Calophyllum Inophyllum and the Like

Biodiesel production from CPO is a 1st generation biofuel where the raw material competes with food products, which of course is not good. Biodiesel production from oils that do not compete with food products will be much better. The image of producers and even their country will also be improved if the program can be carried out on a massive scale. There are a number of trees that produce oil for biodiesel production. The selectivity of plant types related to productivity, climatic conditions and so on is certainly a serious consideration if production is on an industrial scale. Nyamplung oil (calophyllum inophyllum oil) is one of the best solutions because apart from high oil productivity, the productive period is long, and the logs after the productive period are also economical or have high selling value.

The productivity of calophyllum inophyllum oil competes with palm oil, whose productivity is around 6 tons/hectare/year, but caring for calophyllum inophyllum trees is easier and cheaper. Meanwhile, jathropha has lower productivity so it is less attractive and profitable to develop. Calophyllum inophyllum trees that grow well in the lowlands or on the coast will be very suitable for Indonesia as an archipelagic country. Indonesia has a coastline of 99,093 km or the second longest in the world after Canada. And it would be even better if the calophyllum inophyllum plantations on the coast also coincided with coconut planting. Indonesia is famous for its land of coconut islands, which generally grow well in coastal areas. Coconut trees also have many benefits from almost all their parts. If this happens, optimization of renewable energy production, namely biofuel in the form of biodiesel from calophyllum inophyllum oil and food products, especially those based on coconuts.

The transportation sector itself contributes 14% of CO2 emissions globally or 27% in Indonesia. Biodiesel produced by transesterfication reaction (C6-C22 chain) has very similar properties to diesel oil so it can be used 100% in diesel engines without the need for modification or mixing/blending with certain portions. Biodiesel contains 10% oxygen and zero sulfur, which makes engine combustion more complete and efficient. Liquid fuel also has its own advantages over gas fuel, including easy use and storage, and most existing vehicles use liquid fuel, so they can be used straight away. The development of biofuel as a carbon neutral fuel needs to be prioritized as part of decarbonization, especially for 2nd Generation Biofuel because it does not conflict or compete with food.

For 2nd generation biofuel from biomass or lignocelullosic biomass (such as wood waste), biodiesel production is still high cost. There are two process routes for biodiesel production from lignocelullosic biomass, namely gasification for syngas production followed by the Fischer-Tropsch (FT) process and fast pyrolysis for biooil production followed by hydrotreating and catalytic cracking processes. This is what makes biodiesel production in this way not possible even though it is technically possible. The raw materials for lignocellulosic biomass are much cheaper because they are generally categorized as biomass waste. However, the complexity of the production process makes production costs expensive, so it is not yet an option.

Meanwhile, for 3rd generation biofuel, namely from microalgae, even though the potential is huge, the productivity can even be more than 16 times the productivity of palm oil or calophyllum inophyllum oil (6 tons/hectare/year for palm oil and calophyllum inophyllum, while oil from microalgae reaches 100 tons/hectare/year ) but it seems that it still takes time to enter the commercialization stage. Problems related to cultivation, harvesting and oil extraction also still require extensive research. By producing biodiesel from calophyllum inophyllum oil, biodiesel production from CPO can be gradually reduced. The larger the calophyllum inophyllum plantation, the greater the biodiesel product produced, so that palm oil or CPO can be specialized as edible oil or specifically a food product. Likewise, it is hoped that oil from coconut will increase along with the growth and development of biodiesel production from calophyllum inophyllum oil.

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