Reviving the Integrated Coconut Industry Part 6: Integration of Dessicated Coconut Production, Packaged Coconut Water, and Shell Charcoal

Basically the campaign to save the coconut plantation (tree of life) is to revive the integrated coconut industry. Damaged and not maintained of coconut plantations due to lack of funding to maintain and develop it in a sustainable manner.

Bioeconomy is defined as knowledge-based production and uses biological resources or living things to produce products, processes, and services in the economic sector within the framework of a sustainable economic system.

Dessicated coconut is not very popular in Indonesia. This product is used in the food industry for a mixture of cakes and chocolate so that it gives the flavor of coconut and much later became a favorite food in Europe. This product was originally discovered in Sri Lanka from Henry Vavasseur's drying experiment of grated coconut in 1888. There are 3 countries that are currently producing dessicated coconut, namely the Philippines, Sri Lanka and Indonesia. The need for this dessicated coconut product also continues to increase, namely recorded export of dessicated coconut in 1990 amounting to 151 thousand tons and in 2008 it increased to 248 thousand tons. In Indonesia alone, it is estimated that there are around 20 dessicated coconut (DC) factories.

DC is produced by drying grated coconut until the water content reaches a maximum of 3%. A dryer commonly used for DC production is a fluidized bed dryer. This dryer has advantages including high sensitivity for its operations, so it is commonly used for food and pharmaceutical products. Rotary dryer is a type of dryer that is also popular in the industry, especially in biomass processing such as wood pellets and briquettes, for more details, please read here. Rotary dryer types are more suitable for materials that are not too sensitive to heat, are not easily broken when dropped and heavier materials. That is why rotary dryers are more suitable for materials such as minerals, fertilizers and so on. Rotary dryer can be said to be heavy duty processing load and requires a wider space, while fluidized bed dryer for lighter-duty materials and requires less space.

For drying the grated coconut, heat energy is needed and for the operation of the plant's equipment such as shredding, conveyors, etc. electricity is needed. Both of these energies can be fulfilled by using a continuous pyrolysis unit. Coconut shell is used as a raw material for continuous pyrolysis, so that the output is in the form of charcoal, syngas and biooil. The charcoal can be sold for immediate use, made briquettes or activated carbon. For electricity production, syngas is used for fuel the gas engine (internal combustion engines) which convert heat energy into mechanical energy then into electrical energy. And biooil can be a source of heat both for boiling or sterilizing coconut meat as well as for a heat source for drying grated coconut with the heating media not in direct contact (indirect heating) with the grated coconut.

With the above pattern, the integrated coconut industry is energy independent or does not require energy supply from outside. This condition is very attractive especially for operations in remote locations. This energy independent industry practice is common in the palm oil industry. Palm oil mills usually burn shells and fiber for the production of electricity and steam. Why besides electricity, does the palm oil mill also produce steam? For more details, you can read here.

At present a number of palm oil mills have even used efficient boilers so that it is sufficient with fiber only and the shell can be sold or exported abroad. Though there is a better or more efficient way to produce electricity and steam, which is also by continuous pyrolysis, for more details read here. The shell, which is a biomass fuel, has properties almost similar to wood pellets at a cheaper price and is still abundantly available. Japan and Korea are the two countries in Asia that are most striking in the use of biomass energy related to climate change mitigation and global warming.

Coconut shell charcoal is a sought-after product, so the price is also increasing every year in accordance with market laws, namely supply-demand. The production of coconut shell charcoal will provide an attractive additional income compared to just being burned to ash and making a zero waste integrated coconut industry.

The DC industry is usually large enough in scale or production capacity to produce quite a lot of coconut water. Coconut water can be processed into bottled coconut water, which also requires electricity and heat in the production process. Electricity and heat production can use coconut fiber as fuel. Burning coconut fiber to heat the boiler and produce electricity, similar to the palm oil mill. Steam is produced to heat or sterilize the coconut water. The demand for bottled coconut water increased rapidly, from 484 thousand liters in 2009 to 71.7 million liters in 2015, or 141 times.