What Is Croton Nut Biofuel?
There are several generally accepted replacements for fossil fuels. One way is to make all of cars, motorcycles, trains and planes, electric drive. Then we simply use solar or wind generation to make clean electricity and the war is won right?
Or maybe we can come up a replacement liquid fuel that can be used into today’s combustion engine cars! I am not talking about turning coal or natural gas into synthetic gasoline,diesel or aviation fuel. This is just a pathway to certain climate disaster. I am talking about the development of liquid biofuels that can either be used in a combustion engine or maybe in a yet to be developed fuel cell that can transform it into electricity with generating co2.
There are plenty of ways to make vegetable and waste cooking oil usable in a diesel engine already today. Researchers around the globe are developing plants and even algae that can produce or be used in the production of liquid biofuel. Here are the result of one such research into Croton nut biofuel.
Small-holder farmers in Kenya have the capacity and desire to play a major role in the scale-up of biofuel production from agroforestry, according to a Penn State forest economist, who led a study in the East African country.
Croton trees, which seem to grow everywhere in Kenya and the oilseeds they produce have the potential to improve rural livelihoods, said Michael Jacobson, professor of forest resources, College of Agricultural Sciences. Through the production of oil for energy and co-products, such as animal feed and organic fertilizer, croton represents an opportunity many poor farmers are eager to take.
That is the conclusion Jacobson reached after surveying hundreds of Kenyan farmers and meeting with them in villages across four counties in the central region of the country. The objective was to assess household preferences for planting and cultivating croton trees for collection and selling of nuts to a growing market.
Researchers gathered and analyzed demographic data on income, household size, age, other occupations and village from farmers to determine if those factors influence their preferences.
The Promise for Croton Nut Biofuel.
Farmers were presented with production scenarios and asked to make choices depending on seedling cost, oilseed yield, tree-maturation period, labor needed for seed collection and seed selling price. Results show that almost all households have croton trees on their land and are willing to produce croton nuts. More importantly, Jacobson noted, most would be willing to plant more croton trees.
Many small farmers, although land constrained, have access to land to plant groves of croton trees if they become sold on the idea,” he said. “If they knew that there was going to be a dedicated market for croton, they would certainly add trees to their farm household lands.
Seed price is the most dominant concern cutting across all socio-demographic characteristics, Jacobson pointed out. “Time and labor constraints were significant for some households,” he said.
Farmers are more averse to longer tree-maturation periods than non-farmers, while those already collecting seeds for the nascent croton industry are less concerned about the opportunity costs of time and labor than non-collectors.
The research stemmed from the World Agroforestry Centre’s examination of the sustainability of the infant croton-tree value chain in Kenya with the intent to support its up-scaling. Initial studies indicated the business holds significant potential for generating additional income and improving local livelihoods, without jeopardizing the environment.
The international organization invited Jacobson to assess whether small farmers could play a significant role in the scale-up of the business.
“To ensure economic sustainability in the long term and scale-up the value chain, a consistent, reliable and economical supply of seeds must be secured to support large bio-refineries,” Jacobson said.
Croton nut biofuel offers a significant opportunity in East Africa — it can play an important role in providing income opportunities and meet the needs of poor farmers, maybe even lifting them out of poverty. I am not saying that croton production and biofuel will save Africa, but I know others have.
Findings of the research, which were published in late November in Forest Policy and Economics, provide guidance for the development of a croton value chain that Jacobson believes biofuels entrepreneurs will use in their business plans.
“If I were an entrepreneur in East Africa and I wanted to start a croton business, I would use this information to determine where best to locate and how to provide incentives for production,” he said.
The statistical analysis we performed is likely to lead to further development of the croton biofuels industry in Kenya. It gives credence to the opportunity and provides critical information to entrepreneurs to better understand farmer characteristics.
Development of the croton biofuel industry has been hampered by falling prices of diesel fuel. One company that has been trying to develop the market and produce croton biofuel, Eco Fuels Kenya, is struggling to find support. Jacobson has worked with that company’s management to help them understand ecological conditions that affect the planting of croton and the profit potential for byproducts.
About the Research into Croton Nut Biofuel
Also involved in the research were Yau-Huo Shr, a graduate student in agricultural economics at Penn State when the research was conducted; Floris Dalemans, University of Leuven, Belgium; and Christine Magaju and Rodrigo Ciannella, World Agroforestry Centre, Kenya.
The World Agroforestry Centre and the International Fund for Agricultural Development, through the Program for the Development of Alternative Biofuel Crops supported this work.
Croton nut biofuel is not the total solution to replacing fossil fuels but it is thinking like this that will allow us to come up with enough different types of sustainable biofuel production that in the end let us win the war on fossil fuels.