Diesel versus Biodiesel Peanut Oil
The diesel engine is built of four main cylinders that rotate four various strokes that are maintained cylinders. The intake stroke which is the first stroke allows the cylinder to intake air via the walls. The air is thereafter compressed which leads to an increase in temperature that is known as the compression stroke. The diesel, as illustrated in figure 1, is injected that results in the ignition as a result of the temperature along compressed air. Such ignition results in pushing of the crankshaft back to the bottom. The air is pushed out of the cylinder by the fourth stroke. The car runs as a result of the reciprocating motion of cylinders that allow working of the engine. The engine runs off chemical formula C10H14 identified as diesel type.
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In as much as diesel fuel may be grouped into numerous chemical formulas, 1, 3-diethyl benzene is of specific interest in this study. Benzene could be grouped as an aromatic. Aromatic refers to the carbon atoms which are organized into a ring and linked using aromatic bonds that are not similar to single bonds. Such a ring of carbons is composed of six of the ten benzene formulae as the remaining four hanging onto the exteriors in the form of diethyl. How economical in terms of cost and friendliness to the surrounding and community is the fuel? Peanut oil is yet another biodiesel that can run an engine. Biodiesel defines a liquid that is extracted from fats and oils of vegetables, for instance, peanut oil.
Peanut oil that may be changed to biodiesel is made up of carbon, hydrogen, oxygen as well as nitrogen and has the chemical formula C30H45N9O5. Not all the parts are used in the combustion of heat nevertheless. The chemical formula C57H104O6 is made up of unsaturated fatty acids as well as glycerol from peanut oil. A peanut is made up of about 50 percent oil that generates energy. The concern thus remains which of the fuels would prove more beneficial when it comes to powering the vehicle engines.
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The making of diesel fuel starts at crude oil where the oil is taken through the process of refining that involves changing it to lighter diesel fuel. The crude oil is put in a tower and heated for temperature more than 400 degrees Celsius. Vapor is attained from the boiling liquid that is then distilled in the tower. When the oil is undergoing cooling, it is grouped into various fuels one of such being diesel fuel as demonstrated in figure 4. Biodiesel production from peanut begins with planting and picking of the nuts which are then taken to an oil pressure in which they are pressed physically in the presence of heat to produce a cake.
https://pubchem.ncbi.nlm.nih.gov/compound 1
Approximately 363kg may be used in feeding animals which is about 379 liters of crude oil that is usable. The oil then undergoes filtration severally to ensure any possible access matter is eliminated and then put into a reaction tank. A catalyst made of sodium hydroxide and methanol is added in the tank resulting in a reaction that converts peanut oil to methyl ester which means a diesel fuel. The fuels are taken to fuel trucks upon creation which are then distributed to petrol stations. A certain amount of energy is produced when fuel is put into an engine.
As demonstrated in Appendix 1, 11201 kJ/mol is produced of energy for the case of diesel fuel. This value is negative meaning there is an exothermic reaction that results in the production of heat. Such a reaction as well offers insights into why there is heating of the car engine as a result of the reaction. Nevertheless, in case the biodiesel created out of peanut oil is used in powering the engine, there is a production of -32972 kJ/mol of energy being released making it an exothermic reaction as well. It may be noted that the biodiesel peanut oil produces more energy in comparison with diesel from observation. More energy being produced translates to more power of the car.
There are two kinds of emissions that may impact it within the surrounding. One such is greenhouse gas emission which is inclusive of carbon dioxide that is released into the atmosphere. The carbon dioxide may be trapped into the earth’s atmosphere upon being released resulting in more heat that generates climate change as well as the greenhouse effect. Climate change is defined as the alteration in the weather pattern that is the change in the atmospheric rainfall, humidity, wind as well the as temperature. The greenhouse effects define warming on the surface of the earth as well as suspended air. The major greenhouse gas tends to be carbon dioxide that most of the automobiles generate from using fuels.
Going by the Australian Government Initiative, the mean combined carbon dioxide emissions in 2007 for a new light vehicle that is sold in Australia was about 182 gram/km. Nevertheless, as per Bioenergy Australia, a litre of biodiesel lowers net carbon dioxide emissions by more than 95% hence a litre of biodiesel will be able to save to the tune of 2.5kg of carbon dioxide. Suppose 20% of the used diesel is substituted by biodiesel is Australia, this may save about 118 million tons of the emitted carbon dioxide every year. The demand for diesel, however, in 2014 in Australia was quoted to be 229 million liters of fuel. Besides, 17kg of carbon dioxide every liter is released into the atmosphere each time it is burnt in an engine. Hence, biodiesel may lower the number of emissions of greenhouse gas of carbon dioxide that will be of benefit to the surrounding.
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In addition to the environment as well as social perceptions on the topic, the production costs price, as well as selling prices, may as well be analyzed. The production price and selling price may change each year as a result of updates as well as advancements in technology. The update in the knowledge and machinery that is acquired throughout the years as well as aid in the variation of cost price and production. The production price was about $0.8 per liter for diesel fuel in 2006. The cost price for the production of biodiesel peanut oil was about $0.7 per liter in 2006 meaning that the difference in the cost of production between the two fuels is $0.1. This might not necessarily sound like a big gap between the two fuels but upon production in large fuel quantities, the gap gains significance.
Still, it may be noted that the selling prices of the fuel tend to be different completely. The purchase cost of diesel in 2001 was $1. 5/liter while biodiesel cost $.2. The cost prices of the two fuels may be noted to be more than the selling price since, during the discussed time, manufacturing of the fuel was being updated to befit the year and the technology advancements. Hence, by looking at the production of fuels, it may be noted the prices tend to be close but when considering the quantity that is produced, there tends to be a large variation. Still, the prices of biodiesel, as well as diesel, may note that the biodiesel fuel burns less money off the pockets in comparison with diesel.
Recent research has demonstrated all diesel as well as biodiesel may result in cancer. The use of biodiesel in traditional engine significantly lowers emissions of hydrocarbons, sulfates, carbon monoxide, aromatic hydrocarbons as well as particulate matter. Upon inhaling such chemicals, long term health complications tend to have a higher development risk. Such risks may be inclusive of bladder cancer and lung solution. As per the Cancer Council website, diesel engine exhaust has been rated as the second most cancer-causing agent works are unveiled behind the exposure to ultraviolet radiation. It is approximated about 1.2 million Australian employees had direct exposures in 2011. Biodiesel fuels may lower the chemicals within the air as well as the compounds that lower cancer. Risks of cancer are lowered by 94 percent by using pure biodiesel fuels in engines.
Research states that burning of pure biodiesel lowers the emission by more than 75 percent in comparison with petroleum diesel. Using a mixture of 20 percent diesel lowers the emission of carbon dioxide by 15 percent. Diesel fuels are made up of sulfur that may be emitted into the air, nevertheless, biodiesel doesn’t mean the sulfur dioxide emission is ignored. Hence, diesel fuels may harm human health as a result of the chemicals it produces into the atmosphere thus biodiesel manufactured from peanut oil would tend to be more favorable in adoption in engines.
Biodiesel is hence is likely to be more suitable for running a car as diesel produces more greenhouse gas emissions within environment, for instance, carbon dioxide into the air that traps the heat into effects of climate change in the atmosphere. Still, the price of production of fuels is insignificantly different even though on a larger scale they tend to be distant apart. The selling price of such fuels demonstrates a large variation of $1.3 with the biodiesel being a cheaper option. A conclusion can be made that biodiesel fuel would be better in powering an engine in comparison with diesel fuel. This is since diesel fuel produced more chemical products into the air that may enhance the risk of cancer. With a view of the different perceptions of the topic on fuels, it may be outlined that biodiesel tends to be more beneficial for the atmosphere. Hence, when it narrows down to the fuel that one would select in making a better future.
References
- Biofuels Association of Australia. (n.d.). Effect of biodiesel on emissions – Biofuels Association of Australia. [online] Available at: http://biofuelsassociation.com.au/biofuels/biodiesel/effect-of-biodiesel-on-emissions/ [Accessed 3 Aug. 2019].
- Britannica Kids. (n.d.). greenhouse effect. [online] Available at: https://kids.britannica.com/kids/article/greenhouse-effect/403919 [Accessed 19 Aug. 2019].
- Cancer.org.au. (n.d.). [online] Available at: https://www.cancer.org.au/preventing-cancer/workplace-cancer/diesel.html [Accessed 16 Aug. 2019].
- Greenvehicleguide.gov.au. (n.d.). Vehicle emissions | Green Vehicle Guide. [online] Available at: https://www.greenvehicleguide.gov.au/pages/Information/VehicleEmissions [Accessed 20 Jul. 2019].
- Inforse.org. (n.d.). BIODIESEL. [online] Available at: http://www.inforse.org/europe/dieret/altfuels/biodiesel.htm [Accessed 7 Aug. 2019].
