Biofuels are low-carbon-energy fuels which when used have reduced the effect on the environment we live today. It is evident that due to increasing energy consumption and emissions of Carbon (II) oxide in the atmosphere have affected the Greenhouse. This is because Carbon (II) Oxide is a very dangerous gas to human beings and can even cause death. The emission of this gas has been largely propelled by the use of fossil fuels in industries and vehicles. It is much used in form of Petroleum. Therefore, the main aim of the research is to determine whether Biofuels are reducing the Green House gas and whether they have advantages over the fossil fuels (Hill et al., 2008)
The research involved experimentation method. For example, a test was done in Brazil to show the impact left on the land used to generate the Biofuels. Field measurements have also been included to get the data based on land and temperature changes, and therefore coming up with the amount of Carbon (II) Oxide produced during the generation of the Biofuels (Pries et al., 2017). It is clear that the production of these Biofuels constitutes to reduce Carbon (II) Oxide production. This data has been analyzed and represented in tables and graphs. This was also achieved through Soil Characterization whereby different soils are exposed to the Biofuel generators and observing the outcomes (Hiederer, 2015)
Therefore, it was undoubtedly noticed that Biofuels are better than fossil fuels but their benefits are only reached to through the method used in their production. It is also evident that when Biofuels are produced using rainforests and through the oxidation peat decomposition methods, they have even more Carbon (II) Oxide emission than the fossil fuels. The method of production involving the use of sugarcane ethanol and soybean biodiesel is one of the best methods with little or no Carbon (II) oxide debts in the atmosphere of the involved environment (Dong, 2017). In general, the use of native perennials would spare the destruction of the native ecosystem, which would be caused by the utilization of the fossil fuels. In addition, the use of Carbon-rich habitats would also increase the Carbon (II) oxide emission and therefore, the best materials to be utilized in the production of Biofuel is waste biomass (Hill et al., 2008)
Guidelines to Assignment Research Papers
These research papers involve much independent work, whereby every research has to prepare for the research early in advance to avoid confusion and illegal employment at the last minute. Mostly, the research involves historical methodologies to come up with the best ideas and methods used by the historian writers in their researches. One will also be prepared to study the past, just as the historians did. It also requires intensive revision of the available books and other materials in preparation for any research.
The final research paper is begun early in advance. It is never written in the last minute, which may involve the last day, week, or a few days. Therefore, in order to perfect the writing skills and to come up with the best information, one must involve benchmarking, which includes drafts, annotated biographies, historical newspaper assignments, proposals, primary source assignments and others. One is also required to generate finding from the research. Before the final paper, one is bound to provide a research presentation. One is also required to give a well-laid research with all grammatical errors evaluated. The best of all, the research should avoid plagiarism where possible. It requires one to paraphrase the content obtained from various materials in their own words. The results should also be brought out clearly. The research should also make sure that their work is accurate and meaningful to the topic of study. Lastly, the research should also ensure that they offer a conclusion that shows the summary of the whole research, the validity and efficiency of the methodologies used, and any problems encountered during the research (Mead, 2017)
References
Dong, F., & Searchinger, T., & Heimlich, R., & Houghton, R.A., & Elobeid, A., & Fabiosa, J., & Tokgoz, S., & Hayes., D & Yu. T. (2017). Use of U.S. Croplands for Biofuels Increases Greenhouse Gases through Emissions from Land Use Change. (Pp 1235-1238). Retrieved from (http://science.sciencemag.org/)
Hiederer, R. (2015). Global distribution of soil organic carbon: Masses and frequency distributions of SOC stocks for the tropics, permafrost regions, wetlands, and the world. (351365). Retrieved from (doi: 10.5194/soil-1-351-2015)
Hill, J., & Fargione, J., & Tilman, D., & Polasky, S., & Hawthorne, P., (2008). Land Clearing and the Biofuel Carbon Debt: Vol 319 (1235-1238). Retrieved from (http://science.sciencemag.org/)
Mead. M., (2017). Modern us history research seminar: Spring Publishers
Pries, H., & Castanha, C., & Porras. R.C., & Torn, M.S. (2017). The whole soil carbon flux in response to warming. Retrieved from (www.sciencemag.org/cgi/content/full/science.aal1319/DC1)
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