Nano Technology Applications, Veritable Tools to Mitigating the Effects of Generator Exhaust Fumes on the Environment, the Onitsha Scenario, Anambra State, Nigeria
American Journal of Physics and Applications
Volume 3, Issue 6, November 2015, Pages: 238-242
Received: Feb. 15, 2015;
Accepted: Mar. 23, 2015;
Published: Jan. 21, 2016
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U. V. Okpala, Department of Physics, Formerly Anambra State University Now Chukwuemeka Odumegwu Ojukwu University, Uli, Anambra State, Nigeria
S. O. Onwuka, Department of Environmental Sciences, Nnamdi Azikiwe University, Awka, Anambra State, Nigeria
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In this study, we considered the effect of generator exhaust fumes on air; a case study of Onitsha and the possible way of mitigating it using nano technology. 400 copies of questionnaire were randomly administered within Onitsha. The sample was chosen based on population. The issue of exhaust fume and the quantity of fuel products bought were discussed. The objective of this work was achieved through the following hypothesis: there is no significant difference in the effects of generator usage in Onitsha. This hypothesis was tested using Chi square. The result showed that there is significance difference in the effects of generator usage in Onitsha. Since, people resort to the use of generator because of the inadequate power supply by Power Holdings Corporation of Nigeria and generator usage affects environment, it was recommended that government should try to always ensure efficient and adequate supply of electric power from PHCN. To ensure proper protection of the environment and economic growth, the study also recommended that government should adopt better strategies like the use of less carbon fuel products, provision of alternative carbon sinks, encouragement of tree planting and replanting; promotion of the use of renewable and green energies and the promotion of grass root campaigns geared towards informing the masses on the implications of anthropogenic activities on the climate and the environment in general.
Nano Science, Onitsha Scenario, Generator and Exhaust Fumes
To cite this article
U. V. Okpala,
S. O. Onwuka,
Nano Technology Applications, Veritable Tools to Mitigating the Effects of Generator Exhaust Fumes on the Environment, the Onitsha Scenario, Anambra State, Nigeria, American Journal of Physics and Applications.
Vol. 3, No. 6,
2015, pp. 238-242.
Chester, Bronwyn (2000), the Case of the Missing Sink, McGill Reporter, Retrieved 8 July 2008.
Cientifica (2007), Quantifying the Effect of Nanotechnologies on CO2 Emissions, Nanowek.
FGN (2003). National energy policy. Abuja: Energy Commission of Nigeria.
Goldberg, P.; Chen, Z.-Y.; O'Connor, W.; Walters, R.; Ziock, H. (2000), CO2 Mineral Sequestration Studies in US., Technology 1 (1): 1-10.
Guardian News (2012), 10th October, p.1.
Hodrien, Chris (October 24, 2008), Squaring the Circle on Coal - Carbon Capture and Storage, Claverton Energy Group Conference, Bath,. Retrieved May 9, 2010.
Johnson, D. L.; Ambrose, S. H.; Bassett, T. J.; Bowen, M. L.; Crummey, D. E.; Isaacson, J. S.; Johnson, D. N.; Lamb, P.; Saul, M.; Winter-Nelson, A. E., (1997), the Meanings of Environmental Terms, Journal of Environmental Quality 26 (3): 581–589.
Minahan, James (2002), Encyclopedia of the Stateless Nations: S-Z, Greenwood Publishing Group, P.762.
Sambo, A.S. (2005), Renewable Energy for Rural Development: the Nigerian Perspective. In: ISESCO Science and Technology Vision, 1, 12-22.
Schuiling, R. D., Krijgsman, P., (2006), Enhanced Weathering: An Effective and Cheap Tool to Sequester CO2, Climatic Change 74 (1–3): 349–354.
Sedjo, Roger; Sohngen, Brent (2012), Carbon Sequestration in Forests and Soils, Annual Review of Resource Economics, 4: 127–144.
Symons, Donald (1979), The Evolution of Human Sexuality, (New York: Oxford University Press), p. 31.