氯在尼日利亚破坏臭氧的潜力评估

Casmir Chidiebere Onyeneke, Chisom Joseph Onwumelu
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引用次数: 0

摘要

全球变暖是尼日利亚面临的主要挑战之一。这是由于氟氯化碳等消耗物质的不断释放造成的;氟氯化碳;溴氟碳、氟氯烃;氟碳化合物,紫外线;紫外线,Cl;氯,Br;溴、CO2;碳iv氧化物,CH4;甲烷、N2O;一氧化二氮、H2O、SO2;二氧化硫,这对尼日利亚社区构成了重大威胁。写这篇文章的主要目的是展示它已经走了多远,以及减少这种现象的策略。这尤其对尼日利亚的各个地区构成了重大威胁,如天然气燃烧地区和尼日尔三角洲地区。据估计,尼日利亚约有123个天然气基地,是温室效应的严重排放国。因此,人们对大气做出了一些反应,比如尼日利亚北部降雨量稀少,导致农业产量下降,尼日尔三角洲地区的人们也一直在处理石油勘探、森林砍伐和引发酸雨的灌木燃烧问题。然而,由于这种消耗剂,臭氧的行为将对温度的变化、甲烷和一氧化二氮的丰度产生不利影响。氯是臭氧层消耗的主要成分,其主要来源是氟氯化碳;氯氟碳化合物。这种试剂含有碳和卤素,如氟、氯,已知其具有高度挥发性。氯是一种反应性很强的元素,它与臭氧相互作用,将其转化为普通的氧分子。氯在反应中充当催化剂,将臭氧转化为氧气。当反应发生时,氧气分子形成一氧化氯,这是一种稳定的化合物。这种反应发生数千次,直到形成氧分子。
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Evaluation of the Potentiality of Chlorine in the Destruction of Ozone in Nigeria
Global warming is one of the major challenges in Nigeria. This is caused by the incessant release of depleting substances such as CFC; chlorofluorocarbon, BFC; Bromofluorocarbon, HCFC; hydrochlorofluorocarbon, UV; ultraviolet, Cl; chlorine, Br; bromine, CO2; carbon iv oxide, CH4; methane, N2O; Nitrous oxide, H2O, SO2; sulphur dioxide, this has been a major threat to Nigeria community. The major aim of writing this article is to show how far it has gone and strategies to reduce this phenomenon. This especially has being a major threat to various areas of Nigeria such as gas flaring region, and Niger Delta areas. With estimation, Nigeria has about 123 gas site which is a serious emitter of the greenhouse effect. As a result of this, there is some response to the atmosphere such as sparse rainfall in the northern part of Nigeria which brought about a loss of agricultural yield, also people in the Niger Delta region have been dealing with oil exploration, deforestation, bush burning that gives rise to acid rain. However, the behavior of the ozone as a result of this depleting agent will pay a major contribution to an adverse effect on the change of temperature, an abundance of methane, nitrous oxide. Making many references with Chlorine, it is the major constituent of this ozone layer depletion which its major source is from CFC; chlorofluorocarbon. This agent contains carbon and halogens, such as fluorine, chlorine which is known to be highly volatile. Chlorine as an element is very reactive and it interacts with ozone to turn it into an ordinary oxygen molecule. Chlorine act as a catalyst in turning ozone into oxygen in a reaction when the reaction occurs, oxygen molecule forms chlorine monoxide which is a stable compound. This reaction occurs thousands of time until an oxygen molecule is formed.
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