IMPACT OF INDUSTRIALIZATION ON THE DYNAMICS OF ATMOSPHERIC CARBON DIOXIDE: A MODELING STUDY

International Journal of Big Data Mining for Global Warming Pub Date : 2022-01-26 DOI:10.1142/s2630534821500091

A. K. Misra, Maitri Verma

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引用次数: 2

Abstract

The expansion of the industrial sector is one of the prime contributors to the increase in the concentration of heat-trapping gases, mainly carbon dioxide ([Formula: see text]), in the atmosphere. Since the onset of the industrial revolution, industrial [Formula: see text] emissions have been contributing significantly to global warming and associated climate changes. To design strategies for the mitigation of climate changes, it is crucial to comprehend the role of industrialization in the elevation of atmospheric [Formula: see text] concentration. This paper presents a nonlinear mathematical model, comprising a set of nonlinear differential equations, to examine the impact of industrialization on the dynamics of atmospheric [Formula: see text]. Analysis of the model shows that if the industrial [Formula: see text] emission rate increases beyond a critical value, the system experiences Hopf-bifurcation about the interior equilibrium and periodic solution is generated. The direction and stability of periodic solutions arising through Hopf-bifurcation are investigated. Numerical simulation is presented to demonstrate the analytical findings.

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工业化对大气二氧化碳动态的影响:模拟研究

工业部门的扩大是大气中吸热气体(主要是二氧化碳)浓度增加的主要原因之一。自工业革命开始以来，工业[公式:见文本]排放对全球变暖和相关的气候变化作出了重大贡献。要设计减缓气候变化的战略，就必须了解工业化在大气[公式:见案文]浓度升高中的作用。本文提出了一个非线性数学模型，包括一组非线性微分方程，用于研究工业化对大气动力学的影响[公式:见文本]。对模型的分析表明，当工业[公式:见文]排放率超过一个临界值时，系统会发生关于内部平衡的hopf分岔，并产生周期解。研究了hopf分岔引起的周期解的方向和稳定性。数值模拟验证了分析结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Big Data Mining for Global Warming

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