Quantitative estimation of global warming

Q4 Engineering

Gornaya Promyshlennost Pub Date : 2023-07-01 DOI:10.30686/1609-9192-2023-3-64-70

V.V. Tetelmin

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Abstract

The paper presents a summary table of global warming energy patterns calculated using historical natural data accumulated by the world science. The analysis shows that in each successive decade contribution of the positive feedbacks to global warming is increasing as compared to the preceding decade. Each kilowatt-hour of energy produced and used by the humanity warms up our planet through the human-caused greenhouse effect by 18 kWh. The dependence functions of the radiative temperature equilibrium on the content of the three main greenhouse gases in the atmosphere have been derived. We propose functions for the dependence of the amount of accumulated thermal energy in the Earth's climatic system and the duration of global warming on the amount of the man-made greenhouse gases in the atmosphere. A forecast of the global sea level rise and the marginal frequency of natural disasters over time is provided. If the mankind has halved greenhouse gas emissions by 2060, the global warming will progress for about 210 years until it reaches the radiation equilibrium temperature of 4,2°C. By following this scenario, it will be possible to prevent a possible additional warming of the atmosphere by about 4,7°C in the future.

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全球变暖的定量估计

本文提出了一个利用世界科学积累的历史自然资料计算的全球变暖能量型汇总表。分析表明，与前一个十年相比，在每一个连续十年中，正反馈对全球变暖的贡献都在增加。人类生产和使用的每千瓦时的能源通过人为造成的温室效应使我们的星球变暖18千瓦时。导出了大气中三种主要温室气体含量对辐射温度平衡的依赖函数。我们提出了地球气候系统累积热能量和全球变暖持续时间对大气中人为温室气体量的依赖函数。提供了一段时间内全球海平面上升和自然灾害边际频率的预报。如果人类到2060年将温室气体排放量减半，全球变暖将持续约210年，直到达到4.2°C的辐射平衡温度。按照这一设想，未来将有可能防止大气可能额外升温约4.7°C。

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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来源期刊

Gornaya Promyshlennost Engineering-Industrial and Manufacturing Engineering

CiteScore

1.10

自引率

0.00%

发文量

100