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Zhizn Zemli [Life of the Earth] 46, no 1
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Zhizn Zemli [Life of the Earth] 46, no 1

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10.29003/m3770.0514-7468.2024_46_1/4-19

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Snakin, V.V.

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global climate change, anthropogenic and natural warming factors, greenhouse effect, thermal pollution, Earth’s albedo, insolation dynamics, geothermal heat, low-carbon power, green economy.

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Snakin, V.V., “Low-carbon power and global climate warming”, Zhizn Zemli [Life of the Earth] 46, no 1, 4–19 (2024) (in Russ., abstract in Engl.). DOI: 10.29003/m3770.0514-7468.2024_46_1/4-19.

LOW-CARBON POWER AND GLOBAL CLIMATE WARMING

The problem of global climate warming and attempts to solve it, including using low-carbon power engineering, are analyzed. The success of solving this problem depends on the degree of understanding of the processes which cause it. As more and more data speak about natural causes of climate fluctuations, and of anthropogenic factors the greatest contribution to the warming is made by thermal pollution rather than the anthropogenic growth of carbon dioxide in the atmosphere, low-carbon power, with all its positive qualities, is unable to solve the problem of climate warming.

Список литературы

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  2. Budyko, M.I., Climate Change (Leningrad: Gidrometeoizdat, 1974) (in Russian).
  3. Weizsäcker, E. von, Lovins, A.B., Lovins, L.H. Factor four: Doubling wealth, halving resource use. The new report to the Club of Rome (London, New York: Earthscan Publications Ltd., 1998).
  4. Vernadsky, V.I., Scientific Thought as a Planetary Phenomenon (Moscow: Nauka, 1991) (in Russian).
  5. Vlasov, S.V., Konovalova, O.V., Chudovskaya, I.V., Vlasova, I.V., Kolotilova, N.N., Snakin, V.V. Methane in the atmosphere, methanotrophs and development of oil and gas industry (Moscow: Max Press, 2021). DOI: 10.29003/m1986.978-5-317-06580-5.
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  15. Snakin, V.V., “Global climate change: forecasts and reality”, Zhizn Zemli 41 (2), 148–164 (2019) (in Russian).
  16. Snakin, V.V., “Dynamics of Global Natural Processes and the Doctrine of Biosphere of V.I. Vernadsky”, Zhizn Zemli 45 (1), 27–38 (2023). DOI: 10.29003/m3147.0514-7468.2023_45_1/27-38 (in Russian).
  17. Snakin, V.V., “Unstable natural processes: global climate”, Use and protection of natural resources in Russia 3, 3–11 (2022) (in Russian).
  18. Snakin, V.V., Ecology, global natural processes and evolution of the biosphere. Encyclopedic dictionary (Moscow: MSU, 2020) (in Russian).
  19. Fedorov, V.M., “Analysis of spatial responses of near-surface air temperature to long-term variability of the Earth’s insolation”, Zhizn Zemli 39 (3), 245–262 (2017) (in Russian).
  20. Fedorov, V.M., “Forecast of the World Ocean level change based on the Earth insolation calculations”, Zhizn Zemli 40 (2), 143–15 (2018) (in Russian).
  21. Fedorov, V.M., Altunin, I.V., Frolov, D.M., “Influence of carbon dioxide of anthropogenic genesis on the atmospheric thermal regime and its changes”, Zhizn Zemli 44 (4), 402–414 (2022). DOI: 10.29003/m3115.0514- 7468.2022_44_4/402-414 (in Russian).
  22. Tsegelskiy, V.G., “Myths of the Paris Agreement”, Zhizn Zemli 45 (4), 540–555 (2023). DOI: 10.29003/m3535.0514-7468.2019_45_4/540-555.
  23. Andreoni, P., Emmerling, J. & Tavoni, M., “Inequality repercussions of financing negative emissions”, Nat. Clim. Chang. 14, 48–54 (2024) (https://doi.org/10.1038/s41558-023-01870-7).
  24. Bajo, P., Drysdale, R.N., Woodhead, J.D., Hellstrom, J.C., Hodell, D., Ferretti, P., Voelker, A.H.L., Zanchetta, G., Rodrigues, T., Wolff, E., Tyler, J., Frisia, S., Spötl, G., Fallick, A.E., “Persistent influence of obliquity on ice age terminations since the Middle Pleistocene transition”, Science 367 (6483), 1235 (2020). DOI: 10.1126/science.aaw1114.
  25. Bromley, B.C., Khan, S.H., Kenyon, S.J., “Dust as a solar shield”, PLOS Clim. 2 (2): e0000133 (2023) (https://doi.org/10.1371/journal.pclm.0000133).
  26. Easterbrook, D.J., “Greenhouse Gases”, Evidence-Based Climate Science: Data Opposing CO2 Emissions as the Primary Source of Global Warming (Elsevier, 2016) (https://doi.org/10.1016/B978-0-12-804588-6.00009-4).
  27. Friis-Christensen, E., Lassen, K., “Length of the Solar Cycle: An Indicator of Solar Activity Closely Associated with Climate”, Science, New Series 254, no 5032, 698–700 (1991).
  28. Goode, P.R., Pallé, E., Shoumko, A., Shoumko, S., Montañes‐Rodriguez, P., Koonin, E.S., “Earth’s Albedo 1998–2017 as Measured From Earthshine”, Geophysical Research Letters 48 (17) (2021). DOI: 10.1029/2021GL094888/.
  29. Guoqian, W., Xuequan, W., Bo. W. and Qi, L., “Desertification and its Mitigation Strategy in China”, J. of Resources and Ecology 3 (2), 97–104 (1 June 2012) (https://doi.org/10.5814/j.issn.1674-764x.2012.02.001).
  30. Lindsey, R., Dahlman, L., “Climate Change: Ocean Heat Content”, 2023 (Climate Change: Ocean Heat Content | NOAA Climate.gov).
  31. Lokoshchenko, M.A., Alekseeva, L.I., “Influence of Meteorological Parameters on the Urban Heat Island in Moscow”, Atmosphere 14, 507 (2023) (https://doi.org/10.3390/atmos14030507).
  32. Low-carbon power // Low-carbon power – Wikipedia (обращение 02.01.2024).
  33. Miatello, A., “Refutation of the “greenhouse effect” theory on a thermodynamic and hydrostatic basis”, Principia Scientific International 6, 40 p. (2012).
  34. Petit, J.R., Jouzel, J., Raynaud, D. et al., “Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica”, Nature 399, no 6735, 429–436 (1999).
  35. Robinson, A.B., Robinson, N.E., Soon, W., “Environmental Effects of Increased Atmospheric Carbon Dioxide”, J. of Amer. Physicians and Surgeons 12 (3), 79–90 (2007).
  36. Rotta Loria, A.F., “The silent impact of underground climate change on civil infrastructure”, Communications Engineering 2, 44 (2023) (https://doi.org/10.1038/s44172-023-00092-1).

References

  1. Budyko, M.I., “Some ways of influence on the climate”, Meteorology and Hydrology 2, 3–8 (1962) (in Russian).
  2. Budyko, M.I., Climate Change (Leningrad: Gidrometeoizdat, 1974) (in Russian).
  3. Weizsäcker, E. von, Lovins, A.B., Lovins, L.H. Factor four: Doubling wealth, halving resource use. The new report to the Club of Rome (London, New York: Earthscan Publications Ltd., 1998).
  4. Vernadsky, V.I., Scientific Thought as a Planetary Phenomenon (Moscow: Nauka, 1991) (in Russian).
  5. Vlasov, S.V., Konovalova, O.V., Chudovskaya, I.V., Vlasova, I.V., Kolotilova, N.N., Snakin, V.V. Methane in the atmosphere, methanotrophs and development of oil and gas industry (Moscow: Max Press, 2021). DOI: 10.29003/m1986.978-5-317-06580-5.
  6. GEO-4. Global Environment Outlook 4 (UNEP, 2007).
  7. Glazyev, S.Y., Bezrukov, L.B., Dolgolaptev, A.V., Larin, N.V., Syvorotkin, V.L., Fedorov, V.M., “Climate changes and energy transition”, Economic Strategies 6 (192), 16–61 (2023) (https://doi.org/10.33917/es-6.192.2023) (in Russian).
  8. Gudkovich, Z.M., Karklin, V.P., Smolyanitsky, V.M., Frolov, I.E., “Transition from warming to cooling of the Earth’s climate as a result of natural causes”, Global Ecological Processes: Proc. of the Int. Sci Conf. (Moscow: Academia, 2012) (in Russian).
  9. Yefimov, V.I., “Reality of the carbon footprint in the global climate change”, Zhizn Zemli 43 (3), 328–335 (2021). DOI: 10.29003/ m2437.0514-7468.2020_43_3/328-335.
  10. Israel, Yu.A., “Ensuring environmentally sustainable development in conditions of maintaining the modern climate”, Global Ecological Processes: Proc. of the Int. Sci Conf. (Moscow: Academia, 2012) (in Russian).
  11. Malinin, V.N., Voynovsky, P.A., “Trends of moisture exchange components in the “ocean-atmosphere” system under global warming conditions according to the data of Reanalysis-2 archive”, Modern problems of Earth remote sensing from space 18 (3), 9–25 (2021) (in Russian).
  12. Muslimov, R.H., “Results of the scientific and practical conference “Decision of the European Union on decarbonization and a new paradigm of development of the fuel and energy complex of Russia (one year later)””, Oil Province 4 (32), 1–35 (2022). doi.org/10.25689/NP.2022.4.1-35 (in Russian).
  13. Scientific analysis of the results of the “World Conference on Climate Change”. Ed. by Yu.A. Izrael et al. (Moscow: IGKE RAN, 2004) (in Russian).
  14. Reteyum, A.Y., “Dangerous myth of anthropogenic warming” (2020) (https://regnum.ru/news/polit/3101660.html) (in Russian).
  15. Snakin, V.V., “Global climate change: forecasts and reality”, Zhizn Zemli 41 (2), 148–164 (2019) (in Russian).
  16. Snakin, V.V., “Dynamics of Global Natural Processes and the Doctrine of Biosphere of V.I. Vernadsky”, Zhizn Zemli 45 (1), 27–38 (2023). DOI: 10.29003/m3147.0514-7468.2023_45_1/27-38 (in Russian).
  17. Snakin, V.V., “Unstable natural processes: global climate”, Use and protection of natural resources in Russia 3, 3–11 (2022) (in Russian).
  18. Snakin, V.V., Ecology, global natural processes and evolution of the biosphere. Encyclopedic dictionary (Moscow: MSU, 2020) (in Russian).
  19. Fedorov, V.M., “Analysis of spatial responses of near-surface air temperature to long-term variability of the Earth’s insolation”, Zhizn Zemli 39 (3), 245–262 (2017) (in Russian).
  20. Fedorov, V.M., “Forecast of the World Ocean level change based on the Earth insolation calculations”, Zhizn Zemli 40 (2), 143–15 (2018) (in Russian).
  21. Fedorov, V.M., Altunin, I.V., Frolov, D.M., “Influence of carbon dioxide of anthropogenic genesis on the atmospheric thermal regime and its changes”, Zhizn Zemli 44 (4), 402–414 (2022). DOI: 10.29003/m3115.0514- 7468.2022_44_4/402-414 (in Russian).
  22. Tsegelskiy, V.G., “Myths of the Paris Agreement”, Zhizn Zemli 45 (4), 540–555 (2023). DOI: 10.29003/m3535.0514-7468.2019_45_4/540-555.
  23. Andreoni, P., Emmerling, J. & Tavoni, M., “Inequality repercussions of financing negative emissions”, Nat. Clim. Chang. 14, 48–54 (2024) (https://doi.org/10.1038/s41558-023-01870-7).
  24. Bajo, P., Drysdale, R.N., Woodhead, J.D., Hellstrom, J.C., Hodell, D., Ferretti, P., Voelker, A.H.L., Zanchetta, G., Rodrigues, T., Wolff, E., Tyler, J., Frisia, S., Spötl, G., Fallick, A.E., “Persistent influence of obliquity on ice age terminations since the Middle Pleistocene transition”, Science 367 (6483), 1235 (2020). DOI: 10.1126/science.aaw1114.
  25. Bromley, B.C., Khan, S.H., Kenyon, S.J., “Dust as a solar shield”, PLOS Clim. 2 (2): e0000133 (2023) (https://doi.org/10.1371/journal.pclm.0000133).
  26. Easterbrook, D.J., “Greenhouse Gases”, Evidence-Based Climate Science: Data Opposing CO2 Emissions as the Primary Source of Global Warming (Elsevier, 2016) (https://doi.org/10.1016/B978-0-12-804588-6.00009-4).
  27. Friis-Christensen, E., Lassen, K., “Length of the Solar Cycle: An Indicator of Solar Activity Closely Associated with Climate”, Science, New Series 254, no 5032, 698–700 (1991).
  28. Goode, P.R., Pallé, E., Shoumko, A., Shoumko, S., Montañes‐Rodriguez, P., Koonin, E.S., “Earth’s Albedo 1998–2017 as Measured From Earthshine”, Geophysical Research Letters 48 (17) (2021). DOI: 10.1029/2021GL094888/.
  29. Guoqian, W., Xuequan, W., Bo. W. and Qi, L., “Desertification and its Mitigation Strategy in China”, J. of Resources and Ecology 3 (2), 97–104 (1 June 2012) (https://doi.org/10.5814/j.issn.1674-764x.2012.02.001).
  30. Lindsey, R., Dahlman, L., “Climate Change: Ocean Heat Content”, 2023 (Climate Change: Ocean Heat Content | NOAA Climate.gov).
  31. Lokoshchenko, M.A., Alekseeva, L.I., “Influence of Meteorological Parameters on the Urban Heat Island in Moscow”, Atmosphere 14, 507 (2023) (https://doi.org/10.3390/atmos14030507).
  32. Low-carbon power // Low-carbon power – Wikipedia (обращение 02.01.2024).
  33. Miatello, A., “Refutation of the “greenhouse effect” theory on a thermodynamic and hydrostatic basis”, Principia Scientific International 6, 40 p. (2012).
  34. Petit, J.R., Jouzel, J., Raynaud, D. et al., “Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica”, Nature 399, no 6735, 429–436 (1999).
  35. Robinson, A.B., Robinson, N.E., Soon, W., “Environmental Effects of Increased Atmospheric Carbon Dioxide”, J. of Amer. Physicians and Surgeons 12 (3), 79–90 (2007).
  36. Rotta Loria, A.F., “The silent impact of underground climate change on civil infrastructure”, Communications Engineering 2, 44 (2023) (https://doi.org/10.1038/s44172-023-00092-1).