Energy crisis and global climate change Authors Dmitry Solovyev Shirshov Institute of Oceanology of the Russian Academy of Sciences Lyubov Shilova National Research Moscow State University of Civil Engineering Vitaly Bushuev Joint Institute for High Temperatures of the Russian Academy of Sciences Downloads PDF (Русский) DOI: https://doi.org/10.51461/pb.75.14 Keywords: energy crisis, additive construction technologies, carbon footprint, urban environment, post-pandemic realities Abstract The article deals with the problems of instability in the demand and supply of energy resources in the world during the energy crisis of 2022 against the backdrop of growing military tension in the world in post-pandemic realities. The article considers the long-term forecasts of leading energy agencies published at the end of 2022, as well as various forms of crisis adaptation and new opportunities to remove the carbon footprint of infrastructure facilities, both from direct emissions and through electricity consumption. The authors describe one of the methods to achieve a negative carbon footprint in the surrounding urban environment using innovative technologies of additive construction. How to Cite Solovyev, D., Shilova, L., & Bushuev, V. (2023). Energy crisis and global climate change. Project Baikal, 20(75), 58–62. https://doi.org/10.51461/pb.75.14 More Citation Formats ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver Download Citation Endnote/Zotero/Mendeley (RIS) BibTeX Published 2023-04-07 Issue No. 75 (2023): crises Section refereed articles License This work is licensed under a Creative Commons Attribution 4.0 International License. References Bitcoin greenhouse gas emissions. (n.d.). CCAF. Retrieved January 10, 2023, from https://ccaf.io/cbeci/ghg/index Budyko, M. I. (2020). Globalnoe poteplenie I ego posledstviya [Global warming and its consequences]. In Selected Works. St. Petersburg: OOO Amerit: A. I. Voeikov Main Geophysical Observatory. Bushuev, V. V., & Klepach, A. N. (2022). Energy-informational cosmism of Russia. Economic strategies, 5(185), 60-65. DOI: 10/33917/es-5.185.2022.60-65. Bushuev, V. V., Klepach, A.N., & Solovyev, D.A. (2022). The image of the consequences of a transitional world: Economy, energy development and natural anomalies. Energy policy, 3, 14-27. DOI: 10.46920/2409-5516_2022_3169_14. Degtyarev, K. S., Sinyugin, O. A., & Beryozkin M. Yu. (2022). Estimations of the investment costs for transition to carbon-free economy in Russia by 2060. Environment and energy science, 2, 29-39. Forzieri, G., Alkama, R., Miralles, D. G., & Cescatti, A. (2017). Satellites reveal contrasting responses of regional climate to the widespread greening of Earth. Science, 356(6343), 1180-1184. DOI: 10.1126/science.aal1727. Gaiduk, D. M., & Tolyarenok, V. S. (2018, April 25). Kriptovalyuta kak istochnik istoshcheniya energeticheskikh resursov [Cryptocurrency as a source of depletion of energy resources]. Actual problems of geotechnics, ecology and population protection in emergency situations: Proceedings of the 74th student scientific and technical conference: Section “Geotechnics and ecology in construction” (pp. 99-102). Minsk: BNTU. Golyashev, A., Skryabina, V., Kudrin, A. et al. (2021). Otrazhenie krizisov 2020-2021 godov v energeticheskikh prognozakh [Reflection of 2020-2021 crises in energy forecasts]. Energy Bulletin of the Analytical Center for the Government of the Russian Federation, 21, 1-16. Krutilova, M. O. (2018). Napravleniya sovershenstvovaniya ekonomicheskikh mekhanizmov minimizatsii vybrosov parnikovykh gazov v techenie zhiznennogo tsikla zdaniya [Directions for improving the economic mechanisms for minimizing greenhouse gas emissions during the life cycle of a building]. Economics of construction and nature management, 1(66), 63-71. Printed houses: how to save on construction costs with a 3D printer. (2022, April 27). MGSU. Retrieved December 27, 2022, from https://mgsu.ru/news/Universitet/Napechatannyedomakaksekonomitnastroitelstvepripomoshchi3Dprintera/ Raimi, D., Campbell, E., Newell, R. G. et al. (2022). Global Energy Outlook 2022: Turning Points and Tension in the Energy Transition. Washington, DC. Solow, A. R. (2011). Climate for conflict. Nature, 476(7361), 406-407. Retrieved November 18, 2021, from http://www.nature.com/articles/476406a V Ufe planiruetsya pechat pervogo v Rossii zhilogo dvukhetazhnogo doma na 3D-printere [The first two-story residential building in Russia is planned to be printed on a 3D printer in Ufa] (2021, May 20). Retrieved December 27, 2022, from https://mgsu.ru/news/Universitet/VUfeplaniruetsyapechatpervogovRossiizhilogodvukhetazhnogodomana3Dprintere/#prettyPhoto World Energy Outlook 2022 (2022). IEA. Paris. Retrieved December 27, 2022, from https://www.iea.org/reports/world-energy-outlook-2022