DOI: https://doi.org/10.14710/jsp.2024.25057

Advancing Sustainability through Energy Innovation and Climate Action: Insights from ETUT

Gurbanmyrat Mezilov  -  Rector, Oguz han Engineering and Technology University of Turkmenistan, 744012 Koshi, Ashgabat | Oguz han Engineering and Technology University of Turkmenistan |, Turkmenistan
Mekan Toyjanov  -  Department of Nano and biomedical electronics, Oguz han Engineering and Technology University of Turkmenistan, 744012 Koshi, Ashgabat | Oguz han Engineering and Technology University of Turkmenistan |, Turkmenistan
Mukam Ekayev  -  Department of Nanotechnologies and material science, Oguz han Engineering and Technology University of Turkmenistan, 744012 Koshi, Ashgabat | Oguz han Engineering and Technology University of Turkmenistan |, Turkmenistan
Dovlet Annamuradov  -  Department of Ecology and ecological technologies, Oguz han Engineering and Technology University of Turkmenistan, 744012 Koshi, Ashgabat | Oguz han Engineering and Technology University of Turkmenistan |, Turkmenistan
Mavluda Babayeva  -  UI GreenMetric Team, Oguz han Engineering and Technology University of Turkmenistan, 744012 Koshi, Ashgabat | Oguz han Engineering and Technology University of Turkmenistan |, Turkmenistan
*Yslam Orazov orcid  -  Department of Cyber physical systems, Oguz han Engineering and Technology University of Turkmenistan, 744012 Koshi, Ashgabat | Oguz han Engineering and Technology University of Turkmenistan |, Turkmenistan
Open Access Copyright (c) 2024 Gurbanmyrat Mezilov, Mekan Toyjanov, Mukam Ekayev, Dovlet Annamuradov, Mavluda Babayeva, Yslam Orazov
Creative Commons License This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Citation Format:
Abstract
This study explores the potential of sustainable energy solutions to address global energy challenges and mitigate climate change. Oguz Han Engineering and Technology University (ETUT) serves as a case study, displaying its innovative approaches to energy efficiency, waste management, and renewable energy production. The university's implementation of energy-saving devices, smart building automation systems, and LED lighting demonstrates a commitment to reducing carbon emissions and promoting sustainable practices. Additionally, the study investigates the conversion of plastic waste into liquid fuel and the production of bioethanol from cotton stalks as potential solutions for waste management and renewable energy generation. Further, the research explores the deposition of thin film bismuth vanadium tetraoxide for hydrogen production, highlighting its potential as a clean energy source. Overall, this study emphasizes the importance of sustainable energy solutions and the role of academic institutions in driving innovation and promoting a greener future.
Fulltext View|Download Email colleagues

Article Metrics:

Article Info
Section: Original Articles
Language : EN
  1. Berdimuhamedov S. Turkmenistan's Energy Diplomacy: International Cooperation for the Sake of Sustainable Development. Science and Technology in Turkmenistan. 2014;1:50-55
  2. Babayev A. Features of Designing the “Smart Home” Intellectual System. Electronic Journal of Youth Science and Technology. 2021;2:48-51
  3. Begmuradov R, Nuryyev S, Ryzayev K. The technology of producing environmentally friendly bioethanol from cotton stalks in Turkmenistan. Electronic Journal of Youth Science and Technology. 2022;1:100-103
  4. Toyjanov M. The synthesis of bismuth vanadium tetraoxide nanolayers and their application in hydrogen production. Electronic Journal of Youth Science and Technology. 2024;2:92-96
  5. Yuldashev B, Tacheva O. Waste-free technology for the production of new products and recycling of plastic waste. “Internauka” Magazine. 2023;2(272)
  6. Yuldashev BS, Tacheva OA. Waste-free technology in the processing of plastic waste. International Scientific Conference of Young Scientists "Science and Innovation”; 2023
  7. Hanif MA, Nadeem F, Tariq R, Rashid U. Renewable and Alternative Energy Resources. Academic Press; 2021 Nov
  8. Jadhav NY. Green and Smart Buildings: Advanced Technology Options. Green and Energy Technology. Singapore: Springer; 2016
  9. Hahn-Hagerdal B, Galbe M, Gorwa-Grauslund MF, Liden G, Zacchi G. Bio-ethanol – the fuel of tomorrow from the residues of today. Trends in Biotechnology. 2006 Dec;24 (12):549-556
  10. Annamuradov D. Methods for making ecological sand-polymer plates. International Journal of Multidisciplinary Research Transactions. 2023 Feb;5(4):36-37
  11. Kim TW, Ping Y, Galli GA, Choi K-S. Simultaneous enhancements in photon absorption and charge transport of bismuth vanadate photoanodes for solar water splitting. Nature Communications. 2015 Oct;6:1-10
  12. Tokunaga S, Kato H, Kudo A. Selective Preparation of Monoclinic and Tetragonal BiVO4 with Scheelite Structure and Their Photocatalytic Properties. Chemistry of Materials. 2001 Nov;13(12):4624-4628
  13. Makula P, Pacia M, Macyk W. How to correctly determine the Band gap of modified semiconductor photocatalysts based on UV-Vis spectra. The Journal of Physical Chemistry Letters. 2018 Dec;9(23):6814-6817
  14. Fujishima A, Honda K. Electrochemical photolysis of water at a semiconductor electrode. Nature. 1972;238:37-38
  15. Wan D, Asmara TC, Rusydi A, Venkatesan T. Comparison of Typical Photocatalytic Sytems with Intrinsic Plasmonic Photocatalysis Based on Strontium Niobate for Water Splitting. Energy Technology. 2017 Nov;6(1):60-71

Last update:

No citation recorded.

Last update:

No citation recorded.