Pressure Influence on the Carbon Gasification Process

DOI: https://doi.org/10.23939/cte2025.01.118
Development, Energy and Resource Saving in the Chemical and Food Technologies
pp.
118-122
Анотація

This paper provides a theoretical analysis of the pressure influence on the carbon gasification process. It has been determined that with increasing pressure, gas yield and its energy value decrease. The obtained theoretical results will serve as a basis for future experimental research and development of scientific-practical approaches to the complex processing of industrial and household waste.

Ключові слова (англійською)
carbon gasification
pyrolysis
solid waste
syngas
Автор (співавтори)
Ім'я Прізвище Приналежність до організації E-mail Номер телефону ORCID ID Вчене звання, посада Адреса організації Внесок автора(ів) Приналежність до організації
Nazar
Lysyy
lysyynr@gmail.com
0009-0006-7050-0395
PhD student
35 Kleparivska St.
Робота з даними
Lviv State University of Life Safety
Andriy
Helesh
andrii.b.helesh@lpnu.ua
0000-0003-3310-0940
Doctor of Technical Sciences, Professor
12 S. Bandery St.
Концептуалізація
Lviv Polytechnic National University
Vasyl
Popovych
popovich2007@ukr.net
0000-0003-2857-0147
Doctor of Technical Sciences, Professor
35 Kleparivska St.
Координація і контроль
Lviv State University of Life Safety
References

[1]  Igliński, B., Kujawski, W., & Kiełkowska, U. (2023). Pyrolysis of Waste Biomass: Technical and Process Achievements, and Future Development–A Review. Energies, 16, 1829. DOI: 10.3390/en16041829

[2]  Márquez, A., Ortiz, I., Sánchez-Hervás, J. M. et al. (2024). Global trends of pyrolysis research: a bibliometric analysis. Environ Sci Pollut Re, 31, 931–947. DOI: 10.1007/s11356-023-31186-0

[3]  Han, L., Li, J., Qu, C., Shao, Z., Yu, T., & Yang, B. (2022). Recent Progress in Sludge Co-Pyrolysis Technology. Sustainability, 14, 7574. DOI: 10.3390/su14137574

[4]  Giwa, S. O., & Taziwa, R. T. (2024). Adoption of advanced coal gasification: A panacea to carbon footprint reduction and hydrogen economy transition in South Africa. International Journal of Hydrogen Energy, 77, 301-323. DOI: 10.1016/j.ijhydene.2024.06.190

[5]  Lysyy, N., Helesh, A., & Popovych, V. (2024). Ekonomichno efektyvna tekhnolohiia utylizatsii zaliznychnykh shpal [Economically effective technology for railway sleeper utilization]. International scientific-practical conference “Science, education and technology: new research and perspectives”, (р. 29–30). Scholarly Publisher. https://www.economics.in.ua/2024/10/15.html

[6]  Lysyy, N., Helesh, A., & Popovych, V. (2024). Termodynamichni doslidzhennia protsesiv hazyfikatsii vidkhodiv vydobutku vuhillia [Thermodynamic studies of coal mining waste gasification processes]. Ukrainian School of Mining Engineering, (р. 49–50). Dnipro University of Technology. DOI: 10.33271/usme17.049

[7]  Lysyy, N., Helesh, A., & Popovych, V. (2024). Hazyfikatsiia vuhlevmisnykh vidkhodiv. In Ekolohichna bezpeka v umovakh viiny. (p. 60–62). Lviv State University of Life Safety. https://indico.ldubgd.edu.ua/event/54

[8]  Lysyy, N. R., Helesh, A. B., & Popovych, V. V. (2024). Gasification of coal-containing waste. ACTUAL PROBLEMS OF NATURAL SCIENCES DEVELOPMENT AMIDST THE EVOLUTION OF ARTIFICIAL INTELLIGENCE (p. 303–34). Baltija Publishing. DOI: 10.30525/978-9934-26-521-1-7

Файл рукопису
pressure-influence-carbon-gasification-process.docx78.82 КБ