Abstract
Access to renewable energy is not universal, and accommodating spikes in energy demand proves challenging due to the intermittent nature of sun and wind availability. While renewable energies alleviate fossil fuel dependence, they may not entirely replace it. Methane can be derived from various processes or as a by-product of other industrial operations. Notably, it constitutes a significant portion of natural gas and can be obtained through fossil fuel extraction or coal mining. Another method involves biomass gasification, wherein higher-temperature conditions facilitate the thermochemical conversion of biomass.
| Original language | English |
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| Supervisors/Reviewers |
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| Publication status | Published - Jan 2024 |
Fields of science
- 202029 Microwave engineering
- 203024 Thermodynamics
- 203038 Ventilation technology
- 204 Chemical Process Engineering
- 204002 Chemical reaction engineering
- 207106 Renewable energy
- 207111 Environmental engineering
- 210006 Nanotechnology
- 211203 Food processing engineering
- 211908 Energy research
- 105109 Geothermics
- 502059 Circular economy
- 509026 Digitalisation research
- 202034 Control engineering
- 203016 Measurement engineering
- 204003 Chemical process engineering
- 204008 Membrane technology
- 209006 Industrial biotechnology
- 104027 Computational chemistry
- 502058 Digital transformation
JKU Focus areas
- Sustainable Development: Responsible Technologies and Management
