A comparative study of sustainable industrial heat supply based on economic and thermodynamic factors

Wolf, Magdalena; Pröll, Tobias

doi:10.1515/boku-2017-0013

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2024

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Cited by 4 publications

References 11 publications

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The Impact of Current Temperatures on Forecasting Natural Gas Futures Prices in the USA Using Machine Learning Algorithms

Wojarnik

2024

Lecture Notes in Networks and Systems

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The Impact of Current Temperatures on Forecasting Natural Gas Futures Prices in the USA Using Machine Learning Algorithms

Wojarnik

2024

Lecture Notes in Networks and Systems

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Comparative analysis of zero-carbon supply solutions for mid-to-low temperature process heat using nuclear energy

Luo,

Xia

2024

Journal of Cleaner Production

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$$\text {CO}_2$$-based methane: an overlooked solution for the energy transition

Servin-Balderas,

Wetser,

ter Heijne

et al. 2024

Energ Sustain Soc

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Background Fossil fuels can be replaced with electricity and hydrogen. However, the implementation and use of these low-carbon energy carriers require a sociotechnical transition. This transition might not be completed in time. Main text $$\text {CO}_2$$ CO 2 -based methane is a substitute for natural gas that is less carbon-intensive. This methane is synthesized by capturing $$\text {CO}_2$$ CO 2 from air and by performing water electrolysis to produce hydrogen. $$\text {CO}_2$$ CO 2 -based methane is compatible with our current fossil-based society. An analysis of the substitution of natural gas with different energy carriers will be performed, and the results will be compared. The effects of $$\text {CO}_2$$ CO 2 -based methane, hydrogen, and electricity will be evaluated for energy storage, high-temperature level heat production, and residential heating. The multi-level perspective will be applied to assess these energy carriers in the context of our society. Conclusions $$\text {CO}_2$$ CO 2 -based methane is the least energy efficient energy carrier among those analyzed. Nevertheless, this type of methane supports the acceleration of the energy transition. Highlights CO2-based methane is a valuable, renewable, and carbon-neutral energy carrier that supports a timely energy transition. The implementation of hydrogen and electricity requires more modifications to our current sociotechnical society than the implementation of CO2-based methane. The urgency of reducing CO2 emissions is not being considered adequately in the current societal discussion, and a multi-level perspective analysis should provide valuable results that account for the temporal aspect.

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A comparative study of sustainable industrial heat supply based on economic and thermodynamic factors

Cited by 4 publications

References 11 publications

The Impact of Current Temperatures on Forecasting Natural Gas Futures Prices in the USA Using Machine Learning Algorithms

The Impact of Current Temperatures on Forecasting Natural Gas Futures Prices in the USA Using Machine Learning Algorithms

Comparative analysis of zero-carbon supply solutions for mid-to-low temperature process heat using nuclear energy

$$\text {CO}_2$$-based methane: an overlooked solution for the energy transition

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