کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
5127262 | 1489011 | 2017 | 9 صفحه PDF | دانلود رایگان |
- The carbon balance of PtG has been assessed varying the CO2 and electricity origins.
- The carbon balance is lower for atmospheric and biogenic sources of CO2.
- The use of fossil CO2 sources, particularly industrial ones, can be relevant.
- The use of electricity surpluses should be favored as much as possible.
- Results suggest that current EU directives are not perfectly suited to power-to-gas.
The transformation of carbon dioxide (CO2) into fuels is receiving a growing attention from engineers, scientists and policy makers. For instance, CO2 and hydrogen produced with renewable electricity can be combined to provide methane (power-to-gas). This strategy could store temporary surpluses of renewable electricity, but the lack of accurate carbon balance makes it difficult to establish the regulatory status of the final product, particularly when CO2 is derived from fossil resources.This article describes an adapted methodology assessing the carbon balance of power-to-gas. The emissions of greenhouse gases per unit of energy have been calculated for different scenarios, varying the source of electricity and the origin of carbon dioxide. The methodology allows accounting for the energy contained in the initial fuel that provides the carbon dioxide. When the CO2 is derived from an industrial process (e.g. cement industry), the energy content of the final product has been estimated and accounted for. The results demonstrate that power-to-gas should use electricity surpluses as much as possible. Biogenic and atmospheric CO2 are the most interesting sources, but the utilization of fossil CO2 makes sense in given situations. Results also suggest that current EU directives on renewable energy are not perfectly suited to power-to-gas.
Journal: Journal of Energy Storage - Volume 11, June 2017, Pages 16-24