Grain-based activated carbons for natural gas storage

Bioresource Technology
Tengyan ZhangL T Fan

Abstract

Natural gas has emerged as a potential alternative to gasoline due to the increase in global energy demand and environmental concerns. An investigation was undertaken to explore the technical feasibility of implementing the adsorbed natural gas (ANG) storage in the fuel tanks of motor vehicles with activated carbons from biomass, e.g., sorghum and wheat. The grain-based activated carbons were prepared by chemical activation; the experimental parameters were varied to identify the optimum conditions. The porosity of the resultant activated carbons was evaluated through nitrogen adsorption; and the storage capacity, through methane adsorption. A comparative study was also carried out with commercial activated carbons from charcoal. The highest storage factor attained was 89 for compacted grain-based activated carbons from grain sorghum with a bulk density of 0.65 g/cm(3), and the highest storage factor attained is 106 for compacted commercial activated carbons (Calgon) with a bulk density of 0.70 g/cm(3). The storage factor was found to increase approximately linearly with increasing bulk density and to be independent of the extent of compaction. This implies that the grain-based activated carbons are the ideal candidates for the...Continue Reading

References

Apr 1, 1985·Physical Review A: General Physics·P Tarazona

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Citations

Sep 20, 2012·Chemical Society Reviews·Trevor A MakalHong-Cai Zhou
Nov 13, 2020·Nanotechnology·Nikolai P Ponomarev, Mari Kallioinen

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