Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review

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Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review Publisher

Memetova A¹ ; Tyagi I² ; Karri RR³ ; Kumar V² ; Tyagi K² ; Memetov N¹ ; Zelenin A¹ ; Pasko T¹ ; Gerasimova A¹ ; Tarov D¹ ; Dehghani MH^{4, 5} ; Singh K⁷

Source: Chemical Engineering Journal Published:2022

Abstract

Due to environmental performance, biogas (biomethane) and natural gas (methane) are at the center of attention among renewable fuels due to environmental performance. Gas fuels have significant environmental advantages over traditional petroleum-based fuels or fossil fuels. Adsorption technology for methane adsorption, storage, and transportation (biomethane and natural gas) can link gas supplies to consumers. The review considers the advantages of biomethane and natural gas as energy sources. The efficiency criteria for methane carbon-based storage systems have been analyzed and discussed. Porous carbon-based adsorption materials have been found to be very useful in methane adsorption, storage, and transportation. The outstanding characteristics of carbon materials such as high surface area and large pore volume, tunability, high abundance of precursors, thermal stability, and environmental friendliness are important features for their extensive usability. The findings on the sorption capacity of porous carbon-based materials for biomethane and natural gas have been discussed in detail and summarized. Based on the findings, it was found that the ANG technology has great potential for using natural gas and biomethane in the transport sector, provided that an appropriate adsorbent with suitable properties is applied. © 2022 Elsevier B.V.

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Style	Citing Format
MLA	Memetova A, et al.. "Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review." Chemical Engineering Journal, vol. 446, no. , 2022, pp. -.
APA	Memetova A, Tyagi I, Karri RR, Kumar V, Tyagi K, Memetov N, Zelenin A, Pasko T, Gerasimova A, Tarov D, Dehghani MH, Singh K (2022). Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review. Chemical Engineering Journal, 446(), -.
Chicago	Memetova A, Tyagi I, Karri RR, Kumar V, Tyagi K, Memetov N, Zelenin A, et al.. "Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review." Chemical Engineering Journal 446, no. (2022): -.
Harvard	Memetova A et al. (2022) 'Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review', Chemical Engineering Journal, 446(), pp. -.
Vancouver	Memetova A, Tyagi I, Karri RR, Kumar V, Tyagi K, Memetov N, et al.. Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review. Chemical Engineering Journal. 2022;446():-.
BibTex	@article{ author = {Memetova A and Tyagi I and Karri RR and Kumar V and Tyagi K and Memetov N and Zelenin A and Pasko T and Gerasimova A and Tarov D and Dehghani MH and Singh K}, title = {Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review}, journal = {Chemical Engineering Journal}, volume = {446}, number = {}, pages = {-}, year = {2022} }
RIS	TY - JOUR AU - Memetova A AU - Tyagi I AU - Karri RR AU - Kumar V AU - Tyagi K AU - Memetov N AU - Zelenin A AU - Pasko T AU - Gerasimova A AU - Tarov D AU - Dehghani MH AU - Singh K TI - Porous Carbon-Based Material As a Sustainable Alternative for the Storage of Natural Gas (Methane) and Biogas (Biomethane): A Review JO - Chemical Engineering Journal VL - 446 IS - SP - EP - PY - 2022 ER -

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