Superior performance of modified pitch-based adsorbents for cyclic methane storage
•Providing activated carbons from low-cost and abundant coal tar pitch precursor.•Investigating the effect of modifications on structural properties of coal tar pitch.•Improving CH4 storage capacity of activated carbon by modification of coal tar pitch.•Excellent performance of activated carbon over...
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Published in | Journal of energy storage Vol. 28; p. 101251 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
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Elsevier Ltd
01.04.2020
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Abstract | •Providing activated carbons from low-cost and abundant coal tar pitch precursor.•Investigating the effect of modifications on structural properties of coal tar pitch.•Improving CH4 storage capacity of activated carbon by modification of coal tar pitch.•Excellent performance of activated carbon over CH4 charge/discharge dynamic tests.
As an alternative approach for natural gas storage at relatively low pressure and ambient temperature, Adsorbed Natural Gas (ANG) has aroused tremendous interest in recent years. However, still, there is a great challenge to find a suitable adsorbent with a high capacity for gas storage. Here in this study, we reported how to prepare an activated carbon with high methane (CH4) uptake using a low cost and abundant precursor such as coal tar pitch (CTP). The effect of two-stage treatment (acidification and carbonization) of CTP on its surface and structural properties, as well as methane adsorption capacity of the final activated carbon products, were explored. Experimental results revealed that the carbon yield of the precursor, porous textural properties, and CH4 adsorption capacity of the adsorbent were efficiently improved via optimization of the pre-treatment conditions. The AC600CTP adsorbent, as an optimum sample, shows the largest capacity of CH4 adsorption on a volumetric basis (184 V(STP)/V) at 25 °C and 40 bar. Based on the authors’ knowledge, the volumetric CH4 capacity of AC600CTP is comparable with the high values reported in the literature among some different classes of the adsorbent. Finally, multiple cyclic operations on AC600CTP at 25 °C and pressure of 40 bar showed the excellent performance of the adsorbent over the dynamic cycle test.
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AbstractList | •Providing activated carbons from low-cost and abundant coal tar pitch precursor.•Investigating the effect of modifications on structural properties of coal tar pitch.•Improving CH4 storage capacity of activated carbon by modification of coal tar pitch.•Excellent performance of activated carbon over CH4 charge/discharge dynamic tests.
As an alternative approach for natural gas storage at relatively low pressure and ambient temperature, Adsorbed Natural Gas (ANG) has aroused tremendous interest in recent years. However, still, there is a great challenge to find a suitable adsorbent with a high capacity for gas storage. Here in this study, we reported how to prepare an activated carbon with high methane (CH4) uptake using a low cost and abundant precursor such as coal tar pitch (CTP). The effect of two-stage treatment (acidification and carbonization) of CTP on its surface and structural properties, as well as methane adsorption capacity of the final activated carbon products, were explored. Experimental results revealed that the carbon yield of the precursor, porous textural properties, and CH4 adsorption capacity of the adsorbent were efficiently improved via optimization of the pre-treatment conditions. The AC600CTP adsorbent, as an optimum sample, shows the largest capacity of CH4 adsorption on a volumetric basis (184 V(STP)/V) at 25 °C and 40 bar. Based on the authors’ knowledge, the volumetric CH4 capacity of AC600CTP is comparable with the high values reported in the literature among some different classes of the adsorbent. Finally, multiple cyclic operations on AC600CTP at 25 °C and pressure of 40 bar showed the excellent performance of the adsorbent over the dynamic cycle test.
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ArticleNumber | 101251 |
Author | Rashidi, Hamed Ahmadpour, Ali Arami-Niya, Arash Mirzaei, Shohreh Shahsavand, Akbar |
Author_xml | – sequence: 1 givenname: Shohreh surname: Mirzaei fullname: Mirzaei, Shohreh organization: Department of Chemical Engineering, Faculty of Engineering, Ferdowsi University of Mashhad, P.O. Box 91779-48944, Mashhad, Iran – sequence: 2 givenname: Ali surname: Ahmadpour fullname: Ahmadpour, Ali organization: Department of Chemical Engineering, Faculty of Engineering, Ferdowsi University of Mashhad, P.O. Box 91779-48944, Mashhad, Iran – sequence: 3 givenname: Akbar surname: Shahsavand fullname: Shahsavand, Akbar organization: Department of Chemical Engineering, Faculty of Engineering, Ferdowsi University of Mashhad, P.O. Box 91779-48944, Mashhad, Iran – sequence: 4 givenname: Hamed surname: Rashidi fullname: Rashidi, Hamed organization: Department of Chemical Engineering, Shahrood Branch, Islamic Azad University, P.O. Box 36155-163, Shahrood, Iran – sequence: 5 givenname: Arash surname: Arami-Niya fullname: Arami-Niya, Arash email: arash.araminiya@uwa.edu.au organization: Fluid Science & Resources Division, Department of Chemical Engineering, The University of Western Australia, Crawley, WA 6009, Australia |
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Keywords | Carbonization Methane storage Adsorbent Coal-tar pitch Adsorbed natural gas |
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