Loading…

On preparing highly abrasion resistant binderless and N-doped granular activated carbon

NaOH/urea, a cellulose solvent, has been applied for the preparation of binderless and in situ N-doped GACs (NaOH/urea-GACs). The dissolved cellulose binds lignin, hemicellulose and undissolved cellulose all together to form a granular precursor after kneading and extruding. During the process, NaOH...

Full description

Saved in:
Bibliographic Details
Published in:RSC advances 2018-06, Vol.8 (36), p.2327-2333
Main Authors: Cai, Zhenghan, Yang, Xuan, Lin, Guanfeng, Chen, Cuixia, Chen, Yandan, Huang, Biao
Format: Article
Language:
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:NaOH/urea, a cellulose solvent, has been applied for the preparation of binderless and in situ N-doped GACs (NaOH/urea-GACs). The dissolved cellulose binds lignin, hemicellulose and undissolved cellulose all together to form a granular precursor after kneading and extruding. During the process, NaOH and urea are dispersed in sawdust where the NaOH acts as an activator at high temperatures, and the urea plays the role of an in situ N-dopant. The results show that at a mass concentration ratio of 14 wt% NaOH/24 wt% urea which has been activated for 1 h at 850 °C after kneading for 2 h GACs with a specific surface area ( S BET ) of 811.299 m 2 g −1 , a microporosity of 59.20% and an abrasion resistance of 99.83% are obtained. The N content as well as its form of existence are also further explored. The desulfurization ability of the NaOH/urea-GACs is also investigated, and NaOH/urea-GACs, without removed alkali, are applied for desulfurization, and the adsorption process is appropriate for the Bangham model. The experimental results indicate that it is feasible to use an NaOH/urea solvent as a suitable chemical for the manufacture of GACs with good properties. NaOH/urea, a cellulose solvent, has been applied for the preparation of binderless and in situ N-doped GACs (NaOH/urea-GACs).
ISSN:2046-2069
DOI:10.1039/c8ra03243b