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期刊

標題

Synthesis and characterization of exfoliated biochar from four agricultural feedstock

作者

Shuvrodeb Roy,Uday Kumar, Pradip Bhattacharyya

名稱(期刊/節目)

Environmental Science and Pollution Research

期刊期數/節目集數

Volume 26, Issue 7, pp 7272–7276

出版單位

Springer Berlin Heidelberg

出版年月日

March 2019

原文摘要

Highly porous biochar (BC) structures have been prepared from inexpensive biomasses like rice straw, bamboo, sugarcane waste, and corn cob via a slow pyrolysis technique in nitrogenous atmosphere. A surface engineering technique has been applied to enhance the surface-to-volume ratio of each biochar sample and finally compared its characteristics through standard surface and elemental characterization techniques, viz. CHN (carbon, hydrogen, and nitrogen), FTIR (Fourier transform infrared spectroscopy), BET (Brunauer–Emmett–Teller), and SEM (scanning electron microscopy). All the biochar samples were observed to be highly carbonized and aromatized. Exfoliated structures were found to contain more elemental carbon (34.14–77.32%) than its native form (30.92–74.46%). Aromatic hydrocarbon, aromatic C=C, aromatics, aliphatic C–O, aliphatic hydrocarbon, and H-bonded OH groups were found to predominate in the surface of biochar structures independent of their precursor composition and extent of exfoliation. SEM micrographic images clearly ensured about the unoriented sheets like the morphology of different biochar samples. Although no significant structural difference was found to exist depending on their precursor compositions, quantitative enhancement of porosity was found to be observed after exfoliation. Both native (240.65 m2/g) and exfoliated (712.89 m2/g) biochars derived from sugarcane wastes were observed to have a maximum surface area in comparison to the biochars derived from rice straw (native, 22.08 m2/g; exfoliated, 29.92 m2/g), bamboo (native, 42.08 m2/g; exfoliated, 248.38 m2/g), and corn cob (native, 136.62 m2/g; exfoliated, 221.71 m2/g). Exfoliated biochars were found to be consistently more potent in comparison to its native form as per our comparative characterizations performed so far.

原文摘要簡述

極度多孔的生物炭結構是通過廉價的生物質(如稻草,竹子,蔗渣和玉米芯)通過在氮氣緩慢熱裂解技術製備。應用表面工程技術來提高每種生物炭樣品的表面體積比,最後透過標準的表面和元素表面特徵技術來做比較。例如: CHN(碳,氫和氮),FTIR(傅立葉變換紅外光譜法),BET(布魯納-埃米特-泰勒)和SEM(掃描電子顯微鏡)。觀察到所有生物炭樣品都有高度炭化和芳香化。觀察到所有生物炭樣品都有高度炭化和芳香化。發現裂解的結構(34.14–77.32%)比自然形態(30.92–74.46%)含有更多的碳元素。芳香烴(就是芳族C=C、芳族化合物、脂族C–O、脂族烴和氫鍵羥基)發現其在生物炭結構的表面中占有主要地位,但他們的原物體與裂解程度無關。SEM(掃描電子顯微鏡)顯微圖像清晰地確認無方向性薄片的形狀與不同生物炭樣品的形態相似。儘管根據其原物體組成沒有發現明顯的結構差異,但是發現在裂解後觀察到孔隙率有定量的增加。與天然的稻草生物炭22.08 m2 / g和裂解的稻草生物炭29.92 m2 / g相比,以蔗渣為料源的生物炭240.65 m2 / g和裂解的蔗渣生物炭712.89 m2 / g都具有最大的表面積。再者為天然的竹生物炭42.08 m2 / g和裂解的竹生物炭248.38m2 / g以及天然的玉米芯生物炭136.62 m2 / g 和裂解的玉米芯221.71m2 / g。依據至今為止的比較發現裂解的生物炭與其天然形態相比始終具有更強的效力。

關鍵字

Biochar, Agricultural feedstock, Exfoliation, Pyrolysis technique, Surface area

連結

https://link.springer.com/article/10.1007%2Fs11356-018-04117-7

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