A facile and green strategy to synthesize N/P co-doped bio-char as VOCs adsorbent: Through efficient biogas slurry treatment and struvite transform

IF 6.7 1区 工程技术 Q2 ENERGY & FUELS Fuel Pub Date : 2022-08-15 DOI:10.1016/j.fuel.2022.124156
Danyang Cao , Yuxiang Ji , Li Liu , Long Li , Licheng Li , Xin Feng , Jiahua Zhu , Xiaohua Lu , Liwen Mu
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引用次数: 7

Abstract

Controllable introduction of active sites on bio-char is certified as an available method to resolve a bottleneck issue of conversion of various green renewable bio-char into valuable materials. In this work, the bio-char was modified by air thermal oxidation after the formation of struvite via the facile impregnation in the biogas slurry. The structural and elemental properties of the surface of modified bio-char were analyzed by SEM, BET, XRD, and XPS. XPS analysis of the nitrogen and phosphorus valence states on the carbon surface shows that the N/P elements of struvite were synergically converted into N/P functional groups via air thermal oxidation. Then the modified bio-char was used as VOCs-acetone adsorber and the result shows that the acetone adsorption capacity was 4.8 times higher than that of bio-char. The density functional theory (DFT) proves that the binding force of C-O-P and acetone (-16.882 kcal) is stronger than that of C-P-O and acetone (−7.779 kcal). The results certified that air thermal oxidation coupling eutrophic element recycling is a promising approach for the preparation of N/P co-doped bio-char as value-add materials for improving acetone adsorption performance.

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一种简便、绿色的合成N/P共掺杂生物炭作为VOCs吸附剂的策略:通过高效的沼液处理和鸟粪石转化
在生物炭上可控地引入活性位点被认为是解决各种绿色可再生生物炭转化为有价值材料的瓶颈问题的有效方法。本研究将生物炭在沼液中经易浸渍形成鸟粪石后,采用空气热氧化法进行改性。采用SEM、BET、XRD、XPS等分析了改性生物炭表面的结构和元素性质。碳表面氮磷价态的XPS分析表明鸟粪石中的N/P元素通过空气热氧化作用协同转化为N/P官能团。将改性后的生物炭用作vocs -丙酮吸附剂,结果表明,改性后的生物炭对丙酮的吸附能力是生物炭的4.8倍。密度泛函理论(DFT)证明了C-O-P与丙酮的结合力(-16.882 kcal)大于C-P-O与丙酮的结合力(- 7.779 kcal)。结果表明,空气热氧化耦合富营养元素回收是制备N/P共掺杂生物炭作为提高丙酮吸附性能的增值材料的一种很有前途的方法。
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来源期刊
Fuel
Fuel 工程技术-工程:化工
CiteScore
12.80
自引率
20.30%
发文量
3506
审稿时长
64 days
期刊介绍: The exploration of energy sources remains a critical matter of study. For the past nine decades, fuel has consistently held the forefront in primary research efforts within the field of energy science. This area of investigation encompasses a wide range of subjects, with a particular emphasis on emerging concerns like environmental factors and pollution.
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