Upcycling food waste digestate for energy and heavy metal remediation applications

Q1 Economics, Econometrics and Finance Resources, Conservation and Recycling: X Pub Date : 2019-10-01 DOI:10.1016/j.rcrx.2019.100015
Haili Chen, Ahmed I. Osman, Chirangano Mangwandi, David Rooney
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引用次数: 38

Abstract

Anaerobic digestate originating from food waste has been studied herein for two different purposes. Firstly, for combustion, co-granulation of the digestate and medium density fibreboard (MDF) dust with the addition of sodium silicate as the binder was used to produce the granular solid biofuel. It was found that increasing the content of the medium density fibreboard dust could increase the calorific value but had no significant effect on the strength of the final granules. Additionally, a significant reduction of the ash content was also observed. For heavy metal removal, granules made using the digestate and sodium silicate binder were carbonised to produce biochar which was characterised and applied as adsorbent materials. The biochar has a good removal capacity for both lead and cadmium, and the binder concentration had a positive correlation with the removal capacity of the resultant biochar. The maximum lead removal capacity (355.3 mg g−1) of biochar made using 3 wt.% sodium silicate binder, was six times more than the analogous commercial activated carbon. Langmuir model showed better fitting for adsorption data of Pb2+, while the Freundlich model showed better fitting of Cd2+. For both Pb2+ and Cd2+ kinetic data, the pseudo-second-order had a better correlation. Our approach helps aid and facilitate the concept of the circular economy by effectively up-cycling and valorising waste lignocellulosic biomass such as food waste digestate into value-added products.

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将食物残渣升级为能源和重金属修复应用
本文研究了源自食物垃圾的厌氧消化,用于两个不同的目的。首先,在燃烧方面,将消化液与中密度纤维板(MDF)粉尘共制粒,添加水玻璃作为粘结剂,生产颗粒状固体生物燃料。结果表明,增加中密度纤维板粉尘的含量可以提高热值,但对最终颗粒的强度没有显著影响。此外,还观察到灰分含量显著降低。为了去除重金属,使用消化液和硅酸钠粘合剂制成的颗粒被碳化制成生物炭,生物炭被表征并用作吸附材料。生物炭对铅和镉均有良好的脱除能力,且黏合剂浓度与生物炭的脱除能力呈正相关。使用3 wt.%水玻璃粘结剂制备的生物炭的最大铅去除率为355.3 mg g - 1,是同类商品活性炭的6倍。Langmuir模型对Pb2+的吸附数据拟合较好,Freundlich模型对Cd2+的吸附数据拟合较好。对于Pb2+和Cd2+的动力学数据,伪二阶方程具有较好的相关性。我们的方法通过有效地将废弃的木质纤维素生物质(如食物垃圾消化成增值产品)进行上循环和增值,有助于帮助和促进循环经济的概念。
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来源期刊
Resources, Conservation and Recycling: X
Resources, Conservation and Recycling: X Economics, Econometrics and Finance-Economics and Econometrics
CiteScore
14.50
自引率
0.00%
发文量
0
审稿时长
17 weeks
期刊最新文献
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