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基于电子废弃物的混合金属氧化物作为高灰分煤与稻草化学链共燃烧新型氧载体的性能

Performance of electronic waste based mixed metal oxide as novel oxygen carriers for chemical looping co-combustion of high ash coal and rice straw.

作者信息

Bhui Barnali, Prabu V

机构信息

Department of Chemical Engineering, Indian Institute of Technology Guwahati, Assam 781039, India.

Department of Chemical Engineering, Indian Institute of Technology Guwahati, Assam 781039, India.

出版信息

Waste Manag. 2022 Feb 1;138:199-209. doi: 10.1016/j.wasman.2021.11.048. Epub 2021 Dec 10.

Abstract

Electronic waste (e-waste) is one of the major pollutants accumulated due to its huge demand and short lifespan. Hence, it is essential to reuse and extract the value added components from e-waste. In this context, firstly, a printed circuit board (PCB) is used to produce calorific valuable gases by pyrolysis and gasification reactions. Secondly, the resultant residue of PCB is combusted to extract metals such as iron, copper, nickel etc. as oxygen carriers for the chemical looping combustion (CLC) process. CLC is an emerging and appealing technology for producing rich CO that can be directly sent for sequestration. In the present study, a detailed investigation is performed to ensure the reactivity of the e-waste based metal oxide with high ash coal, rice straw and their blends in the CLC process. CO yield, gas conversion, and char conversion are evaluated to assess the performance of the co-combustion based CLC process. It is found that 90.9% CO yield, 94.1% gas conversion and 93.2% char conversion can be obtained using the blends of coal and rice straw in the first cycle of the CLC operation. Further, a reduction of 5% to 7% of these parameters is evaluated at the end of the third consecutive cycle of CLC operations. The interaction between coal and rice straw is further studied by evaluating their synergistic effects, char-oxygen carrier interaction and kinetic parameters using a thermogravimetric analyzer under N and CO atmosphere. The co-combustion process has reduced the activation energy by 13.4% at 800-1000 °C under CO atmosphere.

摘要

电子垃圾(电子废弃物)因其巨大的需求量和较短的使用寿命而成为主要污染物之一。因此,对电子垃圾进行再利用并提取其中增值成分至关重要。在此背景下,首先,印刷电路板(PCB)通过热解和气化反应来产生具有热量价值的气体。其次,PCB产生的残余物进行燃烧,以提取铁、铜、镍等金属作为化学链燃烧(CLC)过程的氧载体。CLC是一种新兴且有吸引力的技术,可用于生产富含一氧化碳的气体,该气体可直接送去封存。在本研究中,进行了详细调查,以确保基于电子垃圾的金属氧化物在CLC过程中与高灰分煤、稻草及其混合物的反应活性。通过评估一氧化碳产率、气体转化率和焦炭转化率来评价基于共燃烧的CLC过程的性能。研究发现,在CLC操作的第一个循环中,使用煤和稻草的混合物可获得90.9%的一氧化碳产率、94.1%的气体转化率和93.2%的焦炭转化率。此外,在连续第三个CLC操作循环结束时,评估了这些参数降低5%至7%的情况。通过在氮气和一氧化碳气氛下使用热重分析仪评估煤和稻草之间的协同效应、焦炭与氧载体的相互作用以及动力学参数,进一步研究它们之间的相互作用。在一氧化碳气氛下,800 - 1000°C时,共燃烧过程使活化能降低了13.4%。

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