通过高温热解（HTP）和高温蒸汽气化（HTSG）实现塑料废物的可持续增值以获取能源并确保环境安全。

Sustainable valorization of plastic wastes for energy with environmental safety via High-Temperature Pyrolysis (HTP) and High-Temperature Steam Gasification (HTSG).

作者信息

Kantarelis E, Donaj P, Yang W, Zabaniotou A

机构信息

Department of Chemical Engineering, Aristotle University of Thessaloniki, University Campus, Thessaloniki, Greece.

出版信息

J Hazard Mater. 2009 Aug 15;167(1-3):675-84. doi: 10.1016/j.jhazmat.2009.01.036. Epub 2009 Jan 19.

DOI:10.1016/j.jhazmat.2009.01.036

PMID:19237247

Abstract

In the present study the energetic valorization of electric cable shredder residues (mixed plastics) has been investigated. Thermochemical conversion by means of High-Temperature Steam Gasification (HTSG) and High-Temperature Pyrolysis (HTP) was studied. The effects of temperature and reaction time--process parameters--were investigated. Comparison of the results showed that HTSG seems a more suitable process in terms of produced syngas quality (64%, v/v and 13MJ/Nm(3)) than HTP because of higher H(2) yield and lower tar content.

摘要

在本研究中，对电缆切碎机残渣（混合塑料）的能源回收利用进行了研究。研究了通过高温蒸汽气化（HTSG）和高温热解（HTP）进行的热化学转化。研究了温度和反应时间（工艺参数）的影响。结果比较表明，就合成气质量（64%，v/v和13MJ/Nm³）而言，由于氢气产率较高且焦油含量较低，高温蒸汽气化似乎比高温热解更适合该工艺。

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通过高温热解（HTP）和高温蒸汽气化（HTSG）实现塑料废物的可持续增值以获取能源并确保环境安全。

Sustainable valorization of plastic wastes for energy with environmental safety via High-Temperature Pyrolysis (HTP) and High-Temperature Steam Gasification (HTSG).

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