Study of the Synergetic Effect of Co-Pyrolysis of Lignite and High-Density Polyethylene Aiming to Improve Utilization of Low-Rank Coal.

Ivan Kojić,Achim Bechtel,Nikoleta Aleksić,Gordana Gajica,Dragana Životić,Ksenija Stojanović,Snežana Trifunović

doi:10.3390/polym13050759

Ivan Kojić, Achim Bechtel + Show 5 more

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https://doi.org/10.3390/polym13050759

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Journal: Polymers	Publication Date: Feb 28, 2021
Citations: 11	License type: CC BY 4.0

Affiliation: University of Belgrade, Montanuniversität Leoben

Abstract

The mutual impact of low-quality lignite and high-density polyethylene (HDPE) during open system pyrolysis was investigated, aiming to improve utilization of lignite with simultaneous treatment of HDPE waste. Pyrolysis of lignite, HDPE, and their mixture (mass ratio, 1:1) was performed at temperatures 400, 450, 500, 550, and 600 °C. Initial substrates and pyrolysis products were characterized by thermogravimetric analysis (TGA), gas chromatography–mass spectrometry (GC–MS), specific carbon isotope analysis of individual hydrocarbons (δ13C), Rock-Eval pyrolysis, and elemental analysis. The positive synergetic effect during co-pyrolysis of lignite/HDPE mixture was observed at temperatures ≥450 °C, with the greatest being at 500 °C. The highest yield of liquid co-pyrolysis products with a similar composition to that of crude oils is also noticed at 500 °C. The yields of liquid and gaseous products and quality of pyrolytic products obtained by co-pyrolysis of lignite/HDPE mixture are notably improved compared with pyrolysis of lignite alone. On the other hand, data obtained from pyrolysis of HDPE alone indicate that it cannot be concurrent to well-developed catalytic thermal processes for polymer recycling. However, concerning the huge amount of produced HDPE, at least part of this plastic material can be reused for advanced thermal treatment of lignite, particularly in countries where this low-rank coal represents the main source of energy.

Highlights

Production of energy in Serbia is based on coal (50%), lignite (92% of total coal resources) [1]
The positive synergetic effect during co-pyrolysis of lignite/high-density polyethylene (HDPE) mixture, which resulted in higher yields of liquid and gaseous products, and smaller yield of solid product, than theoretical ones is clearly observed at a temperature ≥450 ◦ C, with the greatest being at 500 ◦ C
The carbon isotopic signatures of individual n-alkanes and n-alkenes, being enriched in 12 C, in lignite/HDPE liquid co-pyrolysates in relation to both lignite and HDPE liquid pyrolysates unambiguously confirmed the synergetic effect at 450 ◦ C and at 500 ◦ C, which promotes degradation of both

Summary

Introduction

Production of energy in Serbia is based on coal (50%), lignite (92% of total coal resources) [1]. The main lignite deposits in Serbia are of Upper Miocene age. They are located in Kolubara and Kostolac basins, and in the Kovin deposit [2,3,4]. Being a small country (about 7 million people in 2018), Serbia is placed among the 15 greatest producers of lignite [5]. Serbia produces about 38 Mt of lignite [6,7]. It is of great importance to improve the rational utilization of lignite

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