Effect of polymers on lignite pyrolysis

被引：14

作者：

Cit, Ilkay ^{[1
]}

Sinag, Ali ^{[1
]}

Tekes, Ahmen Turan ^{[1
]}

Acar, Pinar ^{[1
]}

Misirhoglu, Zarife ^{[1
]}

Canel, Muammer ^{[1
]}

机构：

[1] Ankara Univ, Dept Chem, Fac Sci, TR-06100 Ankara, Turkey

来源：

JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS | 2007年 / 80卷 / 01期

关键词：

polymers; pyrolysis; tar; benzoic acid;

D O I：

10.1016/j.jaap.2007.02.006

中图分类号：

O65 [分析化学];

学科分类号：

070302 ; 081704 ;

摘要：

Effect of polypropylene (PP) and polyethylene terephthalate (PET) on lignite pyrolysis is studied in this work. Experiments are conducted in the temperature range of 400-700 degrees C in a tubular reactor. PP and PET are blended with lignite (M.K.P. lignite, Bursa, Turkey) in the polymer ratio of 33%, 50% and 67% (w/w), respectively. Tar, gas and char yields are calculated and plotted against to the temperatures they obtained for each experimental run. A remarkable synergetic effect between lignite and polymers is also found. The possible reasons of this variation are discussed. Analysis of the tars obtained by different experimental conditions is conducted by GC-MS technique. High yields of benzoic acid and biphenyl are obtained during the pyrolysis of PET and PETAignite. (c) 2007 Elsevier B.V All rights reserved.

引用

页码：195 / 202

页数：8

共 50 条

[21] The pyrolysis characteristics of low ash lignite
Xu, Ying
Wang, Yong
Zhang, Yongfa
Zhang, Guojie
Li, Xianglan
ADVANCES IN ENERGY SCIENCE AND TECHNOLOGY, PTS 1-4, 2013, 291-294 : 755 - 758
[22] Following the structure and reactivity of Tuncbilek lignite during pyrolysis and hydrogenation
Kanca, Arzu
Dodd, Matthew
Reimer, Jeffrey A.
Uner, Deniz
FUEL PROCESSING TECHNOLOGY, 2016, 152 : 266 - 273
[23] Pyrolysis characteristics of Lignite in a fluidized bed: Influence of pyrolysis temperature
Wen, Liang
Cen, Jianmeng
Fang, Mengxiang
ICEET: 2009 INTERNATIONAL CONFERENCE ON ENERGY AND ENVIRONMENT TECHNOLOGY, VOL 1, PROCEEDINGS, 2009, : 257 - 261
[24] Effect of a combined process on pyrolysis behavior of huolinhe lignite and its kinetic analysis
Liu, Shucheng
Zhao, Hongyu
Liu, Xiangyang
Li, Yuhuan
Zhao, Guofeng
Wang, Yonggang
Zeng, Ming
FUEL, 2020, 279 (279)
[25] Effect of acid-washing on the distribution of phenols from Wulagai lignite pyrolysis
Guan Jun
He Demin
Zeng Fanhu
Zhang Qiumin
ADVANCES IN ENERGY SCIENCE AND TECHNOLOGY, PTS 1-4, 2013, 291-294 : 827 - +
[26] Pretreatment of lignite by acidic bronsted ionic liquid [B(SO3H)mim]OTf for lignite pyrolysis
Yu, Wenhao
Zhang, Hao
Lei, Zhiping
Shui, Hengfu
Kang, Shigang
Wang, Zhicai
Ren, Shibiao
Pan, Chunxiu
FUEL, 2019, 236 : 861 - 869
[27] Pyrolysis of polymers in the presence of a commercial clay
Marcilla, A
Gómez, A
Menargues, S
Ruiz Femenia, R
POLYMER DEGRADATION AND STABILITY, 2005, 88 (03) : 456 - 460
[28] PORE FORMATION IN THE PYROLYSIS OF POLYMERS TO CERAMICS
YAO, H
KOVENKLIOGLU, S
KALYON, DM
CHEMICAL ENGINEERING COMMUNICATIONS, 1990, 96 : 155 - 175
[29] Laser Pyrolysis of Lignite with Different Mineral Compositions
B. P. Aduev
V. D. Volkov
Ya. V. Kraft
N. V. Nelyubina
Coke and Chemistry, 2024, 67 (11) : 634 - 642
[30] Reactive force-field simulation of the effect of heating rate on pyrolysis behavior of lignite
Xu, Fang
Wang, Qing
Wu, Chengchang
KOREAN JOURNAL OF CHEMICAL ENGINEERING, 2022, 39 (03) : 576 - 585

← 1 2 3 4 5 →