Comparison of real waste (MSW and MPW) pyrolysis in batch reactor over different catalysts. Part II: Contaminants, char and pyrolysis oil properties

被引:91
作者
Miskolczi, Norbert [1 ]
Ates, Funda [2 ]
Borsodi, Nikolett [1 ]
机构
[1] Univ Pannonia, MOL Dept Hydrocarbon & Coal Proc, H-8200 Veszprem, Hungary
[2] Anadolu Univ, Fac Engn, Dept Chem Engn, TR-26555 Eskisehir, Turkey
来源
BIORESOURCE TECHNOLOGY | 2013年 / 144卷
关键词
Pyrolysis; Double bond isomerization; Contaminants; Catalysts; BIO-OIL; VACUUM PYROLYSIS; CO-PYROLYSIS; BIOMASS; FUEL; POLYMERS; PLASTICS; BIOCHAR; QUALITY; BARK;
D O I
10.1016/j.biortech.2013.06.109
中图分类号
S2 [农业工程];
学科分类号
0828 ;
摘要
Pyrolysis of real wastes (MPW and MSW) has been investigated at 500 degrees C, 550 degrees C and 600 degrees C using Y-zeolite, beta-zeolite, equilibrium FCC, MoO3, Ni-Mo-catalyst, HZSM-5 and Al(OH)(3) as catalysts. The viscosity of pyrolysis oils could be decreased by the using of catalysts, especially by beta-zeolite and MoO3. Both carbon frame and double bound isomerization was found in case of thermo-catalytic pyrolysis. Char morphology and texture analysis showed more coke deposits on the catalyst surface using MSW raw material. Pyrolysis oils had K, S. P Cl, Ca, Zn, Fe, Cr, Br and Sb as contaminants; and the concentrations of K, S. P, Cl and Br could be decreased by the using of catalysts. (C) 2013 Elsevier Ltd. All rights reserved.
引用
收藏
页码:370 / 379
页数:10
相关论文
共 34 条
[1]   Bioslurry as a Fuel. 3. Fuel and Rheological Properties of Bioslurry Prepared from the Bio-oil and Biochar of Mallee Biomass Fast Pyrolysis [J].
Abdullah, Hanisom ;
Mourant, Daniel ;
Li, Chun-Zhu ;
Wu, Hongwei .
ENERGY & FUELS, 2010, 24 (10) :5669-5676
[2]  
[Anonymous], BIORESOUR TECHNOL
[3]   Comparision of real waste (MSW and MPW) pyrolysis in batch reactor over different catalysts. Part I: Product yields, gas and pyrolysis oil properties [J].
Ates, Funda ;
Miskolczi, Norbert ;
Borsodi, Nikolett .
BIORESOURCE TECHNOLOGY, 2013, 133 :443-454
[4]   Characterization of chars produced in the co-pyrolysis of different wastes: Decontamination study [J].
Bernardo, M. ;
Goncalves, M. ;
Lapa, N. ;
Barbosa, R. ;
Mendes, B. ;
Pinto, F. .
JOURNAL OF HAZARDOUS MATERIALS, 2012, 207 :28-35
[5]   Pyrolysis study of a PVDC and HIPS-Br containing mixed waste plastic stream: Effect of the poly(ethylene terephthalate) [J].
Bhaskar, Thallada ;
Tanabe, Maki ;
Muto, Akinori ;
Sakata, Yusaku .
JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS, 2006, 77 (01) :68-74
[6]   Pyrolysis and debromination of flame retarded polymers of electronic scrap studied by analytical pyrolysis [J].
Blazsó, M ;
Czégény, Z ;
Csoma, C .
JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS, 2002, 64 (02) :249-261
[7]   Bench-scale fluidized-bed pyrolysis of switchgrass for bio-oil production [J].
Boateng, Akwasi A. ;
Daugaard, Daren E. ;
Goldberg, Neil M. ;
Hicks, Kevin B. .
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2007, 46 (07) :1891-1897
[8]   Bio-oils obtained by vacuum pyrolysis of softwood bark as a liquid fuel for gas turbines. Part II: Stability and ageing of bio-oil and its blends with methanol and a pyrolytic aqueous phase [J].
Boucher, ME ;
Chaala, A ;
Pakdel, H ;
Roy, C .
BIOMASS & BIOENERGY, 2000, 19 (05) :351-361
[9]   Review of fast pyrolysis of biomass and product upgrading [J].
Bridgwater, A. V. .
BIOMASS & BIOENERGY, 2012, 38 :68-94
[10]  
Diebold J.P., 2000, REV CHEM PHYS MECH S
1234