(521e) Experimental Study of Bio-oil Production from Corn Stalk Using a Fluidized Bed under Hot Flue Atmosphere | AIChE

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(521e) Experimental Study of Bio-oil Production from Corn Stalk Using a Fluidized Bed under Hot Flue Atmosphere

Authors 

Li, Z. - Presenter, Shandong University of Technology
Niu, W.
Yi, W., Shandong University of Technology
Li, Y.
Fu, P., Shandong University of Technology
Zhang, D.
Wang, J., Shandong University of Technology
Bai, X., Shandong University of Technology



Experimental study of
Bio-oil Production from Corn Stalk using a Fluidized bed under hot
flue atmosphere

Zhihe
Lia, Weisheng Niub, Weiming Yia*, Yongjun Lia, Peng Fua, Deli Zhang a, Jing Wanga,
Xueyuan Baia *

aSchool of
Agricultural and Food Engineering, Shandong
University of Technology, Zibo 255049, China

bSchool of
Engineering, Shenyang Agricultural University,Shenyang110866,
China

*Corresponding author. Tel.:
+86 533 2786308; Fax: +86 533 2786158

Abstract

In order to investigate the effects of pyrolysis temperature on the
product yields,  fast pyrolysis
experiments for bio-oil production have been conducted on corn stalk using a
novel fluidized bed reactor under hot flue atmosphere at the selected
temperature range of 450-520℃. During
experiments, un-condensable gases were detected on-line with Gasboard-3100. The
bio-oil obtained under the experimental conditions that gave maximum oil yield
were used for further characterization.The chemical compositions of the bio-oil
were determined by GC-MS. Physical analysis of the bio-oil such as pH value,
viscosity and calorific value were determined with PHS-2F pH meter (Shanghai Precision
and Science Instrument Co., LTD), NDJ-1 rotational viscometer (Shanghai Changyi Gealogical
Instruments Co., Ltd) and WZR-1T oxygen combustion bomb (Changsha
Bente Apparatus), respectively.

The results show that maximum bio-oil yield of 54.1wt% is achievedd at 500℃. The main
components of un-condensable gaseous mixture includes Methane, Hydrogen, Carbon
dioxide and Carbon monoxide. Bio-oil is a complex compound which contains many
chemical species and it is an acidic, high viscosity, low heat value and low
volatility liquid in comparison with diesel fuel. The properties change rapidly
during storage condition. Its utilization as fuels requires some form of
upgrading to improve storage stability and heat value and reduce the water
content, viscosity and acidity.

Key words: Pyrolysis; Fluidized bed, Corn stalk; Bio-oil; Flue


Fig. 1.
Schematic diagram of the fluidized bed experimental system

Fig. 2  Product
yields of corn stalk at selected pyrolysis temperature

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