DocumentCode :
1571648
Title :
Influence of biomass materials and gas flow rate on downdraft gasifier performance
Author :
Sharma, Arvind Kumar
Author_Institution :
Dept. of Mech. Eng., D.C.R. Univ. of Sci. & Technol., Murthal, India
fYear :
2012
Firstpage :
1
Lastpage :
5
Abstract :
In this article, the performance of a 20 kWe open top downdraft biomass gasifier has been modeled using EQB computer code. EQB program, consists of six modules (i.e., fluid flow, heat transfer, drying, pyrolysis, and oxidation and reduction reactions), has been used to describe physical and chemical processes of downdraft biomass gasifier. A brief description of EQB, its strength and limitations are also highlighted. Model predictions fitted well with measurements. The influence of gas flow rate and type of biomass materials (i.e., soft-wood, ordinary-wood and hard-wood) on dry gas composition, calorific value, conversion efficiency, temperature profile, and gasifier power output has been investigated. Although, results for gasifier operated on different biomass materials give relatively low fluctuations, even though, hardwood is identified better class of wood material.
Keywords :
biofuel; chemically reactive flow; drying; fluctuations; fuel gasification; heat transfer; oxidation; prediction theory; pyrolysis; reduction (chemical); renewable energy sources; wood; EQB computer code; EQB program; biomass materials; calorific value; chemical processes; conversion efficiency; dry gas composition; drying; fluid flow; gas flow rate; gasifier power output; heat transfer; model predictions; open top downdraft biomass gasifier performance; oxidation; physical processes; pyrolysis; reduction reactions; temperature profile; wood material; Biological system modeling; Biomass; Fluid flow; Heat transfer; Oxidation; Solids; Biomass materials; Downdraft gasifier; Gasification; Parametric studies;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Power India Conference, 2012 IEEE Fifth
Conference_Location :
Murthal
Print_ISBN :
978-1-4673-0763-5
Type :
conf
DOI :
10.1109/PowerI.2012.6479570
Filename :
6479570
Link To Document :
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