Simulation of small-scale waste biomass gasification integrated power production: a comparative performance analysis for timber and wood waste

Sahar Safarian, Runar Unnthorsson, Christiaan Richter

Research output: Contribution to journalArticlepeer-review

Abstract

A simulation model for integrated waste biomass gasification with cogeneration heat and power has been developed using Aspen Plus. The model can be used as a predictive tool for optimization of the gasifier performance. The system has been modeled in four stages. Firstly, moisture content of biomass is reduced. Secondly biomass is decomposed into its elements by specifying yield distribution. Then gasification reactions have been modeled using Gibbs free energy minimization approach. Finally, power is generated through the internal combustion engine as well as heat recovery system generator. In simulation study, the operating parameters like temperature, equivalence ratio (ER) and biomass moisture content are varied over wide range and their effect on syngas composition, low heating value (LHV) and electrical efficiency (EE) are investigated. Overally, increasing temperature and decreasing ER and MC lead to improvement of the gasification performance. However, for maximum electrical efficiency, it is important to find the optimal values of operating conditions. The optimum temperature, ER and MC of the down draft gasifier for timber and wood waste are 800˚C, 0.2-0.3 and 5%. At such optimum conditions, CO and H2 reach to the highest production and LHV and EE are around 7.064 MJ Nm-3 and 45%, respectively.
Original languageEnglish
Pages (from-to)147-152
JournalInternational Journal of Applied Power Engineering (IJAPE)
Volume9
Issue number2
DOIs
Publication statusPublished - Aug 2020

Other keywords

  • Electrical efficiency
  • Power production
  • Process simulation
  • Waste biomass gasification
  • Waste to energy
  • Lífrænn úrgangur
  • Lífmassi
  • Orkugjafar
  • Líkön
  • Gaskennd efni

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