"Influence of Particle Size and Temperature on Gasification Performance in Externally Heated Gasifier"
written by Yu Feng, Bo Xiao, Klaus Goerner, Gong Cheng, Jingbo Wang,
published by Smart Grid and Renewable Energy, Vol.2 No.2, 2011
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Analysis of Solid residue and Flue Gas from Thermal Plasma Treatment of Petroleum Sludge
[2] Effect of particle size on syngas production using sawdust of Cameroonian Triplochiton scleroxylon
[3] Scientific African
[4] Thermodynamic Analysis of Lignite Gasification in the Downdraft Gasifier
[5] Feedstock Characterization for Pyrolysis and Gasification
Coal and Biomass Gasification, 2018
[6] CO2 Biomass Fluidized Gasification. Thermodynamic and Reactivity Studies.
[7] Thermal Depolymerization of Biomass with Emphasis on Gasifier Design and Best Method for Catalytic Hot Gas Conditioning
[8] A review of hydrogen production via biomass gasification and its prospect in Bangladesh
International Journal of Hydrogen Energy, 2018
[9] Hydrogen enriched syngas production via gasification of biofuels pellets/powders blended from olive mill solid wastes and pine sawdust under different water steam …
International Journal of Hydrogen Energy, 2018
[10] Effects of Mechanical Preprocessing Technologies on Gasification Performance and Economic Value of Syngas
Biomass Preprocessing and Pretreatments for Production of Biofuels, 2018
[11] Thermodynamic Analysis of Lignite Gasification Process in the Downdraft Gasifier
Conference Paper, 2018
[12] Chemical engineering and reactor design of a fluidised bed gasifier
[13] Study on Performance and Environmental Impact of Sugarcane-Bagasse Gasification
[15] Evaluating the production cost and quality of feedstock produced by a sawdust machine
Biomass and Bioenergy, 2017
[16] Estimating the pyrolysis kinetic parameters of coal, biomass, and their blends: a comparative study
Energy & Fuels, 2016
[17] Effect of sintering temperature on complex optical properties of 0.8 (PbMg1/3Nb2/3O3)–0.2 (PbTiO3) system
Ceramics International, 2016
[18] Control of Biodiesel Generator Set in Biomass Gasification Emulation for Use in Emergency Energy Module (EEM)
[19] Combined heat and power generation systems for optimum environmental and economic performance: a case study in Catalonia
[20] Estimating the Pyrolysis Kinetic Parameters of Coal, Biomass and their Blends: A Comparative Study
Energy & Fuels, 2016
[21] Design and development of gasification processes in fluidised bed chemical reactor engineering
[22] Mechanical strength of binary oil palm kernel shell and HZSM-5 zeolite fuel pellets
Fuel, 2015
[23] Band gap engineering of CuS nanoparticles for artificial photosynthesis
Materials Science in Semiconductor Processing, 2015
[24] Effect of sintering temperature on complex optical properties of 0.8 (PbMg1/3Nb2/3O3)-0.2 (PbTiO3) system
Ceramics International, 2015
[25] Combined slow pyrolysis and steam gasification of biomass for hydrogen generation—a review
International Journal of Energy Research, 2015
[26] Review of micro-and small-scale technologies to produce electricity and heat from Mediterranean forests? wood chips
Renewable and Sustainable Energy Reviews, 2015
[27] Integrated Analysis of Seaweed Components during Seasonal Fluctuation by Data Mining Across Heterogeneous Chemical Measurements with Network Visualization
Analytical chemistry, 2014
[28] Gasification of lignite in a fixed bed reactor: Influence of particle size on performance of downdraft gasifier
Energy.Elsevier, 2014
[29] Syngas Production from Lignite Coal Using K2CO3 Catalytic Steam Gasification with Controlled Heating
Procedia Chemistry, 2014
[30] Photocatalytic study of alumina–zirconia ceramic nanocomposite synthesized by spray pyrolysis
Ceramics International, 2014
[31] Syngas production from lignite coal using K2CO3 catalytic steam gasification with controlled heating rate in pyrolysis step
Procedia Chemistry, 2014
[32] Influence of process parameters on the strength of oil palm kernel shell pellets
Journal of Materials Science, 2013
[33] Thermo-Chemical Analysis of Biomass Gasification by Gibbs Free Energy Minimization Model-Part: II (Optimization of Biomass Feed
International Journal of Green Energy, 2013
[34] The effects of particle size, different corn stover components, and gas residence time on torrefaction of corn stover
Energies, 2012
[35] Pelletisation of Biomass Oil Palm Kernel Shells for Gasification