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The Influence of Laser Biotechnology on Energetic Value and Chemical Parameters of Rose Multiflora Biomass and Role of Catalysts for bio-energy production from Biomass: Case Study in Krakow-Poland

Obid Tursunov, Jan Dobrowolski, Kazimierz Klima, Bogusława Kordon, Janusz Ryczkowski, Grzegorz Tylko, Grzegorz Czerski

World Journal of Environmental Engineering. 2015, 3(2), 58-66 doi:10.12691/wjee-3-2-5
  • Figure 1. Diagram of calorimeter Kl-12 Mn: 1-bomb calorimeter; 2-calorimeter cover; 3-temperature sensor; 4-cover holder with mechanical mixer drive; 5-mechanichal mixer; 6-calorimetric vessel; 7-calorimeter jacket: a) internal wall, b) external wall, c) coil, d) manual mixer; 8-calorimeter control unit; 9-computer; 10-printer; 11-monitor; 12-calorimeter table; 13-power strip
  • Figure 2. Schematic diagram of a scanning electron microscope (JSM—5410, courtesy of JEOL, USA)
  • Figure 3. Results comparison from proximate analysis of Rose multiflora biomass
  • Figure 4. comparison on calorific (energetic) value of three groups of the Rose multiflora biomass
  • Figure 5. X-ray Patterns of Rose multiflora biomass
  • Figure 6. X-ray Patterns of Ni/SiO2 and Ni/SiO2 with K2O as promoter catalysts
  • Figure 7. High (left) and intermediate (right) magnification SEM surface image of catalyst Ni/SiO2, K2O as promoter (NiO min. 17wt%; SiO2 max. 0.1wt%)
  • Figure 8. High (left) and intermediate (right) magnification SEM surface image of catalyst Ni/SiO2 (NiO min. 10.5wt%; SiO2 max. 0.1wt %)