Charakterystyka eksplozji gazu syntezowego z procesu zgazowania

Skřínský, Jan; Vereš, Ján; Čespiva, Jakub; Ochodek, Tadeáš; Borovec, Karel; Koloničný, Jan

doi:10.29227/im-2020-01-66

Cited by 2 publications

(2 citation statements)

References 4 publications

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“…Skřínský [8] studied the behaviour of biomass derived producer gas within 0.02 m 3 spherical explosion vessel and determined maximal pressure p max = 5.4-7.0 bar and deflagration index K G = 45-63 bar•m•s −1 at various temperatures and pressures. Skřínský et al [9] presented a study in which he found maximal explosion pressure p ex = 7.1 ± 0.2 bar and K G = 170 ± 14 bar•m•s −1 for 30% vol. concentration of producer gas in air.…”

Section: Explosion Experimentsmentioning

confidence: 99%

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Evaluation and Safety Assessment of Biomass-/Waste-Generated Producer Gas

Čespiva

Skřínský

Vereš

et al. 2022

WIT Transactions on Ecology and the Environment

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The production of synthetic gas and alternative liquid fuels, based on renewable and waste source materials, is an emerging topic. With growing energy demand and increasing CO2 concentration within the atmosphere, caused by excessive fossil fuels combustion, alternative ways of energy utilisation, storage and transformation are intensely being sought and developed. Combining technologies of gasification and Fischer-Tropsch catalytic synthesis of biomass/waste materials can provide not only a possibility to replace fossil fuels extraction, but it can partially solve the issue of growing amounts of unprocessed waste materials. The 200 kW power input technology for gasification of biomass/waste materials with sliding bed, cross/updraft reactor was used to perform experimental measurements of conversion of waste materials into producer gas. This gas, with potential to be used as a source gas for catalytic synthesis was examined from quality and safety points of view. The composition and suitability for its utilisation was evaluated, as well as safety assessment in terms of its explosivity was determined. The latter mentioned was carried out in 1 m 3 spherical explosion vessel to determine pressure rise during the explosion of the producer gas. The results showed interesting differences between measured data and mathematical model, probably caused by the presence of other substances, such as tar compound, solid particles and other pollutants.

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Section: Explosion Experimentsmentioning

confidence: 99%

“…Skřínský [8] and Skřínský et al [9] studied the behaviour of biomass-derived producer gas within 0.2 m 3 spherical explosion vessel at various temperatures and pressures. Also, di Sarli et al [10] studied similar gas from explosion point of view.…”

Section: Introductionmentioning

confidence: 99%

Evaluation and Safety Assessment of Biomass-/Waste-Generated Producer Gas

Čespiva

Skřínský

Vereš

et al. 2022

WIT Transactions on Ecology and the Environment

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Entrained Flow Plasma Gasification of Sewage Sludge–Proof-of-Concept and Fate of Inorganics

et al. 2022

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Sewage sludge is a residue of wastewater processing that is biologically active and consists of water, organic matter, including dead and living pathogens, polycyclic aromatic hydrocarbons, and heavy metals, as well as organic and inorganic pollutants. Landfilling is on the decline, giving way to more environmentally friendly utilisation routes. This paper presents the results of a two-stage gasification–vitrification system, using a prototype-entrained flow plasma-assisted gasification reactor along with ex situ plasma vitrification. The results show that the use of plasma has a considerable influence on the quality of gas, with a higher heating value of dry gas exceeding 7.5 MJ/mN3, excluding nitrogen dilution. However, dilution from plasma gases becomes the main problem, giving a lower heating value of dry gas with the highest value being 5.36 MJ/mN3 when dilution by nitrogen from plasma torches is taken into account. An analysis of the residues showed a very low leaching inclination of ex-situ vitrified residues. This suggests that such a system could be used to avoid the problem of landfilling significant amounts of ash from sewage sludge incineration by turning inorganic residues into a by-product that has potential use as a construction aggregate.

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Charakterystyka eksplozji gazu syntezowego z procesu zgazowania

Cited by 2 publications

References 4 publications

Evaluation and Safety Assessment of Biomass-/Waste-Generated Producer Gas

Evaluation and Safety Assessment of Biomass-/Waste-Generated Producer Gas

Entrained Flow Plasma Gasification of Sewage Sludge–Proof-of-Concept and Fate of Inorganics

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