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Analiza mechanizmów samozaplonu wodoru przy jego uwolnieniu do atmosfery
Mechanisms of hydrogen spontaneous ignition after its leakage into atmosphere were reviewed. In particular, the electrostatic discharges, diffusive ignition, fast adiabatic compression, Joule-Thomson effect and hot surface ignition were taken into consideration as main ignition sources. Physical (especially thermal) and chemical properties of gaseous hydrogen were listed. The particular stages of a shock wave leading to the gas ignition in channels were described. Methods for studying the hydrogen self-ignition were also discussed.
Analiza mechanizmów samozaplonu wodoru przy jego uwolnieniu do atmosfery
Mechanisms of hydrogen spontaneous ignition after its leakage into atmosphere were reviewed. In particular, the electrostatic discharges, diffusive ignition, fast adiabatic compression, Joule-Thomson effect and hot surface ignition were taken into consideration as main ignition sources. Physical (especially thermal) and chemical properties of gaseous hydrogen were listed. The particular stages of a shock wave leading to the gas ignition in channels were described. Methods for studying the hydrogen self-ignition were also discussed.
Analiza mechanizmów samozaplonu wodoru przy jego uwolnieniu do atmosfery
Analysis of mechanisms of hydrogen spontaneous ignition during its release into atmosphere
Porowski, Rafal (author) / Rudy, Wojciech (author) / Teodorczyk, Andrzej (author)
Przemysl Chemiczny ; 92 ; 76-81
2013
6 Seiten, 5 Bilder, 3 Tabellen, 29 Quellen
Article (Journal)
Polish