Tytuł artykułu
Autorzy
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
A one-dimensional model of the catalytic combustion of propane over a catalyst slab in non-stationary state was formulated. Due to the high value of the BiH number adapted the system exhibited internal temperature gradients. The numerical experiments conducted demonstrated unsteady aspects of ignition/extinction of reaction in non-stationary and cyclic stationary states. The model was further used to investigate the warm-up/light-off characteristics of the system with the high value of the Bih number, the effect of short disturbances on extinction behaviour and the effect of cyclic operation on yield and temperature histeresis.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
7--15
Opis fizyczny
Bibliogr. 12 poz., rys., tab.
Twórcy
autor
- Wrocław University of Technology Institute of Chemical Engineering and Heating Equipment
Bibliografia
- [1] Hayes R. E., Kolaczkowski S.T. Introduction to catalytic combustion. Gordon and Breach Science Publishers, Amsterdam, (1997).
- [2] Hayes R.E., Liu B., Moxom R., Votsmeier M. The effect of washcoat geometry on mass transfer in monolith reactors. Chemical Engineering Science, 59, (2004), 3169-3181.
- [3] Brinkmann M., Barresi A. A., Vanni M., Baldi G. Unsteady state treatment of very lean waste gases in a network of catalytic burners. Catalysis Today, 47, (1999), 263-277.
- [4] Zięba A., Banaszak T., Miller R. Thermal-catalytic oxidation of waste gases. Applied Catalysis A: General, 124, (1995), 47-57.
- [5] Forzatti P. Status and perspectives of catalytic combustion for gas turbines. Catalysis Today, 83, (2003), 3-18.
- [6] Mulder A., Brost O., Neuman P. Catalytic combustion in a sinterd metal reactor with integrated heat exchanger. Applied Thermal Engineering, 17, (1997), 825-836.
- [7] Forzatti P., Groppi G. Catalytic combustion for the production of energy. Catalysis Today, 54, (1999), 165- 180.
- [8] Barresi A. A., Cittadini M., Zucca A. Investigation of deep catalytic oxidation of toluene over Pt-based monolithic catalyst by dynamic experiments. Applied Catalysis B: Environmental, 43, (2003), 27-42.
- [9] Reinke M., Mantzaras J., Schaeren R., Bombach R., Inauen A., Schenker S. High-pressure catalytic combustion of methane over platinum: In situ experiments and detailed predictions. Combustion and Flame, 136, (2004), 217-240.
- [10] Shuai S.J., Wang J.X. Unsteady temperature fields of monoliths in catalytic converters. Chemical Engineering Science, 100, (2004), 95-107.
- [11] Dalla Betta R.A., Tsurumi K., Shoji T., Ezawa N., Ribiero F.H., Garten R. Palladium partial combustion catalysts and a process for using them, (1992), Patent application number: PCT/US91/08918, Publication number: WO 92/09848.
- [12] Budzianowski W., Koziol A. Determination of parameters of a catalyst particle in non-stationary conditions. Inżynieria Chemiczna i Procesowa, 25, (2004), 751-756.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWM2-0051-0006