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In light of concerns over climate changes, extensive scientific research is ongoing in the field of CO2 separation [1–5]. No definitive determination has yet been made as to which separation technology should be selected and efforts are continuing to find new methods [6–11]. This paper presents preliminary results of measurements of the disturbance of the uniformity of a nitrogen and CO2 mixture inside a thermoacoustic tube. Transversely to the tube axis, a detection path was placed to identify disturbance of the CO2 and nitrogen content. The tube was filled with a uniform mixture of nitrogen and CO2. An acoustic standing wave was induced inside the tube and the readings of the mixture uniformity disturbance detection system were recorded. More data were recorded from an internal microphone, enabling detection of the standing wave. The results were processed numerically and the computations resulted in a series of curves in the time and frequency domains, illustrating the behavior of the mixture inside the tube.
Czasopismo
Rocznik
Tom
Strony
226--231
Opis fizyczny
Bibliogr. 15 poz., rys., wykr.
Twórcy
autor
- Silesian University of Technology, Konarskiego 18, 44-100 Gliwice, Poland
Bibliografia
- [1] A. Skorek-Osikowska, J. Kotowicz, K. Janusz- Szymańska, Comparison of the energy intensity of the selected CO2-capture methods applied in the ultrasupercritical coal-fired power plants, Energy & Fuels 2012.
- [2] G. Wiciak, J. Kotowicz, Experimental stand for CO2 membrane separation, Journal of Power Technologies 91 (4) (2011) 171–178.
- [3] Bartela, A. Skorek-Osikowska, J. Kotowicz, Integracja bloku elektrociepłowni węglowej na parametry nadkrytyczne z instalacją wychwytu dwutlenku węgla oraz turbiną gazową [integration of a supercritical coal-fired combined heat and power plant unit with a carbon dioxide capture installation and a gas turbine], Rynek Energii 3(100) (2012) 56–62.
- [4] G. Wiciak, Identyfikacja wybranych charakterystyk separacji CO2 membrany kapilarnej polimerowej [identification of selected characteristics of CO2 separation of the capillary polymer membrane], Rynek Energii 3(100) (2012) 94–100.
- [5] K. Janusz-Szymańska, K. J., Analiza procesu membranowej separacji CO2 w supernadkrytycznym bloku węglowym [analysis of the CO2 membrane separation process in an ultra-supercritical coal-fired power unit], Rynek Energii 3(94) (2011) 53–56.
- [6] D. Geller, G. Swift, Thermodynamic efficiency of thermoacoustic mixture separation, J. Acoust. Soc. Am. 112.
- [7] T. Laurell, F. Petersson, A. Nilsson, Chip integrated strategies for acoustic separation and manipulation of cells and particles, Chem. Soc. Rev. 2007.
- [8] D. R. Rector, M. S. Greenwood, A. Salahuddin, S. R. Doctor, G. J. Posakony, V. S. Stenkamp, Simulation of ultrasonic-driven gas separations, Acoustical Society of America.
- [9] G. Swift, P. Spoor, Thermal diffusion and mixture separation in the acoustic boundary layer, J. Acoust. Soc. Am. 106.
- [10] L. Remiorz, S. Dykas, S. Rulik, Numerical modelling of thermoacoustic phenomenon as contribution to thermoacoustic engine model, Task Quarterly 14 (3) 261–273.
- [11] S. Rulik, L. Remiorz, S. Dykas, Application of the CFD technique for numerical modelling of the thermoacoustic engine, Archives of Thermodynamics 32 (3) (2011) 175–191.
- [12] L. Remiorz, S. Rulik, S. Dykas, Numerical modelling of the CO2 separation process, Archives of Thermodynamics 34 (1).
- [13] L. Remiorz, Koncepcja wykorzystania fali termoakustycznej w procesie separacji CO2 [a concept of the use of the thermoacoustic wave in the CO2 separation process], Rynek Energii 4 (2012) 121–125.
- [14] J. T. Białasiewicz, Falki i aproksymacje [Wavelets and approximations], WNT, Warszawa, 2000.
- [15] P. Glynne-Jones, M. Hill, Acoustic manipulation combined with other force fields, Lab Chip 13 (2013) 1003.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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