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Warianty tytułu
Sterowanie optymalne procesem spalania
Języki publikacji
Abstrakty
This paper proposes a multi-dimensional optimal controller for the combustion process control. This approach provides the flexibility to migrate from many separate systems, based on the traditional multi-SISO control scheme. Discussed algorithm takes into account the additional information about the process, eg. on the basis of the flame image in the combustion proces. Paper presents selected results of simulation studies.
W artykule zaproponowano wielowymiarowy, optymalny kontroler do sterowania procesem spalania. Podejście to umożliwia elastyczną migrację z wielu odrębnych układów, opartych na tradycyjnym schemacie sterowania typu SISO. Omówiony algorytm, pozwala uwzględnić dodatkowe informacje o procesie, np. na podstawie obrazu płomienia w procesie spalania. W pracy przedstawiono wybrane rezultaty przeprowadzonych badań symulacyjnych.
Wydawca
Czasopismo
Rocznik
Tom
Strony
157--160
Opis fizyczny
Bibliogr. 25 poz., schem., tab., wykr.
Twórcy
autor
- Politechnika Lubelska, Instytut Elektroniki i Technik Informacyjnych, ul. Nadbystrzycka 38a, 20-618 Lublin
autor
- Politechnika Lubelska, Instytut Elektroniki i Technik Informacyjnych, ul. Nadbystrzycka 38a, 20-618 Lublin
autor
- Kazakh National Technical University after K. I. Satpaev, Kazakhstan 050013, 22, Satpaev Street, Almaty, Kazakhstan
autor
- Kazakh National Technical University after K. I. Satpaev, Kazakhstan 050013, 22, Satpaev Street, Almaty, Kazakhstan
autor
- Kazakh National Technical University after K. I. Satpaev, Kazakhstan 050013, 22, Satpaev Street, Almaty, Kazakhstan
Bibliografia
- [1] Elnagar G., Kazemi M.A., Razzaghi M., The pseudospectral Legendre method for discretizing optimal control problems, IEEE Transactions on Automatic Control, 40 (1995), 1793–1796
- [2] Flyn D., Thermal Power Plant Simulation and Control, (Poncia G.), Multivariable power plant control, The Institution of Electrical Engineers, (2003), 179-202
- [3] Betts J.T., Practical Methods for Optimal Control Using Nonlinear Programming, SIAM, Philadelphia, PA, 2001
- [4] Wilamowski B.M., Irwin J .D., The Industrial Electronics Handbook Control and Mechatronics, CRC Press, (2011)
- [5] Zhao H., Li W., Taft C., Bentsman J., Robust controller design for simultaneous control of throttle pressure and megawatt output in a power plant unit, International Journal of Robust and Nonlinear Control, 9 (1999), no. 7, 425-446
- [6] Dimeo R.M., Lee K.Y., Genetics-based control of a MIMO boiler-turbine plant'. Proceedings of the 33rd IEEE Conference on Decision and Control, Karlsruhe, Germany, (1994)
- [7] Kordylewski W, Spalanie i paliwa (in Polish), OWPW (2008)
- [8] Kordylewski W, Niskoemisyjne techniki spalania w energetyce (in Polish), OWPW (2000)
- [9] Strahle W.C., Combustion noise, Progress in Energy and Combustion Science, 4 (1978), 157-176
- [10] Jarosiński J., Techniki czystego spalania (in Polish), WNT (1996)
- [11] Abdennour B.A., Lee K., An autonomous control system for boiler-turbine units, IEEE Transactions on Energy Conversion, 11 (1996), 401-406.
- [12] Garcia H., Ray A., Edwards R., A reconfigurable hybrid system and its application to power-plant control, IEEE Transactions on Control Systems Technology, 3 (1995), 157-170
- [13] Hangstrup M., Strategies for industrial multivariable control with application to power plant control. PhD thesis, Aalborg University, Department of Control Engineering, (1998)
- [14] Mortensen J., Moelbak T., Andersen P., Pedersen T., Optimization of boiler control to improve the load-following capability of power-plant units, Control Engineering Practice, 6 (1998), 531-540
- [15] Poncia G., Bittanti S., Multivariable model predictive control of a thermal power plant with built-in classical regulation, International Journal of Control, 11 (2001), 1118-1130
- [16] Ordys A.W., Grrimble M., A multivariable dynamic performance predictive control with application to power generation plants, Proceedings of the IFAC World Congress, San Francisco, (1996)
- [17] Oluwande G., Exploitation of advanced control techniques in power generation, Computing and Control Engineering Journal, 12 (2001), 63-67
- [18] Wojcik W., Kotyra A, Wykorzystanie obrazu płomienia do oceny stabilności spalania mieszanin pyłu węglowego i biomasy, Pomiary Automatyka Kontrola, 3 (2005), 34-36, (in Polish)
- [19] Wójcik W., Kotyra A., Golec T., Gromaszek K., Vision based monitoring of coal flames, Przegląd Elektrotechniczny, 84 (2008), n.3, 241-243
- [20] Huang Y.P. Yan Y., Transient two-dimensional temperature measurement of open flames by dual spectral image analysis, Transactions of the Institute of Measurement and Control, 22 (2000), n.5, 371-384
- [21] Wójcik W., Kotyra A., Ławicki T., Zastosowanie obrazowowodu do oceny stabilności pracy palnika, Elektronika, 6 (2008), 130-134, (in Polish)
- [22] Vaezi V., Aldredge R.C., Infuences of acoustic instabilities on turbulent-flame propagation, Experimental Thermal and Fluid Science, 20 (2000), 162-169
- [23] Hii N.C., Tan C.K., Alex Z., S. Chong, Wilcox J., The Measurement Of Pulverised Fuel Flows by High Frequency Acoustic Emission Techniques (2006), 7th INFUB, 326-338
- [23] Romero C., Li X., Keyvan S., Rossow R., Spectrometer-based combustion monitoring for fame stoichiometry and temperature control, Applied Thermal Engineering, 25 (2005), 659-676
- [24] Lu G., Yan Y., Cornwell S., Riley G., Temperature Profiling of Pulverised Coal Flames Using Multi-Colour Pyrometric and Digital Umaging Techniques, IMTC 2005 - Instrumentation and Measurement Technology Conference (2005), 1658-1662
- [25] Kauranen P., Anderson-Engels S., Svanberg S., Spatial mapping of flame radical emission using a spectroscopic multi-colour imaging system, Applied Physics, 53 (1991), n.4, 260-264
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b8672d62-6ec8-48c9-a68e-8bcbdc04a60c
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