43 resultados para AE AQUARII
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Invokaatio: A.S.S.ae [et] I.T.
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Invokaatio: A.S.S.ae & I.T.
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Invokaatio: A.S.S.ae & I.T.
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Invokaatio: A.S.S.ae [et] I.T.
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Variantti A.
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Variantti A.
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Nimiösivulla myös motto: Cic. in Lael. Non aquâ, non aëre, ...
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Variantti A.
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Variantti A.
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Variantti B.
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Variantti B.
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Kartussissa ylhäällä vasemmalla: Perill[ustri] ac Generos[issi]mo Domino Gustavo Horn Comiti Biörneburgi, B. in Marienburgh, D[omi]n[o] in Hering et Malla. et c[aetera] S[acr]ae R[egi]ae M. Regnorumq[ue] Sueciae Senatori et Campi Mareschallo, Finlandiæ Australis Iudici Provinciali Equiti Aurato. Tabulam hanc Auct. Andrea Bureo Sueco. D.D. J. Blaeu.
Resumo:
The objectives of this master’s thesis were to understand the importance of bubbling fluidized bed (BFB) conditions and to find out how digital image processing and acoustic emission technology can help in monitoring the bed quality. An acoustic emission (AE) measurement system and a bottom ash camera system were evaluated in acquiring information about the bed conditions. The theory part of the study describes the fundamentals of BFB boiler and evaluates the characteristics of bubbling bed. Causes and effects of bed material coarsening are explained. The ways and methods to monitor the behaviour of BFB are determined. The study introduces the operating principles of AE technology and digital image processing. The empirical part of the study describes an experimental arrangement and results of a case study at an industrial BFB boiler. Sand consumption of the boiler was reduced by optimization of bottom ash handling and sand feeding. Furthermore, data from the AE measurement system and the bottom ash camera system was collected. The feasibility of these two systems was evaluated. The particle size of bottom ash and the changes in particle size distribution were monitored during the test period. Neither of the systems evaluated was ready to serve in bed quality control accurately or fast enough. Particle size distributions according to the bottom ash camera did not correspond to the results of manual sieving. Comprehensive interpretation of the collected AE data requires much experience. Both technologies do have potential and with more research and development they may enable acquiring reliable and real-time information about the bed conditions. This information could help to maintain disturbance-free combustion process and to optimize bottom ash handling system.
