INNE EBOOKI AUTORA
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epub, mobi, ibuk
The monograph presents a review of classical and a presentation of new methodologies of non-invasive (non-contact) flow measurement techniques of nultiphase media and a number of algorithms applicable in the field.
The discussed methods are mainly based on the statistical analysis of collected measurement data, e.g. from electrical tomography systems or systems based on the tracking of radioactive particles.
The work is very valuable and interesting, because it provides comprehensive knowledge on selected aspects of process tomography. It is therefore a valuable supplement to other monographs and studies on this subject.
Prof. Witold Byrski
Rok wydania | 2019 |
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Liczba stron | 150 |
Kategoria | Inne |
Wydawca | Wydawnictwo Naukowe PWN |
ISBN-13 | 978-83-012-0506-5 |
Numer wydania | 1 |
Język publikacji | polski |
Informacja o sprzedawcy | ePWN sp. z o.o. |
INNE EBOOKI AUTORA
POLECAMY
Ciekawe propozycje
Spis treści
Preface | 7 |
Abbreviations | 9 |
Nomenclature | 11 |
Summary | 13 |
Introduction | 15 |
Chapter 1. Multiphase Flow Measurements | 21 |
1.1. Multiphase flow metering | 21 |
1.2. Multiphase flow classification | 22 |
Summary | 24 |
Chapter 2. Tomographic Imaging Systems | 25 |
2.1. Electrical resistance tomography | 26 |
2.2. Electrical capacitance tomography | 27 |
2.3. Reconstruction algorithms | 29 |
Summary | 33 |
Chapter 3. Algorithms for the Real-Time Measurement of Multiphase Flow Parameters Based on Tomographic Images | 35 |
3.1. Methods for multiphase flow velocity determination | 36 |
3.1.1. Pixel to pixel based cross-correlation method for flow velocity calculation | 36 |
3.1.2. Best-correlated pixel method | 37 |
3.1.3. Virtual channel concept method | 41 |
3.1.4. Weighted-mean phases method | 45 |
3.1.5. Phase spectrum method for time delay estimation using twin plane electrical capacitance tomography | 57 |
3.2. Algorithms for swirl flow velocity measurements | 61 |
3.2.1. The centre of gravity method | 63 |
3.2.2. Spatio-temporal cross-correlation method for swirl flow velocity measurement | 64 |
3.2.3. Estimation of the rotation angle of gas/solid swirl flow by subpixel image resizing | 72 |
3.3. Flow pattern tracing method | 79 |
3.4. Estimation of tomography in mixing processes based on tomographic images | 86 |
Summary | 93 |
Chapter 4. Algorythms for the Radioactive Particle Tracking Technique | 95 |
4.1. MCNP5 code in radioactive particle tracking | 96 |
4.1.1. The MCNP5 model | 96 |
4.1.2. Algorithm validation | 100 |
4.2. Iterative position reconstruction algorithm for radioactive particle tracking techniques | 106 |
4.2.1. Algorithm description | 106 |
4.2.2. Algorithm validation | 109 |
4.3. Strategy for fitting source strength and reconstruction procedure in radioactive particle tracking | 113 |
4.4. Modelling of dynamic experiments in the MCNP5 environment | 121 |
4.4.1. Theory | 122 |
4.4.2. Dynamic model benchmarking | 125 |
4.5. The Lambert-Beer Law in time domain form and its application | 127 |
4.5.1. The Lambert-Beer Law in time form | 130 |
4.5.2. Simulation results | 132 |
Summary | 139 |
Conclusion | 141 |
References | 143 |