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Particle Separation and Filtration (E161005)
Departments:ústav techniky prostředí (12116)
Abbreviation:OTFApproved:10.06.2019
Valid until: ??Range:3P+1C
Semestr:3Credits:5
Completion:Z,ZKLanguage:EN
Annotation
Fundamentals of the particle separation from flue gases and working knowledge for choice and dimensioning type of the separator.
Theory of particle separation in the fibrous filter layer, classification and use of room air filters and HEPA filters. Industrial fabric filters - performance, filter media, use.

Teacher's
doc. Ing. Jiří Hemerka CSc.
Zimní 2022/2023
doc. Ing. Jiří Hemerka CSc.
Zimní 2021/2022
Structure
Particle size and particle size distribution. Particle properties. Particulate matter removal. General equation of particle motion. Gravitational, inertial, centrifugal and electrical principle of separation. Diffusion of particles. Total and grade efficiency of separation. Pressure drop. Classification of particle separators, characteristic features.
Industrial fabric filters and atmospheric air filters - differences and common feature. Fibrous filter layer. Particle efficiency of separation of single fibre and fibrous layer. Flow field around single fibre. Principles of particle separation. Pressure drop of fibrous layer (filter medium) and filter. Kinetics of filtration. Classification and use of filters for general ventilation. Clean rooms - definition, standardization, performance. HEPA and ULPA filters - classification and use. Industrial fabric filters, filter media, characteristic features, use.

Structure of tutorial
Gaussian particle distribution. Log-normal particle distribution. Particle distribution Rosin - Rammler. Specific surface of particles. Aerodynamic drag force. Settling velocity for small and high Re. Particle stop distance. Mobility of the particle. Velocity of separation in centrifugal principle. Particle mean free path. Charge of particles and velocity of separation in electrical precipitators.
Velocity around the fibre. Comparison of different flow fields. Calculation of individual particle separation principles of single fibre. Overall grade efficiency of the single fibre and of the filter layer. Correction on non-homogenous fibre distribution. Pressure drop of the clean filter layer and pressure drop increase with dust loading.
Literarture
Noel de Nevers: Air pollution control engineering, McGraw-Hill,Inc., 1995.
Brown R. C.: Air filtration, Pergamon Press, 1993
Flagan, R.C., Seinfeld, J.H.: Fundamentals of Air Pollution Engineering, Prentice Hall, 1988, ISBN 0-13-
332537-7
· Hinds, W.C.: Aerosol Technology: Properties, Behaviour and Measurement of Airborne Particles, Wiley, 1999,
ISBN 0-471-19410-7
Requirements
Following requirements are demanded: Particle properties and individual separation principles and separation velocities. Basic types of particle separators and its properties and field of use. Total and grade efficiency of separation.
Following requirements are demanded: Flow field around single fibre. Separation principles and overall grade efficiency of separation of single fibre and of the filter layer. Pressure drop of the filter layer and of the whole filter unit. Classification and use of filters for general ventilation. HEPA and ULPA filters and clean rooms. Industrial filtration - performance, choice of filter material and dimensioning the filter area.

Keywords
particle granularity, particle separation, separators, filtration
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