Title: Clearing of Industrial Gas Emissions : Theory, Calculation, and Practice Author: Gennady E. Zaikov, Usmanova Regina Ravilevna ISBN: 1774633507 / 9781774633502 Format: Soft Cover Pages: 384 Publisher: CRC Press Year: 2021 Availability: 2 to 3 weeks
Description
Contents
Processes for clearing gases from dust in wet-type dust separators are widely applied in many industries for technological purposes and environmental control. Among goals of these processes is to ensure high efficiency of dust removal with minimum energy costs.
This book presents the newest scientific research data under the theory and practice of wet clearing of industrial gases from dispersion particles. The authors consider the modern aspects of the separation process and gas-dispersed impurities.
The book covers three main sections on working out and research of the following types of wet gas purifiers: dynamic scrubbers, wet gas clean apparatuses of shock-inertial act, and bubble dust traps. Each section considers the engineering and technological aspects of circuit design, including the theoretical fundamentals of process of gas cleaning, trial and error methods and calculation of apparatuses of wet gas cleaning, and construction of new gas clean apparatuses, their operational characteristics, and recommendations about application
In the literature there are no reliable methods of efficient clearing of gas emissions in scrubbers. This creates complexities at calculation and designing of these apparatuses and also complicates process intensification. The authors develop methods of calculation of process of gas cleaning on the basis of studying of hydrodynamic characteristics of apparatuses.
Preface
Part I : Dynamic Scrubbers
Chapter 1 : Modern Methods of an Intensification and Dust Clearing Efficiency Raise Chapter 2 : Numerical Simulation and Calculation of Distribution of the Flow Rate of Gas In the Apparatus Chapter 3 : Experimental Research and Hydraulic Resistance Calculation Chapter 4 : Optimization of Speed and a Direction of Twirl of Blades of a Vortex Generator Chapter 5 : Effect of Design Data of Blades of a Vortex Generator on Efficiency of Clearing of Gas Chapter 6 : Sampling of an Optimum Rule of an Irrigation Canal for Liquid Supply In the Apparatus Chapter 7 : Derivation of an Equation of Traffic of Dispersion Particles and Calculation of Fractional Efficiency of Clearing of Gas Chapter 8 : Recommendations About Designing, Calculation, and Industrial Use of a Dynamic Scrubber
Part II : Dust Extractors of Shock-Inertial Act
Chapter 9 : The Organization of Hydrodynamic Interacting of Phases in Dust Extractors with Inner Circulation of a Liquid Chapter 10 : Experimental Research and Calculation of Efficiency of Sedimentation of Dispersion Particles in a Rotoklon Chapter 11 : Mathematical Modeling of Traffic of Dispersion Particles in Blade Impellers Chapter 12 : Aerodynamic Profiling of Blades of an Impeller Chapter 13 : Experimental Research and Calculation of Boundary Concentration of an Irrigating Liquid Chapter 14 : Technique-Ecological Substantiation of Sampling of System of Clearing of Gas
Part III : Bubbling : Vortex Apparatuses
Chapter 15 : Survey of Alternatives of a Design of Vortex Generators Chapter 16 : Aerodynamics of Vortex Apparatuses Chapter 17 : Effect Regime-Design Data on Efficiency of Clearing of Gas and a Hydraulic Resistance Chapter 18 : Effect of Concretion on Process of Sedimentation of Corpuscles of Dust Chapter 19 : Mathematical Simulation of Process of Separation of Dispersion Particles and Check of Adequacy of Mathematical Model Chapter 20 : Modernizing and Commercial Operation of Installations for Refining of Gas Emissions