Titre :	Applied Electrostatic Precipitation
Type de document :	texte imprimé
Auteurs :	K.R. Parker, Auteur
Editeur :	London, New York : Black Academic & Professional
Année de publication :	1997
Importance :	521 p.
Présentation :	couv. ill. en coul., ill.
Format :	24 cm.
ISBN/ISSN/EAN :	978-0-7514-0266-7
Langues :	Anglais (eng)
Catégories :	ELECTROTECHNIQUE
Index. décimale :	10-01 Electrotechnique générale
Résumé :	Many industrial, power generation and chemical processes produce unwanted fine particulate material as a consequence of their operation. Electrostatic precipitation is a highly efficient method of removing entrained particulate contaminants from exhaust gases and is extensively used in these industries to limit particulate emissions. New legislation aimed at improving the environment by further limiting these discharges has resulted in the technique undergoing considerable development over the past decade, to the point where it has become the method of choice, over a wide range of applications, for limiting particulate discharges. In this new book, the editor has brought together an international team of contributors, mainly industrialists and consultants, to produce an authorative and practical guide to electrostatic precipitation. This book is of interest to all those in process industries or power generation and to academics concerned with gas cleaning and environmental issues.
Note de contenu :	Contents List of contributors Preface 1.Why an electrostatic precipitator? 2.Milestones in the history of precipitation 3.Basic and theoretical operation of ESPs 4.Mechanical design considerations for dry precipitators 5.Aerodynamic factors affecting performance 6.The physical and chemical properties of particles and their effect on performance 7.Performance design considerations 8.Electrical operation of precipitators 9.Precipitator sizing methods and models of electrostatic precipitators 9A Precipitator sizing methods 9B Models of electrostatic precipitators 10.Sampling and analysis for particles and heavy metals in gas streams 11.The commissioning of electrostatic precipitators 12.Dry type precipitator applications 13.The wet electrostatic precipitator: design and applications 14.The mist precipitator: design and applications 15.Upgrading of existing precipitator efficiencies 15A Modifications/changes to existing plant 15B Precipitator improvements achieved by changing the electrical resistivity of the particulates 15C Theory, principles of operation, equipment and applications of flue gas conditioning 16.Possible future developments in the field of electrostatic precipitation 16A Electrical developments 16B Use of natural sulphur dioxide as a feed stock for flue gas conditioning systems: flue gas conditioning today and tomorrow 16C High temperature/high pressure precipitators for advanced power generation systems 16D Computer sizing of precipitators -Index

Applied Electrostatic Precipitation [texte imprimé] / K.R. Parker, Auteur . - London, New York : Black Academic & Professional, 1997 . - 521 p. : couv. ill. en coul., ill. ; 24 cm.
ISBN : 978-0-7514-0266-7
Langues : Anglais (eng)

Catégories :	ELECTROTECHNIQUE
Index. décimale :	10-01 Electrotechnique générale
Résumé :	Many industrial, power generation and chemical processes produce unwanted fine particulate material as a consequence of their operation. Electrostatic precipitation is a highly efficient method of removing entrained particulate contaminants from exhaust gases and is extensively used in these industries to limit particulate emissions. New legislation aimed at improving the environment by further limiting these discharges has resulted in the technique undergoing considerable development over the past decade, to the point where it has become the method of choice, over a wide range of applications, for limiting particulate discharges. In this new book, the editor has brought together an international team of contributors, mainly industrialists and consultants, to produce an authorative and practical guide to electrostatic precipitation. This book is of interest to all those in process industries or power generation and to academics concerned with gas cleaning and environmental issues.
Note de contenu :	Contents List of contributors Preface 1.Why an electrostatic precipitator? 2.Milestones in the history of precipitation 3.Basic and theoretical operation of ESPs 4.Mechanical design considerations for dry precipitators 5.Aerodynamic factors affecting performance 6.The physical and chemical properties of particles and their effect on performance 7.Performance design considerations 8.Electrical operation of precipitators 9.Precipitator sizing methods and models of electrostatic precipitators 9A Precipitator sizing methods 9B Models of electrostatic precipitators 10.Sampling and analysis for particles and heavy metals in gas streams 11.The commissioning of electrostatic precipitators 12.Dry type precipitator applications 13.The wet electrostatic precipitator: design and applications 14.The mist precipitator: design and applications 15.Upgrading of existing precipitator efficiencies 15A Modifications/changes to existing plant 15B Precipitator improvements achieved by changing the electrical resistivity of the particulates 15C Theory, principles of operation, equipment and applications of flue gas conditioning 16.Possible future developments in the field of electrostatic precipitation 16A Electrical developments 16B Use of natural sulphur dioxide as a feed stock for flue gas conditioning systems: flue gas conditioning today and tomorrow 16C High temperature/high pressure precipitators for advanced power generation systems 16D Computer sizing of precipitators -Index