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100   $a20151208d2016      uy|            0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aPneumatic conveying design guide /$fDavid Mills, conjoint professor, School of Engineering, University of Newcastle in NSW, Australia
205   $aThird edition.
210  1$aOxford :$cElsevier,$d2016.
215   $a1 online resource (808 p.)
300   $aDescription based upon print version of record
311   $a0-08-100649-7 
320   $aIncludes bibliographical reference and index.
327   $aFront Cover; Pneumatic Conveying Design Guide; Copyright; Contents; Preface to the Third Edition; A - CONVEYING IN PIPELINES; 1 - INTRODUCTION TO PNEUMATIC CONVEYING AND THE GUIDE; INTRODUCTION; PNEUMATIC CONVEYING; SYSTEM FLEXIBILITY; INDUSTRIES AND MATERIALS; Fly ash; MODE OF CONVEYING; DILUTE PHASE; DENSE PHASE; CONVEYING AIR VELOCITY; PARTICLE VELOCITY; SOLIDS LOADING RATIO; CONVEYING CAPABILITY; SYSTEM TYPES; SYSTEM CAPABILITIES; Pressure gradient influences; Material influences; HIGH-PRESSURE CONVEYING; LONG-DISTANCE CONVEYING; VERTICAL CONVEYING; Conveying vertically up
327   $aConveying vertically downFLOW RATE CAPABILITY; INFORMATION PROVIDED; AVAILABILITY OF DESIGN DATA; SCOPE OF THE WORK; REVIEW OF CHAPTERS; CONVEYING IN PIPELINES; AIRFLOWS AND PARTICLE FLOWS; A REVIEW OF PNEUMATIC CONVEYING SYSTEMS; APPLICATIONS AND CAPABILITIES; CONVEYING SYSTEM COMPONENTS; Pipeline feeding devices; Air supply systems; Gas-solid separation devices; Pipelines and valves; GAS AND SOLID FLOWS; Airflow rate evaluation; Air-only relationships; Conveying characteristics; Conveying capability; Material property influences; Conveying systems that modify material properties
327   $aSystem selection considerationsCONVEYING SYSTEM DESIGN; Pipeline scaling parameters; Design procedures; Stepped pipelines; Case studies; First approximation design methods; Multiple use systems; CONVEYING SYSTEM OPERATION; Troubleshooting and material flow problems; Optimizing and up-rating of existing systems; Operating problems; Erosive wear; Particle degradation; Moisture and condensation; Health and safety; DEFINITIONS; CONVEYING AND SYSTEMS; Solids loading ratio; Dilute phase conveying; Dense phase conveying; Low-pressure and negative-pressure (vacuum) conveying; High-pressure conveying
327   $aAcceleration lengthNull point; Pulsating flow; Stepped pipeline; Transient; VELOCITY RELATED; Superficial air velocity; Free air velocity; Slip velocity; Slip ratio; Minimum conveying air velocity; Conveying line inlet air velocity; Conveying line exit air velocity; Saltation; Choking; PROPERTIES; Free air conditions; Specific humidity; Relative humidity; Stoichiometric value; Air retention; Permeability; Hardness; Brinell hardness; Vickers hardness; Mohs' scale; NOMENCLATURE; SYMBOLS; GREEK; NONDIMENSIONAL PARAMETERS; SUPERSCRIPTS; SUBSCRIPTS; REFERENCE POINTS; PREFIXES; REFERENCE
327   $a2 - AIRFLOW AND PARTICLE FLOW IN PIPELINESINTRODUCTION; CONVEYING AIR VELOCITY; EVALUATION OF VELOCITY; SINGLE PHASE FLOW; The darcy equation for pressure drop; The influence of conveyed solids on pressure drop; SLIP VELOCITY; PARTICLE FEEDING INTO PIPELINES; ACCELERATION PRESSURE DROP; CONVEYING AIR VELOCITY PROFILE; PARTICLE DEPOSITION ISSUES; Pipeline orientation influences; Horizontal conveying; Conveying vertically up; Inclined pipelines; Conveying vertically down; FLOW THROUGH PIPELINE BENDS; MODE OF FLOW THOUGH PIPELINES; SOLIDS LOADING RATIO; DILUTE PHASE FLOW; DENSE PHASE FLOW
327   $aSliding bed flow
330   $aPneumatic Conveying Design Guide, 3rd Edition is divided into three essential parts, system and components, system design, and system operation, providing both essential foundational knowledge and practical information to help users understand, design, and build suitable systems. All aspects of the pneumatic conveying system are covered, including the type of materials used, conveying distance, system constraints, including feeding and discharging, health and safety requirements, and the need for continuous or batch conveying. This new edition also covers information on the other conveying systems available and compares them to this method. The existing content is brought up-to-date and the references are expanded and updated. This guide is an almost encyclopedic coverage of pneumatic conveying and as such is an essential text for both designers and users of pneumatic conveying systems. Each aspect of the subject is discussed from basic principles to support those new to, or learning about, this versatile technique
606   $aPneumatic-tube transportation
606   $aPneumatic machinery$xDesign and construction
615  0$aPneumatic-tube transportation.
615  0$aPneumatic machinery$xDesign and construction.
700   $aMills$b David$0196695
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910815436003321
996   $aPneumatic conveying design guide$91213364
997   $aUNINA