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Ventilation for control of the work environment [[electronic resource] /] / William A. Burgess, Michael J. Ellenbecker, Robert D. Treitman
| Ventilation for control of the work environment [[electronic resource] /] / William A. Burgess, Michael J. Ellenbecker, Robert D. Treitman |
| Autore | Burgess William A. <1924-> |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2004 |
| Descrizione fisica | 1 online resource (442 p.) |
| Disciplina | 697.9/2 |
| Altri autori (Persone) |
EllenbeckerMichael J
TreitmanRobert D |
| Soggetto topico |
Factories - Heating and ventilation
Industrial hygiene |
| ISBN |
1-280-34598-5
9786610345984 0-471-66704-8 0-471-66705-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
VENTILATION FOR CONTROL OF THE WORK ENVIRONMENT; CONTENTS; List of Units; Preface; 1 Ventilation for Control; 1.1 Control Options; 1.2 Ventilation for Control of Air Contaminants; 1.3 Ventilation Applications; 1.4 Case Studies; 1.5 Summary; References; 2 Principles of Airflow; 2.1 Airflow; 2.2 Density; 2.3 Continuity Relation; 2.4 Pressure; 2.4.1 Pressure Units; 2.4.2 Types of Pressure; 2.5 Head; 2.6 Elevation; 2.7 Pressure Relationships; 2.7.1 Reynolds Number; 2.8 Losses; 2.8.1 Frictional Losses; 2.8.2 Shock Losses; 2.9 Losses in Fittings; 2.9.1 Expansions; 2.9.2 Contractions; 2.9.3 Elbows
2.9.4 Branch Entries (Junctions)2.10 Summary; List of Symbols; Problems; 3 Airflow Measurement Techniques; 3.1 Measurement of Velocity by Pitot-Static Tube; 3.1.1 Pressure Measurements; 3.1.2 Velocity Profile in a Duct; 3.1.3 Pitot-Static Traverse; 3.1.4 Application of the Pitot-Static Tube and Potential Errors; 3.2 Mechanical Devices; 3.2.1 Rotating Vane Anemometers; 3.2.2 Deflecting Vane Anemometers (Velometer); 3.2.3 Bridled Vane Anemometers; 3.3 Heated-Element Anemometers; 3.4 Other Devices; 3.4.1 Vortex Shedding Anemometers; 3.4.2 Orifice Meters; 3.4.3 Venturi Meters 3.5 Hood Static Pressure Method3.6 Calibration of Instruments; 3.7 Observation of Airflow Patterns with Visible Tracers; 3.7.1 Tracer Design; 3.7.2 Application of Visible Tracers; List of Symbols; References; Manufacturers of Airflow Measuring Instruments; Manufacturers of Smoke Tubes; Problems; 4 General Exhaust Ventilation; 4.1 Limitations of Application; 4.2 Equations for General Exhaust Ventilation; 4.3 Variations in Generation Rate; 4.4 Mixing; 4.5 Inlet/Outlet Locations; 4.6 Other Factors; 4.7 Comparison of General and Local Exhaust; List of Symbols; References; Problems; 5 Hood Design 5.1 Classification of Hood Types5.1.1 Enclosures; 5.1.2 Exterior Hoods; 5.1.3 Receiving Hoods; 5.1.4 Summary; 5.2 Design of Enclosing Hoods; 5.3 Design of Exterior Hoods; 5.3.1 Determination of Capture Velocity; 5.3.2 Determination of Hood Airflow; 5.3.3 Exterior Hood Shape and Location; 5.4 Design of Receiving Hoods; 5.4.1 Canopy Hoods for Heated Processes; 5.4.2 Hoods for Grinding Operations; 5.5 Evaluation of Hood Performance; List of Symbols; References; Appendix: Exterior Hood Centerline Velocity Models; Problems; 6 Hood Designs for Specific Applications; 6.1 Electroplating 6.1.1 Hood Design6.1.2 Airflow; 6.2 Spray Painting; 6.2.1 Hood Design; 6.2.2 Airflow; 6.3 Processing and Transfer of Granular Material; 6.4 Welding, Soldering, and Brazing; 6.5 Chemical Processing; 6.5.1 Chemical Processing Operations; 6.6 Semiconductor Gas Cabinets; 6.6.1 Entry Loss; 6.6.2 Optimum Exhaust Rate; 6.7 Low-Volume/High-Velocity Systems for Portable Tools; Example 6.1 Calculation of Exhaust Rate for Open-Surface Tanks; Example 6.2 Design of a Low-Volume/High-Velocity Exhaust System; List of Symbols; References; 7 Chemical Laboratory Ventilation 7.1 Design of Chemical Laboratory Hoods |
| Record Nr. | UNINA-9910145900803321 |
Burgess William A. <1924->
|
||
| Hoboken, N.J., : Wiley-Interscience, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Ventilation for control of the work environment [[electronic resource] /] / William A. Burgess, Michael J. Ellenbecker, Robert D. Treitman
| Ventilation for control of the work environment [[electronic resource] /] / William A. Burgess, Michael J. Ellenbecker, Robert D. Treitman |
| Autore | Burgess William A. <1924-> |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2004 |
| Descrizione fisica | 1 online resource (442 p.) |
| Disciplina | 697.9/2 |
| Altri autori (Persone) |
EllenbeckerMichael J
TreitmanRobert D |
| Soggetto topico |
Factories - Heating and ventilation
Industrial hygiene |
| ISBN |
1-280-34598-5
9786610345984 0-471-66704-8 0-471-66705-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
VENTILATION FOR CONTROL OF THE WORK ENVIRONMENT; CONTENTS; List of Units; Preface; 1 Ventilation for Control; 1.1 Control Options; 1.2 Ventilation for Control of Air Contaminants; 1.3 Ventilation Applications; 1.4 Case Studies; 1.5 Summary; References; 2 Principles of Airflow; 2.1 Airflow; 2.2 Density; 2.3 Continuity Relation; 2.4 Pressure; 2.4.1 Pressure Units; 2.4.2 Types of Pressure; 2.5 Head; 2.6 Elevation; 2.7 Pressure Relationships; 2.7.1 Reynolds Number; 2.8 Losses; 2.8.1 Frictional Losses; 2.8.2 Shock Losses; 2.9 Losses in Fittings; 2.9.1 Expansions; 2.9.2 Contractions; 2.9.3 Elbows
2.9.4 Branch Entries (Junctions)2.10 Summary; List of Symbols; Problems; 3 Airflow Measurement Techniques; 3.1 Measurement of Velocity by Pitot-Static Tube; 3.1.1 Pressure Measurements; 3.1.2 Velocity Profile in a Duct; 3.1.3 Pitot-Static Traverse; 3.1.4 Application of the Pitot-Static Tube and Potential Errors; 3.2 Mechanical Devices; 3.2.1 Rotating Vane Anemometers; 3.2.2 Deflecting Vane Anemometers (Velometer); 3.2.3 Bridled Vane Anemometers; 3.3 Heated-Element Anemometers; 3.4 Other Devices; 3.4.1 Vortex Shedding Anemometers; 3.4.2 Orifice Meters; 3.4.3 Venturi Meters 3.5 Hood Static Pressure Method3.6 Calibration of Instruments; 3.7 Observation of Airflow Patterns with Visible Tracers; 3.7.1 Tracer Design; 3.7.2 Application of Visible Tracers; List of Symbols; References; Manufacturers of Airflow Measuring Instruments; Manufacturers of Smoke Tubes; Problems; 4 General Exhaust Ventilation; 4.1 Limitations of Application; 4.2 Equations for General Exhaust Ventilation; 4.3 Variations in Generation Rate; 4.4 Mixing; 4.5 Inlet/Outlet Locations; 4.6 Other Factors; 4.7 Comparison of General and Local Exhaust; List of Symbols; References; Problems; 5 Hood Design 5.1 Classification of Hood Types5.1.1 Enclosures; 5.1.2 Exterior Hoods; 5.1.3 Receiving Hoods; 5.1.4 Summary; 5.2 Design of Enclosing Hoods; 5.3 Design of Exterior Hoods; 5.3.1 Determination of Capture Velocity; 5.3.2 Determination of Hood Airflow; 5.3.3 Exterior Hood Shape and Location; 5.4 Design of Receiving Hoods; 5.4.1 Canopy Hoods for Heated Processes; 5.4.2 Hoods for Grinding Operations; 5.5 Evaluation of Hood Performance; List of Symbols; References; Appendix: Exterior Hood Centerline Velocity Models; Problems; 6 Hood Designs for Specific Applications; 6.1 Electroplating 6.1.1 Hood Design6.1.2 Airflow; 6.2 Spray Painting; 6.2.1 Hood Design; 6.2.2 Airflow; 6.3 Processing and Transfer of Granular Material; 6.4 Welding, Soldering, and Brazing; 6.5 Chemical Processing; 6.5.1 Chemical Processing Operations; 6.6 Semiconductor Gas Cabinets; 6.6.1 Entry Loss; 6.6.2 Optimum Exhaust Rate; 6.7 Low-Volume/High-Velocity Systems for Portable Tools; Example 6.1 Calculation of Exhaust Rate for Open-Surface Tanks; Example 6.2 Design of a Low-Volume/High-Velocity Exhaust System; List of Symbols; References; 7 Chemical Laboratory Ventilation 7.1 Design of Chemical Laboratory Hoods |
| Record Nr. | UNINA-9910813375603321 |
|
Burgess William A. <1924->
|
||
| Hoboken, N.J., : Wiley-Interscience, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
