Developments in surface contamination and cleaning. Volume three, Methods for removal of particle contaminants /

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The contributions in this volume cover methods for removal of particle contaminants on surfaces. Several of these methods are well established and have been employed in industrial applications for a long time. However, the ever- higher demand for removal of smaller particles on newer substrate mater...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Kohli, Rajiv, Mittal, Kashmiri L.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; Burlington, MA : William Andrew, ©2011.
Edición:1st ed.
Temas:
Surfaces (Technology)
Surface contamination > Prevention.
Particles > Measurement.
Cleaning.
Coatings.
Dust control.
Surfaces (Technologie)
Nettoyage.
Revêtements.
Poussière > Lutte contre.
cleaning.
coating (material)
TECHNOLOGY & ENGINEERING > Nanotechnology & MEMS.
Cleaning
Coatings
Dust control
Particles > Measurement
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover Image; Table of Contents; Front Matter; Copyright; Preface; About the Editors; Contributors; Chapter 1. Supersonic Nano-Particle Beam Technique for Removing Nano-Sized Contaminant Particles from Surfaces; 1. Introduction; 2. Theoretical Background; 3. Supersonic Nozzle Beam Technique; 4. Electrospray Technique; 5. Summary; Chapter 2. Megasonic Cleaning; 1. Introduction; 2. Cleaning Mechanism; 3. Theory of Megasonic Cleaning; 4. Surface Cleanliness Measurement; 5. Megasonic System Evaluation in the Laboratory and in Industry; 6. Industry Case Studies; 7. Concluding Remarks.
  • Chapter 3. Laser Cleaning for Removal of Nano/Micro-Scale Particles and Film Contamination1. Introduction; 2. Dry Particle Removal Technique Requirements; 3. Laser Cleaning Techniques; 4. Future Directions in Laser Particle Removal Research; 5. Conclusions and Remarks; Chapter 4. Non-Aqueous Interior Surface Cleaning Using Projectiles; 1. Introduction; 2. Types of Contamination; 3. Effects of Contamination; 4. Fluid Cleanliness Levels; 5. Tube Cleaning Methods; 6. Non-Aqueous Projectile Cleaning Method; 7. Summary.
  • Chapter 5. Electrostatic Removal of Particles and its Applications to Self-Cleaning Solar Panels and Solar Concentrators1. Introduction; 2. Solar Power Potential and the Global Energy Needs; 3. Atmospheric Dust and Its Deposition on Solar Panel; 4. Loss of PV Output Power Caused by Dust Deposition; 5. Electrostatic Charging of Dust Particles; 6. Dust Deposition Process: Effects of Size and Charge Distributions; 7. Transmission Loss Due to Atmospheric Dust; 8. Experimental Studies on Solar Panel Obscuration by Dust Deposition.
  • 9. Effect of Microstructural Deposition Pattern: Particle Size, Shape, and Electrostatic Charge Distributions10. Removal of Dust From Solar Panels Using Low-Power Electrodynamic Screens; 11. Trajectories of Charged Particles on the Electrodynamic Screen; 12. Dielectrophoretic Force; 13. Tribocharging of Particles; 14. Removal of Uncharged Conducting Particles; 15. High-Voltage Three-Phase Power Supply for the Electrodynamic Screen; 16. Testing of the Electrodynamic Screen; 17. Measurement of Maximum Power Point Operation of the PV System With EDS.
  • 18. Testing the Solar Panels Integrated With EDS for Maximum Power Point Operation19. Results; 20. Summary and Conclusions; Chapter 6. Alternate Semi-Aqueous Precision Cleaning Techniques: Steam Cleaning and Supersonic Gas/Liquid Cleaning Systems; 1. Introduction; 2. Precision Steam Cleaning; 3. Supersonic Gas-Liquid Cleaning; 4. Summary; Index.

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