Microclimate for Cultural Heritage
-10%
portes grátis
Microclimate for Cultural Heritage
Conservation, Restoration, and Maintenance of Indoor and Outdoor Monuments
Camuffo, D.
Elsevier Science & Technology
11/2013
560
Dura
Inglês
9780444632968
15 a 20 dias
1050
Descrição não disponível.
1. Microclimate, Air and Temperature2A. Theoretical grounds for Humidity2B. Humidity and Conservation3. Parameters to Describe Air Masses and Vertical Motions4. Radiation and Light5. Physics of Drop Formation and Micropore Condensation6. Atmospheric Water and Stone Weathering7. Atmospheric Stability and Pollutant Dispersion8. Dry Deposition of Airborne Particulate Matter: Mechanisms and Effects9. Consequences of the Maxwell-Boltzmann distribution10. Introduction to Field Measurements11. Measuring Temperature12. Measuring Humidity13. Measuring Wind and Indoor Air Motions14. Measuring Rainfall and Windborne Droplets Appendix 1. List of fundamental constants met in this bookAppendix 2. Summary of key equations to calculate humidity variablesAppendix 3. ESSENTIAL GLOSSARYRelevant Objects, Museums, Monuments etc exemplified in Figures
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Acid rain; Adiabatic, Subadiabatic and superadiabatic gradients; Adsorption isotherms; Air motions; Air pollution; Air turbulence; Algae; Anemometers; Arrhenius equation; Atmospheric stability; Biological habitat; Capacitive sensor; Capillary rise; Chemical kinetics; Chlorophyll; Condensation/Evaporation in pores; Contact sensor; Corrosion; Curved water meniscus; Deposition mechanisms; Dew and frost point; Dew point meter; Dimensional changes of hygroscopic materials; EN15758 2010; Electrical lamps; Environmental diagnostics; Equivalent temperature; Equivalent-Potential temperature; European standard EN15757 2010; Exhibition lighting; Falling drops; Float-type rain gauge; Freezing-thawing in pores; Hair hygrometer; Historic climate; Hot wire anemometers; Instrumental observations; Kelvin equation; Laser Doppler anemometers; Liquid state of water; Maxwell-Boltzmann distribution; Metals; Microclimate; Mixing ratio; Moisture content in materials; Optical fibres; Optical filters; Osmosis; Paper; Particle deposition; Pasquill stability classes; Percentile distribution; Perfect gases; Pipe organ; Plume dispersion; Pore condensation; Potential temperature; Precipitation; Precipitation rose; Psychrometer; Psychrometric chart; Pyrometer; Quasi-contact thermometer; Radiosonde; Rain gauge; Rainout; Relative humidity; Resistive sensor; Response time; Sampling protocol; Sand blasting; Screen; Sea spray; Soiling; Solution; Sonic anemometers; Specific and absolute humidity; Stability classes; Stone weathering; Sun; Surface blackening; Temperature; Thermal comfort; Thermal emission; Thermal emission of bodies; Thermocamera; Thermometer; Time of wetness; Tipping bucket rain gauge; Use of humidity variables; Vapour phase; Vapour pressure; Virtual temperature; Visible IR and UV radiation; Washout; Weather stations; Weighing-type rain gauge; Wet and dry deposition samplers; Wet bulb temperature; Wind; Wind erosion; Wind variance; Wood
1. Microclimate, Air and Temperature2A. Theoretical grounds for Humidity2B. Humidity and Conservation3. Parameters to Describe Air Masses and Vertical Motions4. Radiation and Light5. Physics of Drop Formation and Micropore Condensation6. Atmospheric Water and Stone Weathering7. Atmospheric Stability and Pollutant Dispersion8. Dry Deposition of Airborne Particulate Matter: Mechanisms and Effects9. Consequences of the Maxwell-Boltzmann distribution10. Introduction to Field Measurements11. Measuring Temperature12. Measuring Humidity13. Measuring Wind and Indoor Air Motions14. Measuring Rainfall and Windborne Droplets Appendix 1. List of fundamental constants met in this bookAppendix 2. Summary of key equations to calculate humidity variablesAppendix 3. ESSENTIAL GLOSSARYRelevant Objects, Museums, Monuments etc exemplified in Figures
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acid rain; Adiabatic, Subadiabatic and superadiabatic gradients; Adsorption isotherms; Air motions; Air pollution; Air turbulence; Algae; Anemometers; Arrhenius equation; Atmospheric stability; Biological habitat; Capacitive sensor; Capillary rise; Chemical kinetics; Chlorophyll; Condensation/Evaporation in pores; Contact sensor; Corrosion; Curved water meniscus; Deposition mechanisms; Dew and frost point; Dew point meter; Dimensional changes of hygroscopic materials; EN15758 2010; Electrical lamps; Environmental diagnostics; Equivalent temperature; Equivalent-Potential temperature; European standard EN15757 2010; Exhibition lighting; Falling drops; Float-type rain gauge; Freezing-thawing in pores; Hair hygrometer; Historic climate; Hot wire anemometers; Instrumental observations; Kelvin equation; Laser Doppler anemometers; Liquid state of water; Maxwell-Boltzmann distribution; Metals; Microclimate; Mixing ratio; Moisture content in materials; Optical fibres; Optical filters; Osmosis; Paper; Particle deposition; Pasquill stability classes; Percentile distribution; Perfect gases; Pipe organ; Plume dispersion; Pore condensation; Potential temperature; Precipitation; Precipitation rose; Psychrometer; Psychrometric chart; Pyrometer; Quasi-contact thermometer; Radiosonde; Rain gauge; Rainout; Relative humidity; Resistive sensor; Response time; Sampling protocol; Sand blasting; Screen; Sea spray; Soiling; Solution; Sonic anemometers; Specific and absolute humidity; Stability classes; Stone weathering; Sun; Surface blackening; Temperature; Thermal comfort; Thermal emission; Thermal emission of bodies; Thermocamera; Thermometer; Time of wetness; Tipping bucket rain gauge; Use of humidity variables; Vapour phase; Vapour pressure; Virtual temperature; Visible IR and UV radiation; Washout; Weather stations; Weighing-type rain gauge; Wet and dry deposition samplers; Wet bulb temperature; Wind; Wind erosion; Wind variance; Wood
