logging in or signing up THERMOGRAPHY.PPT sohitkc Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 339 Category: Science & Tech.. License: All Rights Reserved Like it (0) Dislike it (1) Added: April 04, 2011 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide 1: THERMOGRAPHY BY :SOHIT KUMAR CHAUHANTHE BASICS: THE BASICS NEAR INFRARED MID INFRARED THERMAL INFRAREDATOMS: ATOMS TWO ENERGY ORBITALS LOW ENERGY ORBITAL HIGH ENERGY ORBITAL ELECTRON MOVES TO HIGHER ORBIT WHEN COMES BACK RELEASES ENERGY AS PHOTONTHERMAL ENERGY: THERMAL ENERGY Thermal images, or Thermograms , are actually visual displays of the amount of infrared energy emitted, transmitted, and reflected by an object. Incident Energy = Emitted Energy + Transmitted Energy + Reflected Energy Second law of thermodynamics and EmissivityRADIATIVE HEAT EXCHANGE: RADIATIVE HEAT EXCHANGEEMISSIVITY: EMISSIVITY Emissivity is a term representing a material's ability to emit thermal radiationSlide 7: THERMAL IMAGING SYSTEMINFRARED TEMPERATURE MEASUREMENT: INFRARED TEMPERATURE MEASUREMENTMODERN INFRARED THERMOMETER: MODERN INFRARED THERMOMETERSlide 10: Planck's Equation shows, the peak energy shifts towards shorter wavelengths as the temperature increases.Slide 11: TWO COLOR THERMOMETRYTYPES OF INFRARED DETECTORS: TYPES OF INFRARED DETECTORS UNCOOLED INFRARED DETECTOR Use a sensor operating at ambient temperature. Cooling is not necessary. Use sensors that work by the change of resistance, voltage or current when heated by infrared radiation. COOLED INFRARED DETECTOR Use sensors with operating range from 4k to just below room temperature. The cooling is necessary for the operation of the semiconductor materials used. Use sensors that work by catching IR radiations.Slide 13: UNCOOLED INFRARED DETECTOR Do not require bulky, expensive cryogenic coolers They are smaller and less costly. Materials used for uncooled infrared detection are vanadium(V) oxide lanthanum barium manganite amorphous silicon lead zirconate titanate(PZT) Lanthanum doped lead zirconate titanate COOLED INFRARED DETECTOR Require cryogenic coolers for cooling. They are expensive both to produce and to run. Materials used for cooled infrared detection are indium antimonide indium arsenide mercury cadmium telluride lead sulfide lead selenideADVANTAGES: ADVANTAGES It shows a visual picture It is capable of catching moving targets in real time It is able to find deteriorating It can be used to measure or observe in areas inaccessible or hazardous for other methods It is a non-destructive test method It can be used to find defects It can be used to detect objects in dark areasDISADVANTAGES: DISADVANTAGES high price range Images can be difficult to interpret accurately when based upon certain objects Accurate temperature measurements are hindered by differing emissivities and reflections from other surfaces Most cameras have ±2% accuracy or worse Only able to directly detect surface temperaturesAPPLICATIONS: APPLICATIONS Condition monitoring Digital infrared thermal imaging in health care Thermology Veterinary Thermal Imaging Night vision Research Process control Nondestructive testing Surveillance in security, law enforcement and defence Chemical imaging Volcanology BuildingCondition monitoring: Condition monitoringIn health care: In health careProcess control: Process control Steel Ladle ManufacturingVeterinary Thermal Imaging: Veterinary Thermal ImagingDefence: DefenceSurveillance in security: Surveillance in securityREFERENCES: REFERENCES Rogalski A. and Chrzanowski K. 2002, “Infrared Devices and Techniques”, Contributed Paper: Opto-electronics Review Darling, Charles R.; "Pyrometry. A Practical Treatise on the Measurement of High Temperatures." Published by E.&F.N. Spon Ltd. London. 1911 www.wikipedia. org www.howstuffworks.comSlide 24: THANK YOU QUERIES You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
THERMOGRAPHY.PPT sohitkc Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 339 Category: Science & Tech.. License: All Rights Reserved Like it (0) Dislike it (1) Added: April 04, 2011 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide 1: THERMOGRAPHY BY :SOHIT KUMAR CHAUHANTHE BASICS: THE BASICS NEAR INFRARED MID INFRARED THERMAL INFRAREDATOMS: ATOMS TWO ENERGY ORBITALS LOW ENERGY ORBITAL HIGH ENERGY ORBITAL ELECTRON MOVES TO HIGHER ORBIT WHEN COMES BACK RELEASES ENERGY AS PHOTONTHERMAL ENERGY: THERMAL ENERGY Thermal images, or Thermograms , are actually visual displays of the amount of infrared energy emitted, transmitted, and reflected by an object. Incident Energy = Emitted Energy + Transmitted Energy + Reflected Energy Second law of thermodynamics and EmissivityRADIATIVE HEAT EXCHANGE: RADIATIVE HEAT EXCHANGEEMISSIVITY: EMISSIVITY Emissivity is a term representing a material's ability to emit thermal radiationSlide 7: THERMAL IMAGING SYSTEMINFRARED TEMPERATURE MEASUREMENT: INFRARED TEMPERATURE MEASUREMENTMODERN INFRARED THERMOMETER: MODERN INFRARED THERMOMETERSlide 10: Planck's Equation shows, the peak energy shifts towards shorter wavelengths as the temperature increases.Slide 11: TWO COLOR THERMOMETRYTYPES OF INFRARED DETECTORS: TYPES OF INFRARED DETECTORS UNCOOLED INFRARED DETECTOR Use a sensor operating at ambient temperature. Cooling is not necessary. Use sensors that work by the change of resistance, voltage or current when heated by infrared radiation. COOLED INFRARED DETECTOR Use sensors with operating range from 4k to just below room temperature. The cooling is necessary for the operation of the semiconductor materials used. Use sensors that work by catching IR radiations.Slide 13: UNCOOLED INFRARED DETECTOR Do not require bulky, expensive cryogenic coolers They are smaller and less costly. Materials used for uncooled infrared detection are vanadium(V) oxide lanthanum barium manganite amorphous silicon lead zirconate titanate(PZT) Lanthanum doped lead zirconate titanate COOLED INFRARED DETECTOR Require cryogenic coolers for cooling. They are expensive both to produce and to run. Materials used for cooled infrared detection are indium antimonide indium arsenide mercury cadmium telluride lead sulfide lead selenideADVANTAGES: ADVANTAGES It shows a visual picture It is capable of catching moving targets in real time It is able to find deteriorating It can be used to measure or observe in areas inaccessible or hazardous for other methods It is a non-destructive test method It can be used to find defects It can be used to detect objects in dark areasDISADVANTAGES: DISADVANTAGES high price range Images can be difficult to interpret accurately when based upon certain objects Accurate temperature measurements are hindered by differing emissivities and reflections from other surfaces Most cameras have ±2% accuracy or worse Only able to directly detect surface temperaturesAPPLICATIONS: APPLICATIONS Condition monitoring Digital infrared thermal imaging in health care Thermology Veterinary Thermal Imaging Night vision Research Process control Nondestructive testing Surveillance in security, law enforcement and defence Chemical imaging Volcanology BuildingCondition monitoring: Condition monitoringIn health care: In health careProcess control: Process control Steel Ladle ManufacturingVeterinary Thermal Imaging: Veterinary Thermal ImagingDefence: DefenceSurveillance in security: Surveillance in securityREFERENCES: REFERENCES Rogalski A. and Chrzanowski K. 2002, “Infrared Devices and Techniques”, Contributed Paper: Opto-electronics Review Darling, Charles R.; "Pyrometry. A Practical Treatise on the Measurement of High Temperatures." Published by E.&F.N. Spon Ltd. London. 1911 www.wikipedia. org www.howstuffworks.comSlide 24: THANK YOU QUERIES