Airborne laser IR thermographic system for detecting gas leaks from underground pipelines; Quantitative InfraRed Thermography Journal; Vol. 3, iss. 1
| Parent link: | Quantitative InfraRed Thermography Journal.— , 1986- Vol. 3, iss. 1.— 2006.— [P. 41-51] |
|---|---|
| Hovedforfatter: | |
| Andre forfattere: | , |
| Summary: | Title screen An airborne laser IR thermographic system intended for remote gas detection is described. The system involves three channels of which one is active and two are passive. The active channel includes a 15 mW tunable laser diode illuminating the ground surface with 1 ms pulses of IR radiation at the wavelength of 1650 nm. The system sensitivity by the laser channel is about 100 ppm*m at 100 m (by methane). The two passive channels allow visualizing the ground surface in both the visual and mid-IR wavelength. The system has passed on-flight testing in cooperation with some Russian gas transportation companies. Режим доступа: по договору с организацией-держателем ресурса |
| Sprog: | engelsk |
| Udgivet: |
2006
|
| Fag: | |
| Online adgang: | http://dx.doi.org/10.3166/qirt.3.41-52 |
| Format: | Electronisk Book Chapter |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=649934 |
Lignende værker
How accurate is the IR thermographic evaluation of heat losses from buildings?; Quantitative InfraRed Thermography Journal; Vol. 7, iss. 2
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2010)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2010)
Ultrasonic and optical stimulation in IR thermographic NDT of impact damage in carbon composites; Quantitative InfraRed Thermography Journal; Vol. 12, № 2
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2015)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2015)
Reply to comment on "how accurate is the IR thermographic evaluation of heat losses from buildings?"; Quantitative InfraRed Thermography Journal; Vol. 8, № 1
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2011)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2011)
Thermal NDT research at Tomsk Polytechnic University; Quantitative InfraRed Thermography Journal; Vol.
Udgivet: (2015)
Udgivet: (2015)
Predicting body fat mass by IR thermographic measurement of skin temperature: a novel multivariate model; Quantitative InfraRed Thermography Journal; Vol. 17, iss. 3
Udgivet: (2019)
Udgivet: (2019)
Airborne detection of natural gas leaks from transmission pipelines by using a laser system operating in visual, near-IR, and mid-IR wavelength bands; Thermosense XXVIII,Orlando, Kissimmee, April 17, 2006
af: Ershov O. V. O. V.
Udgivet: (2006)
af: Ershov O. V. O. V.
Udgivet: (2006)
Highly-efficient and noncontact vibro-thermography via local defect resonance; Quantitative InfraRed Thermography Journal; Vol. 12, iss. 1
Udgivet: (2015)
Udgivet: (2015)
Modelling, detecting and evaluating water ingress in aviation honeycomb panels; Quantitative InfraRed Thermography Journal; Vol. 14, iss. 2
Udgivet: (2017)
Udgivet: (2017)
Thermal NDT: historical milestones, state-of-the-art and trends; Quantitative InfraRed Thermography Journal; Vol. 11, iss. 1
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2014)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2014)
Comparative study of active infrared thermography, ultrasonic laser vibrometry and laser ultrasonics in application to the inspection of graphite/epoxy composite parts; Quantitative InfraRed Thermography Journal; Vol. XX
Udgivet: (2019)
Udgivet: (2019)
Detecting water in aviation honeycomb structures: the quantitative approach; Quantitative InfraRed Thermography Journal; Vol. 1, iss. 2
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2004)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2004)
Detecting corrosion in thick metals by applying active IR thermography; Thermal Infrared Applications XXXIV, April 23-26, 2012
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2012)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2012)
Infrared thermographic evaluation of flame turbulence scale; Infrared Physics & Technology; Vol. 72
Udgivet: (2015)
Udgivet: (2015)
Evaluating characteristics of turbulent flames by using IR thermography and PIV; Infrared Physics & Technology; Vol. 92
Udgivet: (2018)
Udgivet: (2018)
IR thermography study of flow structure and parameters in diffusion flames; Infrared Physics and Technology; Vol. 117
Udgivet: (2021)
Udgivet: (2021)
Evaluating thermal properties of sugarcane bagasse-based composites by using active infrared thermography and terahertz imaging; Infrared Physics & Technology; Vol. 97
Udgivet: (2019)
Udgivet: (2019)
Crack detection in aluminum parts by using ultrasound-excited infrared thermography; Infrared Physics & Technology; Vol. 61
af: Xingwang Guo
Udgivet: (2013)
af: Xingwang Guo
Udgivet: (2013)
Quantitative evaluation of water content in composite honeycomb structures by using one-sided IR thermography: is there any promise?; Proceedings of SPIE; Vol. 10214 : Thermosense: Thermal Infrared Applications XXXIX
Udgivet: (2017)
Udgivet: (2017)
Ermanno Grinzato’s contribution to infrared diagnostics and nondestructive testing: in memory of an outstanding researcher; Quantitative InfraRed Thermography Journal; Vol. 21, iss. 6 : (2012 - 2022) In memory of Dr. Ermanno Grinzato: a landmark in Quantitative InfraRed Thermography. Guest Editors: Paolo Bison, Xavier Maldague, Stefano Sfarra, Vladimir Vavilov
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2024)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2024)
Broadband Sub-terahertz Camera Based on Photothermal Conversion and IR Thermography; Journal of Infrared, Millimeter, and Terahertz Waves; Vol. 37, iss. 5
Udgivet: (2016)
Udgivet: (2016)
Thermal NDT research at Tomsk Polytechnic University, Russia; The First QIRT-ASIA Conference on Quantitative InfraRed Thermography: QIRT Asie 2015
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2015)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2015)
Inspecting smokestacks by IR thermographic surveying and heat conduction modeling; Thermosense XXIII, Orlando, April 16, 2001
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2001)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2001)
Study on Detection Limit of Buried Defects in Concrete Structures by Using Infrared Thermography; Key Engineering Materials; Vol. 270-273
af: Kamoi A. Arao
Udgivet: (2004)
af: Kamoi A. Arao
Udgivet: (2004)
Analyzing probability of detection as a function of defect size and depth in pulsed IR thermography; NDT & E International; Vol. 130
Udgivet: (2022)
Udgivet: (2022)
Quantitative evaluation of building thermal performance by IR thermography inspection data; Thermosense XIX: An International Conference on Thermal Sensing and Imaging, Orlando, April 21, 1997
Udgivet: (1997)
Udgivet: (1997)
Infrared thermographic inspection of water ingress in composite honeycomb panels; Applied Optics; Vol. 55, iss. 34
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2016)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2016)
Peculiarities of detecting hidden corrosion in thick metals by transient IR thermography; Thermosense XXVIII,Orlando, Kissimmee, April 17, 2006
Udgivet: (2006)
Udgivet: (2006)
Infrared thermographic detector of hidden corrosion; Sensor Review; Vol. 40, iss. 3
af: Simonov D. A. Denis Andreevich
Udgivet: (2020)
af: Simonov D. A. Denis Andreevich
Udgivet: (2020)
Estimating the humidity of wood by terahertz infrared thermography; Russian Journal of Nondestructive Testing; Vol. 52, iss. 12
Udgivet: (2017)
Udgivet: (2017)
Detection of hidden corrosion in metals by using transient infrared thermography; Insight: Non-Destructive Testing and Condition Monitoring; Vol. 40, iss. 6
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (1998)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (1998)
Infrared thermographic evaluation of large composite grid parts subjected to axial loading; Polymer Testing; Vol. 41
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2015)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (2015)
Monitoring of thermo-gramm at infra-red thermography and tomography; Defektoskopiya; № 2
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (1992)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (1992)
Evaluating Building Envelope Thermal Resistanceby Using Infrared Thermography; European Conference on Non-Destructive Testing (ECNDT 2014)
af: Larioshina I. A. Irina Anatolievna
Udgivet: (2014)
af: Larioshina I. A. Irina Anatolievna
Udgivet: (2014)
IR thermographic inspection of filament wound CFRP shell samples; Thermosense XXIX, Orlando, April 09-12, 2007
Udgivet: (2007)
Udgivet: (2007)
Thermal tomography characterization and pulse-phase thermography of impact damage in CFRP, or why end users are still reluctant about practical use of transient IR thermography; Thermosense XX, Orlando, April 13, 1998
Udgivet: (1998)
Udgivet: (1998)
Ultrasonic infrared thermography in non-destructive testing: A review; Russian Journal of Nondestructive Testing; Vol. 52, iss. 4
Udgivet: (2016)
Udgivet: (2016)
Infrared Thermography and Thermal Nondestructive Testing
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (Cham, Springer, 2020)
af: Vavilov V. P. Vladimir Platonovich
Udgivet: (Cham, Springer, 2020)
Quantitative study of local heat sources by Ultrasonic Infrared Thermography: An approach for estimating total energy released by low energy impact damage in C/C composite; Composites Part B: Engineering; Vol. 165
Udgivet: (2019)
Udgivet: (2019)
Corrosion control of steel articles with dynamic infra-red thermography; Defektoskopiya; № 9
Udgivet: (1994)
Udgivet: (1994)
Ultrasonic IR thermographic inspection of graphite epoxy composite: a comparative study of piezoelectric and magnetostrictive stimulation; Opto-electronics review; Vol. 23, iss. 1
af: Swiderski W.
Udgivet: (2015)
af: Swiderski W.
Udgivet: (2015)