References
- Log T, Pedersen WB, Moumets H. Optical Gas Imaging (OGI) as a moderator for interdisciplinary cooperation, reduced emissions and increased safety. Energies. 2019;12(8):1454.
- Barber R, Rodriguez-Conejo MA, Melendez J, et al. Design of an infrared imaging system for robotic inspection of gas leaks in industrial environments. Int J Adv Rob Syst. 2015;12(3):23.
- Więcek P, Więcek B. Performance analysis of dual-band microbolometer camera for industrial gases detection. Meas Autom Monit. 2018;64(4):90-94.
- Olbrycht R, Kałuża M. Optical gas imaging with uncooled thermal imaging camera - impact of warm filters and elevated background temperature. IEEE Trans Ind Electron. 2020;67(11):9824–9832.
- De Lima JAS, Santos J. Generalized Stefan-Boltzmann law. Int J Theor Phys. 1995;34(1):127–134.
- Linares R, Vergara G, Gutiérrez R, et al. Gas and flame detection and identification using uncooled MWIR imaging sensors. In Proceedings SPIE 9485, Thermosense: Thermal Infrared Applications XXXVII, 94851F. 2015. DOI 10.1117/12.2177016
- Awad E, Al-Khalli N, Abdel-Rahman M, et al. Design and optimization of microbolometer multilayer optical cavity. In AIP Conference Proceedings 1653, 020017. 2015. DOI 10.1063/1.4914208
- Zhang X, Jin W, Yuan P, et al. Research on passive wide-band uncooled infrared imaging detection technology for gas leakage. In Proceedings SPIE 11434, 2019 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 114340H. 2020. DOI 10.1117/12.2542906
- Yaremchuk IY, Fitio VM, Bobitski YV. New design of interference band-pass infrared filter. Opto-Electron Rev. 2011;19:193–197.
- Ravikumar AP, Wang J, Brandt AR. Are optical gas imaging technologies effective for methane leak detection? Environ Sci Technol. 2017;51(1):718–724.
- Zhang X, Jin W, Li L, et al. Band optimization of passive methane gas leak detection based on uncooled infrared focal plane array. Appl Opt. 2018;57:3991–4001.
- Jiakun L, Lingxue W, Meirong W, et al. Gas imaging detectivity model combining leakage spot size and range, Thermosense: thermal Infrared Applications XXXIV. In: Burleigh D, Stockton GR, editors. Proceedings of SPIE. Vols. 8354, 835415. 2012. DOI:10.1117/12.920664.
- Bien DD. Configuration factors for thermal radiation from isothermal inner walls of cones and cylinders. J Spacecraft Rockets. 1966;3:1,155–156.
- Marr JM, Wilkin FP. A better presentation of Planck’s radiation law. Am J Phys. 2012;80:399.
- HITRAN on the web - V.E. ZuevInsitute of Atmosperic Optics (IAO), Tomsk, Russian Federation.
- FLIR AB, FLIR The Ultimate Infrared Handbook for R&D Professionals. Available from: https://www.flirmedia.com/MMC/THG/Brochures/T559243/T559243_EN.pdf
- FLIR Systems, Inc. What is the relation between TemperatureLinearResolution and SensorGainMode (temperature range) for the FLIR Ax5 series? Available from: https://www.flir.eu/support-center/Instruments/what-is-the-relation-between-temperaturelinearresolution-and-sensorgainmode-temperature-range-for-the-flir-ax5-series/
- de Lima Filho GM, Cardoso Fernandes de Almeida R, Morgado de Castro R, et al. Operational measurements for infrared camera characterization. J Aerospace Technol Manage. 2017;9(4):519–528.
- Howell JR. A catalog of radiation configuration factors. New York: McGraw-Hill; 1982.
- Howell JR, Siegel R, Menguc MP. Thermal radiation heat transfer, 5th ed. New York: Taylor & Francis; 2010.
- Olbrycht R, Więcek B. New approach to thermal drift correction in microbolometer thermal cameras. Quant Infrared Thermogr J. 2015;12(2):184–195.
- Olbrycht R, Kałuża M, Wittchen W, et al. Gas identification and estimation of its concentration in a tube using thermographic camera with diffraction grating. Quant Infrared Thermogr J. 2018;15(1):106–120.
- Więcek P, Strakowski R, Więcek B. Mixed carbon dioxide and water vapour detection by using LWIR 14-16 µm high-sensitive VOx microbolometer camera – modelling and experimental results. In 15th Quantitative InfraRed Thermography Conference; Porto, Portugal; 2020 July 6–10.
- Hagen N. Sensitivity limits on optical gas imaging due to air turbulence. Opt Eng. 2018;57(11):114102.
- De Mey G, Felczak M, Więcek B. Modelling and IR measurement of the electronic substrate thermal conductivity. Microelectron Reliab. 2015;55(1):138–142.
- Strąkowski R, Pacholski K, Więcek B, et al. Radiative parameters of steel slag for FeO content estimation using multispectral thermography system. Quant Infrared Thermogr J. 2014;11(2):222–232.