Backscatter absorption gas imaging: a new technique for gas visualization

McRae, Thomas G.; Kulp, Thomas J.

doi:10.1364/ao.32.004037

Cited by 40 publications

(18 citation statements)

References 9 publications

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“…1. The spatial location and distribution of the smoke plume, and the plume gas concentration is remotely determined by analyzing the backscattered signal [8]. Rough estimation of plume velocity can be carried out from differential analysis of LIDAR readings for plume positions between two sampling insatnts.…”

Section: A Lidar Based Range Sensing Of Chemical Plumementioning

confidence: 99%

“…Different components of the smoke plume affect the fuel cell differently, but the net effect is observed in reduction in output power and longevity of the fuel cell. Aim of our work is to first sense the direction and distance of the CO based chemical plume from the fuel cell using LIDAR based range sensing technology [8]. Next target is to forecast the time of arrival of this smoke plume in vicinity of the fuel cell system.…”

mentioning

confidence: 99%

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Multimode sensing technique for carbon monoxide plume tracking and forecasting for reliable field deployed air breathing PEM fuel cell operation

Mitra

Ramesh

Bhattacharyya

et al. 2012

2012 1st International Symposium on Physics and Technology of Sensors (ISPTS-1)

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An air breathing proton exchange membrane fuel cell (PEMFC) combines H 2 or reformed hydrocarbon fuel and O 2 from air to produce electrical energy. The efficiency of nano-scale platinum catalysts at the fuel cell cathode is highly susceptible to carbon monoxide (CO) poisoning and results in irreversible damage to the electrode. Higher CO 2 level in air does not induce catalytic poisoning , however it lowers the partial pressure of O 2 at cathode . This results in a drop of fuel cell output power. Our work proposes a combined range sensing and proximate sensing based approach for tracking of smoke plume. Our approach helps to tackle the PEMFC degradation issue by forecasting nature of the plume in vicinity of the fuel cell. The simulation results quantify the dynamic changes in PEMFC electrode resistance with respect to higher levels of CO concentration in air. Drop in fuel cell output power with respect to higher mass fractions of CO 2 and ambient humidity are also quantified in this work. The proposed threat prediction based approach helps to enhance the lifetime of a field deployed air PEMFC by reducing and/or inhibiting the air contaminant based fuel cell degradation mechanisms. Keywords-component; air breathing field deployed PEMFC, range and proximate sensing, plume tracking, enhancing FC life I. INTRODUCTIONA fuel cell is an electrochemical device that combines hydrogen and oxygen to produce electricity with water and heat as the bye product. Hydrogen is the most commonly used fuel, but other hydrocarbons such as methanol, ethanol, CNG, and propane may be also used as fuels. Production of high energy density at comparatively low temperature, high systems efficiency (80%), and pollutant free quieter operation are the salient features of fuel cell technology. For these reasons, fuel cell technology is uniquely suited for use in a wide variety of stationary, vehicular, and portable energy and power applications. Today, demonstration projects have shown fuel cell systems to be feasible for portable power, transportation (including personal vehicles), utility power, and on-site power generation in a variety of building applications. Most of the major automobile manufacturers now have ambitious programs to develop proton exchange membrane fuel cells as an alternative to the internal combustion engines. Apart from resident applications, many different types of fuel cell systems have been demonstrated for uses in hospitals, boiler plants, surveillance and military purposes, telecommunication facilities, power microgrid etc [1][2][3][4][5][6][7].

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Section: A Lidar Based Range Sensing Of Chemical Plumementioning

confidence: 99%

mentioning

confidence: 99%

Multimode sensing technique for carbon monoxide plume tracking and forecasting for reliable field deployed air breathing PEM fuel cell operation

Mitra

Ramesh

Bhattacharyya

et al. 2012

2012 1st International Symposium on Physics and Technology of Sensors (ISPTS-1)

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“…The principle of operation of the active system is the production of an optical image by reflected (backscattered) laser light, where the laser wavelength is such that it is strongly absorbed by the gas of interest [13]. The system illuminates the scene with infrared light and a video camera-type scanner picks up the backscattered infrared light.…”

Section: Available Technologies For Optical Imagingmentioning

confidence: 99%

Methods for quantification of mass emissions from leaking process equipment when using optical imaging for leak detection

Lev-On¹,

Taback²,

Epperson³

et al. 2005

Environ. Prog.

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“…Laser radars are based upon the principle of recording the radiation scattered by aerosols and they are widely used for the investigation (remote [1] and laboratory [2]) of aerosol parameters for process testing, for solving various problems in meteorology, and for the navigation of moving objects .…”

Section: Introductionmentioning

confidence: 99%

“…Thus the scattering flux incident upon the detector is also time-dependent . The so-called time-dependent lidar equations for single [2], [3] and multiple [4] scattering aerosol models are well known . Our aim is to develop a quasi-rigorous technique, based on the single-multiple scattering model of aerosol space, for calculating the time-dependent cross-section of the laser radar .…”

Section: Introductionmentioning

confidence: 99%

Single-multiple Scattering Technique to Simulate a Time-dependent Signal of a Pulse Laser Radar with Separately Located Illuminating and Receiving Platforms

Ovod

Wriedt

1995

Journal of Modern Optics

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Backscatter absorption gas imaging: a new technique for gas visualization

Cited by 40 publications

References 9 publications

Multimode sensing technique for carbon monoxide plume tracking and forecasting for reliable field deployed air breathing PEM fuel cell operation

Multimode sensing technique for carbon monoxide plume tracking and forecasting for reliable field deployed air breathing PEM fuel cell operation

Methods for quantification of mass emissions from leaking process equipment when using optical imaging for leak detection

Single-multiple Scattering Technique to Simulate a Time-dependent Signal of a Pulse Laser Radar with Separately Located Illuminating and Receiving Platforms

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