A Sentinel Sensor Network for Hydrogen Sensing

Grimes, Craig A.; Ong, Keat Ghee; Varghese, Oomman K.; Yang, Xiping; Mor, Gopal K.; Paulose, Maggie; Dickey, Elizabeth C.; Ruan, Chuanmin; Pishko, Michael V.; Kendig, James W.; Mason, Andrew J.

doi:10.3390/s30300069

Cited by 91 publications

(48 citation statements)

References 30 publications

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“…[51] Proposed low-temperature gas sensing mechanisms depend on the nature of gas À for instance, H 2 diffuses into a TiO 2 lattice acting as an electron donor [52] or forms OH groups at its surface, creating an electron-rich interface region while reducing gases tend to react with photogenerated ionised oxygen species produced on TiO 2 by UV irradiation…”

Section: Electronic Properties #1: Photoactivitymentioning

confidence: 99%

Application-wise nanostructuring of anodic films on titanium: a review

Diamanti

Ormellese

Pedeferri

2015

Journal of Experimental Nanoscience

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Section: Electronic Properties #1: Photoactivitymentioning

confidence: 99%

Application-wise nanostructuring of anodic films on titanium: a review

Diamanti

Ormellese

Pedeferri

2015

Journal of Experimental Nanoscience

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“…In order to compare results with that specific work, we set the sampling period T to one second, furthermore, initially, no sensor fusion take place and data are sent to datasink at the end each sampling cycle. The mean current value, I cc,mean , obtained under the TelosB operating conditions described above, can be computed according to (1) by using the current measured in the proposed setup. Table II summarize the results of performed measurements.…”

Section: Resultsmentioning

confidence: 99%

“…LED/Polymer based optical sensing can be an extremely interesting solution for all application where high limits of detection are not an issue because of very low cost, reliability, and very low power demand [7], [1]. However in order to obtain suitable sensitivity in most application Laser source should be used and this may increase significantly both costs and power needs.…”

Section: Introductionmentioning

confidence: 99%

“…Hazardous gas, like explosives or flammable ones are also source of increasing concern for security reasons due to their possible use in terrorists attacks to military installations. Some of them are currently in use or are foreseen to be used as energy carrier for automotive transports and so their diffusion is expected to grow significantly, for example, hydrogen powered car refilling stations could become very common in the near future [1]. The capability to detect and monitor the presence of such substances in the work or living environments, being indoor or outdoor, is thus of paramount importance in multiple applicative scenarios and should be considered as a potential life saving assets.…”

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confidence: 99%

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Wireless Sensor Networks for Distributed Chemical Sensing: Addressing Power Consumption Limits With On-Board Intelligence

et al. 2011

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Abstract- I. INTRODUCTIONollutant and toxic gases affect human health in multiple scenarios. Their effects can vary from localized, low intensity to systemic with potential life threats, depending mainly on exposure time and concentrations. Hazardous gas, like explosives or flammable ones are also source of increasing concern for security reasons due to their possible use in terrorists attacks to military installations. Some of them are currently in use or are foreseen to be used as energy carrier for automotive transports and so their diffusion is expected to grow significantly, for example, hydrogen powered car refilling stations could become very common in the near future [1]. The capability to detect and monitor the presence of such substances in the work or living environments, being indoor or outdoor, is thus of paramount importance in multiple applicative scenarios and should be considered as a potential life saving assets. Unfortunately, the characteristics of chemical signal propagation make the use of single measurement point solutions unfeasible and mostly inefficient. Actually, propagation of chemical plumes in real environments is primary related to complex fluid dynamics effects (e.g. turbulence) with diffusion being negligible in many circumstances [2]. Actually, diffusion velocities of gas molecules are too slow to transport chemical signals under many conditions. As such, gas concentrations in real environment can easily become very difficult to predict both in space and time domain.Just as an example, the plume generated by an H 2 spill in a hydrogen based car refilling station could move in rather unpredictable paths and the probability of a single solid state chemical sensor to be hit by it with a significant concentration in a timely way could be considered negligible.Recently researchers began to tackle these scenarios with novel approaches that refer to two main classes. A first approach is based on the use of a moving detector. Together with appropriate modeling information these detectors can follow random paths exploring a particular environment before being hit by a chemical plume [3][4]. After that, by using chemical spills search algorithms, often biomimetic, they try to detect the source of contamination (source declaration problem). The other approach, basically rely on the use of multiple, low cost and autonomous distributed fixed detectors, that try to cooperate in reconstructing a chemical image of the sensed environment [1] [5][6][7]. Both approaches could maximize probabilities to detect and quantify appropriately the presence of hazardeous or toxic gas in environment with different specificities.Advantages of distributed approach are identifiable in flexibility, scalability, enhanced signal to noise ratio, robustness and self healing. Several sensors node can be placed in different locations, each one with its own characteristics in terms of environmental conditions (air flow, temperature, humidity, different gas concentration, etc.) contributing to describe more thoroughly t...

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“…The thermal designs seem to be most promising for low-cost devices because of the lack of moving parts or complex transducers. Micromachined thermal flow sensors can be subclassified regarding the basic principle in thermoresistive, termocapacitive, thermoelectric, thermoelectronic, pyroelectric, and frequency analog sensors (Grimes et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

Hot-film and calorimetric thermal air flow sensors realized with printed board technology

Glatzl

Ćerimović

Steiner

et al. 2016

J. Sens. Sens. Syst.

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Abstract. This paper addresses the development of flow sensors optimized for heating, ventilating, and air conditioning systems. The sensors are based on the printed circuit board technology facilitating robust, flexible (in terms of layout), and cost-effective devices. Two approaches for measuring fluid quantities like flow velocity over the whole cross section are investigated in this context. The first one relies on hot-film transduction and stands out for its simplicity, but also shows some severe limitations, which can be circumvented by the second approach based on calorimetric transduction. Supported by extensive numerical simulations, several sensor embodiments were investigated and fabricated. After experimental characterization, measurement and simulation results were compared, which turned out to be in good agreement.

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A Sentinel Sensor Network for Hydrogen Sensing

Cited by 91 publications

References 30 publications

Application-wise nanostructuring of anodic films on titanium: a review

Application-wise nanostructuring of anodic films on titanium: a review

Wireless Sensor Networks for Distributed Chemical Sensing: Addressing Power Consumption Limits With On-Board Intelligence

Hot-film and calorimetric thermal air flow sensors realized with printed board technology

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