Re-examination of the emissivity of diesel flames

Kamimoto, Takeyuki; Murayama, Y.

doi:10.1177/1468087411418170

Cited by 27 publications

(14 citation statements)

References 31 publications

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“…Further discussion of the nature and effect of value of α is discussed elsewhere. 22,28 Temporally and spatially resolved apparent temperatures are obtained using a calibrated high-speed imaging system. The KL factor is then evaluated for either wavelength λ n …”

Section: Introductionmentioning

confidence: 99%

Pyrometric imaging of soot processes in a pilot ignited direct injected natural gas engine

Khosravi

McTaggart-Cowan

Kirchen

2020

International Journal of Engine Research

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This work assesses the soot formation and oxidation processes in a high-pressure direct injection natural gas engine using simultaneous high-speed two-colour pyrometry and OH* chemiluminescence imaging. A parametric investigation considers the effects of fuel injection pressure, injection duration and relative pilot and natural gas injection timings. A typical combustion event consists of natural gas being ignited by diesel pilot combustion products, followed by partially premixed combustion of natural gas near the piston bowl wall. Soot is formed as natural gas is injected into this reaction zone. A toroidal soot cloud forms and grows towards the centre of the piston bowl. For the range of operating conditions tested, the peak apparent heat release rate and the onset of detectable soot were correlated, as were the timing of the peak soot fraction and end of natural gas injection. The latter indicates that the soot formation and transition to a net oxidation process are strongly influenced by the injection process, similar to diesel engines. Changes in the relative timing of the diesel pilot and natural gas injections influenced natural gas premixing times, with increased premixing leading to a higher peak apparent heat release rate and lower peak soot fraction. The injection pressure affected the peak soot fraction though enhanced oxidation was expected to ultimately reduce the engine-out soot for higher injection pressures. Based on this parametric investigation, an existing conceptual model of pilot ignited direct injected natural gas combustion is extended to also describe the soot formation and oxidation processes.

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Section: Introductionmentioning

confidence: 99%

Pyrometric imaging of soot processes in a pilot ignited direct injected natural gas engine

Khosravi

McTaggart-Cowan

Kirchen

2020

International Journal of Engine Research

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“…According to the size of container, the value of flame emissivity of burning diesel is 0.8 (Kamimoto and Murayama, 2011;Zhang et al, 2009). Fig.…”

Section: Resultsmentioning

confidence: 99%

Experimental Study on Water Curtain Fighting Fire Based on Infrared Technique

Zhong¹,

Jiang²,

Chen³

2017

Frontiers in Heat and Mass Transfer

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Infrared radiation is a type of electromagnetic radiation and invisible to human eyes. It is used widely in industrial, scientific, and medical applications. Pool fire is an emergent accident, which emits intense thermal radiation. In order to quantify the performance of water curtain fighting fire, a testing platform is built and experimental studies are carried out. An infrared imager is used to acquire real-time experimental data and respond to the variations of flame in time and space dimensions. Experimental principles and operating procedures are described in detail. The transmissivity is used to quantify the performance of water curtain fighting fire. Experimental results show that the flame presents obvious fluctuations during combustion. Analysis on the average value of transmissivity over time show that a water curtain with cone-shaped nozzles achieved higher performance of fighting fire than a water curtain with fan-shaped nozzles. The proposed method can be used to provide guidance on the development and design of water curtain fighting fire.

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“…For wavelengths in the visible range, a has a negligible effect on the calculated temperature and KL, 7,23 and soot samples deposited on a piston window indicated a = 1:38. 24 An evaluation using Rayleigh-Debye-Gans (RDG) theory for light scattering by soot aggregates and an assumed constant refractive index resulted in a = 1:31; however, the temperature and KL factor from this approach only resulted in a difference of 1%-2%, relative to a traditional pyrometric evaluation.…”

Section: Two-color Pyrometrymentioning

confidence: 99%

Refinement of the two-color pyrometry method for application in a direct injection diesel and natural gas compression-ignition engine

Khosravi

Kirchen

2019

Proceedings of the Institution of Mechanical Engineers, Part D:

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The soot emissions from internal combustion engines have significant health and environmental impacts and, as such, are subject to increasingly stringent regulations. Two-color pyrometry provides the in-cylinder soot cloud temperature and soot volume fraction and can provide insight to the in-cylinder soot formation and oxidation processes to guide research for reducing engine-out soot emissions. This work demonstrates improvements to the two-color pyrometry methodology, with a focus on low-temperature, low-soot regimes such as low-temperature combustion or combustion of direct injected natural gas. Through selection of a fast and robust numerical algorithm, characterizing and increasing the detection envelope, performing static and dynamic perspective adjustments, accounting for non-uniform and non-linear system response, as well as localized signal-to-noise ratio enhancement through image filtering, the performance of the pyrometric method was improved by a 40% increase in the resolved signal fraction. The refined two-color method was evaluated for both direct injected diesel and natural gas fueling strategies using a pilot-ignited direct injected natural gas fuel system and facilitated evaluation of local temperatures and soot concentrations in pilot-ignited direct injected natural gas combustion, despite the generally low soot levels in this combustion strategy.

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Re-examination of the emissivity of diesel flames

Cited by 27 publications

References 31 publications

Pyrometric imaging of soot processes in a pilot ignited direct injected natural gas engine

Pyrometric imaging of soot processes in a pilot ignited direct injected natural gas engine

Experimental Study on Water Curtain Fighting Fire Based on Infrared Technique

Refinement of the two-color pyrometry method for application in a direct injection diesel and natural gas compression-ignition engine

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