Photothermal characterization of natural gas automotive fuel

Esquef, I.A.; Legey, Ana Paula; Silva, M G da; Vargas, H.; Miranda, L. C. M.

doi:10.1088/0957-0233/17/6/015

Cited by 3 publications

(1 citation statement)

References 14 publications

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“…The former controls heat transfer across the contact interface while the latter manages heat removal away from the interface. Most of the existing PT methods for effusivity and diffusivity measurement employ a parametric sweep and fitting procedure or time-resolved analysis [2,[15][16][17][18][19][20]. Due to the convoluted nature of the instrumental transfer function with the sample's PT response, such techniques are generally complicated, slow, and in many cases they require guess parameters for data fitting.…”

Section: Introductionmentioning

confidence: 99%

Dual-reference photothermal imaging for the estimation of thermal effusivity of solids

Sreekumar¹,

Vaidyan²

2007

Meas. Sci. Technol.

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A photothermal imaging method for the fast measurement of thermal effusivity of solids is suggested. On the basis of the principles of thermal wave interference in a layered medium, we have derived the conditions for a linear variation of the phase difference with effusivity for a sample–reference substrate assembly coated with an optical absorber. Exploiting this linearity, a dual-reference scheme has been introduced for simultaneously normalizing the instrumental offset and coating parameters out of effusivity estimation. As a means of improving accuracy and reducing sample size, three ranges of measurement within 5000–40 000 W s1/2 m−2 K−1 are used. For the absorber, we have used spin or spray coated carbon layers whose reliability has been verified using common-mode-rejection-demodulation-assisted photothermal imaging. Once set for an effusivity range and coating parameters, a threshold frequency can be found, below which the method offers the assumed accuracy. Typical error is 2.8–3.8% in most measurements and the technique turns out to be an easy and fast scheme, which can be implemented with minimum instrumentation and computation. The method has been demonstrated for the effusivity evaluation of hardened steel as a function of the quenching time.

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