A multispectral UV–vis absorption technique for quantitative high-speed field-sequential imaging of fuel films and soot in combustion

“…Roque et al [134] found that the vaporization is not considerably affected by the injection pressure inside the impingement region at a wall temperature of 80 ∘ C. Roque et al [135] studied the characteristics of the liquid film generated using a multicomponent fuel, measuring the impact of the wall temperature changes over the soot generation. Shway et al [136] used an absortion of UV and visible light diagnostic technique to analyze the thickness of combusting fuel films.…”

Experimental study of the behavior of gasoline direct injection GDI sprays during wall impingement under realistic engine conditions.

“…Roque et al [134] found that the vaporization is not considerably affected by the injection pressure inside the impingement region at a wall temperature of 80 ∘ C. Roque et al [135] studied the characteristics of the liquid film generated using a multicomponent fuel, measuring the impact of the wall temperature changes over the soot generation. Shway et al [136] used an absortion of UV and visible light diagnostic technique to analyze the thickness of combusting fuel films.…”

Experimental study of the behavior of gasoline direct injection GDI sprays during wall impingement under realistic engine conditions.

Investigation into ethanol film thicknesses in the evaporation, injection, and flow processes by an online measurement system based on absorption spectroscopy

Development and application of an optimal three-wavelength combination for liquid film measurement with absorption spectroscopy