%0 Journal Article %1 jerzembeck2008influence %A Jerzembeck, Sven %A Peters, Norbert %A Spiekermann, Peter %D 2008 %J SAE Technical Paper Series %K nrev %T The influence of fuel boiling temperature on common rail spray penetration and mixture formation of ethanol and propylene-glycol %V 2008-01-0934 %X An intricate experimental investigation of Common-Rail Sprays was done using a High-Pressure Chamber, a Common-Rail-Injection System as well as three optical measurement techniques. Ethanol and Propylene-Glycol (of purity for spectroscopic applications ≻99.9%) were used as fuels. The experimental boundary conditions of the high pressure chamber were up to 5 MPa and 800K. In detail an optical shadowgraph imaging and Mie-scattering technique were used. Liquid and gas phase spray penetration are investigated for fuels with low and high volatility respectively boiling temperature (propylene glycol, ethanol) for a variation of ambient gas phase temperature and density. Spatial information of the mixing process of both fuels is obtained by the 1D spontaneous Raman scattering (1D-RS) technique. That technique provides quantitative mass fraction respectively fuel-air ratio data over a wide temperature and pressure range without the need of a tracer as for many techniques that are based on fluorescence (LIF). A brief discussion as well as a comparison of these results of the two investigated fuels will be done.

@article{jerzembeck2008influence, abstract = {An intricate experimental investigation of Common-Rail Sprays was done using a High-Pressure Chamber, a Common-Rail-Injection System as well as three optical measurement techniques. Ethanol and Propylene-Glycol (of purity for spectroscopic applications ≻99.9%) were used as fuels. The experimental boundary conditions of the high pressure chamber were up to 5 MPa and 800K. In detail an optical shadowgraph imaging and Mie-scattering technique were used. Liquid and gas phase spray penetration are investigated for fuels with low and high volatility respectively boiling temperature (propylene glycol, ethanol) for a variation of ambient gas phase temperature and density. Spatial information of the mixing process of both fuels is obtained by the 1D spontaneous Raman scattering (1D-RS) technique. That technique provides quantitative mass fraction respectively fuel-air ratio data over a wide temperature and pressure range without the need of a tracer as for many techniques that are based on fluorescence (LIF). A brief discussion as well as a comparison of these results of the two investigated fuels will be done. }, added-at = {2013-03-21T15:13:41.000+0100}, author = {Jerzembeck, Sven and Peters, Norbert and Spiekermann, Peter}, biburl = {https://www.bibsonomy.org/bibtex/2ef17e94a4d4d206b399f04df8368ee69/itv}, interhash = {1e137da87a78941f2b70b1b8fc73884e}, intrahash = {ef17e94a4d4d206b399f04df8368ee69}, journal = {SAE Technical Paper Series}, keywords = {nrev}, timestamp = {2014-07-31T07:46:38.000+0200}, title = {The influence of fuel boiling temperature on common rail spray penetration and mixture formation of ethanol and propylene-glycol}, volume = {2008-01-0934}, year = 2008 }