Investigation of Puffing and Micro-Explosion of Water-in-Diesel Emulsion Spray Using Shadow Imaging

Mhadi A Ismael,Morgan Heikal,Cyril Crua,Ezrann Zainal A,Masri Baharom,Zuhaib Nissar,Firmansyah Firmansyah,Mohmmed El-Adawy,A A Aziz

doi:10.3390/en11092281

Mhadi A Ismael, Morgan Heikal + Show 7 more

Open Access

https://doi.org/10.3390/en11092281

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Journal: Energies	Publication Date: Aug 30, 2018
Citations: 36	License type: CC BY 4.0

Affiliation: Universiti Teknologi Petronas, University of Brighton

Abstract

Water-in-diesel emulsions potentially favor the occurrence of micro-explosions when exposed to elevated temperatures, thereby improving the mixing of fuels with the ambient gas. The distributions and sizes of both spray and dispersed water droplets have a significant effect on puffing and micro-explosion behavior. Although the injection pressure is likely to alter the properties of emulsions, this effect on the spray flow puffing and micro-explosion has not been reported. To investigate this, we injected a fuel spray using a microsyringe needle into a high-temperature environment to investigate the droplets’ behavior. Injection pressures were varied at 10% v/v water content, the samples were imaged using a digital microscope, and the dispersed droplet size distributions were extracted using a purpose-built image processing algorithm. A high-speed camera coupled with a long-distance microscope objective was then used to capture the emulsion spray droplets. Our measurements indicated that the secondary atomization was significantly affected by the injection pressure which reduced the dispersed droplet size and hence caused a delay in puffing. At high injection pressure (500, 1000, and 1500 bar), the water was evaporated during the spray and although there was not enough droplet residence time, puffing and micro-explosion were clearly observed. This study suggests that high injection pressures have a detrimental effect on the secondary atomization of water-in-diesel emulsions.

Highlights

Admission of water into diesel engines can play a significant role in the simultaneous reduction of nitrogen oxides (NOx ) and particulate matter (PM) [1]
It can be clearly noticed that the size and number of the dispersed water droplets were droplets in the fuel tank and after injector at pressures of 500 bar (A), 1000 bar (B), affected significantly by the shear force in the injector nozzle, as expected from our previous work and 1500 bar (C)
We investigated the effect of fuel injection pressure on puffing and micro-explosion of water-in

Summary

Introduction

Admission of water into diesel engines can play a significant role in the simultaneous reduction of nitrogen oxides (NOx ) and particulate matter (PM) [1]. There is a growing body of literature that recognizes the presence of water as emulsified diesel fuel reduces harmful emissions, while simultaneously improving the combustion process. With water-in-diesel emulsion, the vaporization of water during the spray causes a reduction of NOx emission [8], while secondary atomization improves the combustion process due to better air-fuel mixing [9]. For the secondary atomization of emulsions, both micro-explosion and puffing are the key factors that influence the fuel mixing process. Micro-explosion is when droplets burst into smaller droplets due to explosive boiling of the dispersed water inside a continuous oil phase (immiscibility and different volatility of the two liquid components) which causes the disruption of the parent drops and, a secondary atomization. Puffing is when water droplets (or vapor) erupt from the surface of the parent droplet without its complete breakup

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