Dimethyl ether (DME) spray characteristics in a common-rail fuel injection system

Jin, Yu; Bae, Choongsik

doi:10.1243/09544070360729473

Cited by 35 publications

(13 citation statements)

References 28 publications

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“…DME is observed to be in the vapour phase near the edges of the spray which indicates better ignition characteristics. The region consisting of DME vapour is observed to increase significantly when the chamber pressure is increased [87]. Due to improved breakup and evaporation, the ignition delay is observed to be smaller for DME in engine tests and simulations [88].…”

Section: Dimethyl Ether and Its Blendsmentioning

confidence: 91%

A Review on Atomization and Sprays of Biofuels for IC Engine Applications

Boggavarapu

Ravikrishna

2013

International Journal of Spray and Combustion Dynamics

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Ever increasing energy requirements, environmental concerns and energy security needs are strongly influencing engine researchers to consider renewable biofuels as alternatives to fossil fuels. Spray process being important in IC engine combustion, existing literature on various biofuel sprays is reviewed and summarized. Both experimental and computational research findings are reviewed in a detailed manner for compression ignition (CI) engine sprays and briefly for spark ignition (SI) engine sprays. The physics of basic atomization process of sprays from various injectors is included to highlight the most recent research findings followed by discussion highlighting the effect of physico-chemical properties on spray atomization for both biofuels and fossil fuels. Biodiesel sprays are found to penetrate faster and have narrow spray plume angle and larger droplet sizes compared to diesel. Results of analytical and computational models are shown to be useful in shedding light on the actual process of atomization. However, further studies on understanding primary atomization and the effect of fuel properties on primary atomization are required. As far as secondary atomization is concerned, changes in regimes are observed to occur at higher air-jet velocities for biodiesel compared to those of diesel. Evaporating sprays revealed that the liquid length is longer for biodiesel. Pure plant oil sprays with potential use in CI engines may require alternative injector technology due to slower breakup as compared to diesel. Application of ethanol to gasoline engines may be feasible without any modifications to port fuel injection (PFI) engines. More studies are required on the application of alternative fuels to high pressure sprays used in Gasoline Direct Injection (GDI) engines.

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Section: Dimethyl Ether and Its Blendsmentioning

confidence: 91%

A Review on Atomization and Sprays of Biofuels for IC Engine Applications

Boggavarapu

Ravikrishna

2013

International Journal of Spray and Combustion Dynamics

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“…For this purpose, other kinds of general commercial petroleum fuels are used, such as Jet-A and the modified petroleum fuel Jet-B2. Jet-B is a modified fuel that is a mixture of gasoline and petroleum and is used in cold regions [4,6]. Table 1 presents a comparison between the JP-8 aviation fuel and other fuels.…”

Section: Jp-8 Aviation Fuel Characteristicsmentioning

confidence: 99%

“…However, while they have excellent efficiency, they also emit a high level of NO x and PM, which is a chronic problem that has long been in need of a solution. Thus, there is an urgent need for research on reducing these two emissions while preserving the thermal efficiency of diesel engines, and one alternative is a synthetic aviation fuel, JP-8 [4].…”

Section: Introductionmentioning

confidence: 99%

A Study of Spill Control Characteristics of JP-8 and Conventional Diesel Fuel with a Common Rail Direct Injection System

2017

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Diversification of energy sources is a key task for decreasing environmental impacts and global emission of gases. JP-8, a fuel derived from natural gas, coal, biomass, and waste plastics, is a bright prospect. JP-8 is considered a multi-source multi-purpose fuel, with several applications. A preliminary characterization of the JP-8 injection rate and injection quantity behavior was investigated based on the high-pressure common rail injection system used in a heavy-duty engine. According to the spill injection and injection pressure, a trade-off trend between injection rate and injection quantity was observed. As expected, pilot injection of JP-8 aviation fuel and diesel fuel affects the spray quantity and injection evolution of the subsequent operation without pilot injection. The difference in spilling between diesel and JP-8 aviation fuel is greater than the difference in injection amount per time; in the process of controlling the injector solenoid through ECU (Electric Control Units), the oil pressure valve and the needle valve operate to a higher extent in order to maintain the diesel fuel's injection quantity volume. It was found that the total injection quantity was decreased by adding 20% pilot injection duration. Because the pilot injection quantity causes solenoid response, loss and needle lift stroke friction loss.

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“…The DME has a low carbon-to-hydrogen ratio (C:H), a high oxygen content (around 35% by mass) and no C-C bonds in its molecular structure. DME can realize the smoke-free combustion and was also used as an ignition promoter in order to ignite a low cetane number fuel in some researches [112][113][114][115][116][117].…”

Section: Engine Using Methanol/dme (Dimethyl Ether) Blends As Fuelmentioning

confidence: 99%