Reducing the Emission of Particles from a Diesel Engine by Adding an Oxygenate to the Fuel

Nord, Kent; Haupt, Dan

doi:10.1021/es048085h

Cited by 45 publications

(26 citation statements)

References 30 publications

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“…Conversely, cyclic hydrocarbons have higher energy densities, due to ring strain, and are preferred to be mixed into conventional jet‐fuel to increase its density . Past investigations have also found that the addition of oxygenates to fuel, in which the oxygen is bonded to two carbons as with ethers and esters, yield the lowest soot emissions of particulate matter and emissions decline as the oxygen content is increased . In addition, it has been found that when a cyclic ketone is added at a constant concentration to a heavy‐duty direct injection diesel engine, the smoke opacity and soot emissions are lowered .…”

Section: Introductionmentioning

confidence: 99%

Absolute photoionization cross sections of two cyclic ketones: cyclopentanone and cyclohexanone

2017

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Absolute photoionization cross sections for cyclopentanone and cyclohexanone, as well as partial ionization cross sections for the dissociative ionized fragments, are presented in this investigation. Experiments are performed via a multiplexed photoionization mass spectrometer utilizing vacuum ultraviolet (VUV) synchrotron radiation supplied by the Advanced Light Source of Lawrence Berkeley National Laboratory. These results allow the quantification of these species that is relevant to investigate the kinetics and combustion reactions of potential biofuels. The CBS-QB3 calculated values for the adiabatic ionization energies agree well with the experimental values, and the identification of possible dissociative fragments is discussed for both systems. Copyright © 2017 John Wiley & Sons, Ltd.

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Section: Introductionmentioning

confidence: 99%

Absolute photoionization cross sections of two cyclic ketones: cyclopentanone and cyclohexanone

2017

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“…At 2300 r$min -1 , the percentages of ultra-fine particle were 66%-82% for diesel fuel and 73%-88% for A-diesel. The opposite results were reported by Nord et al [14]. In their study, a 10% acetal blend with diesel fuel (A-diesel) and base diesel fuel were tested on a diesel engine with electronically controlled fuel injection.…”

Section: Resultsmentioning

confidence: 62%

A comparative study of particle size distribution from two oxygenated fuels and diesel fuel

Shi

Zhang

et al. 2010

Front. Environ. Sci. Eng. China

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Oxygenated fuels are known to reduce particulate matter (PM) emissions from diesel engines. In this study, 100% soy methyl ester (SME) biodiesel fuel (B100) and a blend of 10% acetal denoted by A-diesel with diesel fuel were tested as oxygenated fuels. Particle size and number distributions from a diesel engine fueled with oxygenated fuels and base diesel fuel were measured using an Electrical Low Pressure Impactor (ELPI). Measurements were made at ten steady-state operational modes of various loads at two engine speeds. It was found that the geometric mean diameters of particles from SME and Adiesel were lower than that from base diesel fuel. Compared to diesel fuel, SME emitted more ultra-fine particles at rated speed while emitting less ultra-fine particles at maximum speed. Ultra-fine particle number concentrations of A-diesel were much higher than those of base diesel fuel at most test modes.

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“…Nowadays, 1,1-dibutoxyethane (DBE) and other similar acetals such as dibutoxymethane derived from n-butanol and formaldehyde are produced at a small scale, mainly for applications in the flavor and fragrance industries and as solvents (cleaning, aerosols, adhesives, etc.). Acetals have also been identified as oxygenates for diesel blending due to their capability to reduce emissions, mainly of particulate matter, and to facilitate the combustion of the final products without decreasing the ignition quality, maintaining, or even increasing the cetane number [10,11]. Acetals have also been identified as oxygenates for diesel blending due to their capability to reduce emissions, mainly of particulate matter, and to facilitate the combustion of the final products without decreasing the ignition quality, maintaining, or even increasing the cetane number [10,11].…”

Section: Generalmentioning

confidence: 99%

12. Utilization of existing assets

Roelant,

Cavani,

Pereira

et al. 2015

Biorefineries

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This chapter proposes the integration of bio-based technology in existing plants. Low capital costs and relatively low risks are shown to promise a fast industrial deployment of novel bio-based technologies. Two case studies are performed. The first, the production of maleic anhydride from bio-n-butanol in a phthalic anhydride plant, is an example of integration downstream. A techno-economic evaluation reveals a need for further catalyst development and reaction engineering. The second case study, the production of 1,1-dibutoxyethane co-located with an n-butanol plant, is an example of integration upstream. Simulated moving-bed membrane reactor technology, which is still in a low development stage, is evaluated qualitatively. The case is promising, but remains to be demonstrated.

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Reducing the Emission of Particles from a Diesel Engine by Adding an Oxygenate to the Fuel

Cited by 45 publications

References 30 publications

Absolute photoionization cross sections of two cyclic ketones: cyclopentanone and cyclohexanone

Absolute photoionization cross sections of two cyclic ketones: cyclopentanone and cyclohexanone

A comparative study of particle size distribution from two oxygenated fuels and diesel fuel

12. Utilization of existing assets

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