Effects of Oxygenated Fuels on DI Diesel Combustion and Emissions

Abstract: Emissions from compression ignition (CI) engines are being placed under stricter regulations. The use of oxygenated fuels has been proposed as a means of complying with future emission levels. Previous research on oxygenates has suggested the presence of molecular oxygen within the fuel significantly reduces the formation of particulate matter (PM). The PM reduction is logarithmic and correlates with the weight percent of oxygen in the fuel and not with other properties such as chemical structure and volatilit… Show more

“…It can easily be seen that the addition of acetal influences the particle size throughout all measured particle sizes; however, the influence seems to be somewhat higher on larger particle sizes, i.e., particles with a mobility diameter of >130 nm. This effect on particle size when using oxygenated fuels has also been observed by other researchers (16).…”

“…Different organic compounds (for example, alcohols, ethers, and esthers) have been studied as potential additives to diesel, and the influence of the levels of particles as well as other components have been reported (3,(7)(8)(9)(10)(11)(12)(13). A general finding is that the reduction of particles seems to be linearly dependent on the oxygen content, and, thus, the blend with the highest oxygen content results in the highest reduction of particles (14)(15)(16). Most of the investigations also report that the effect of the chemical structure is negligible, compared to the effect of the oxygen content (14)(15)(16)(17).…”

“…A general finding is that the reduction of particles seems to be linearly dependent on the oxygen content, and, thus, the blend with the highest oxygen content results in the highest reduction of particles (14)(15)(16). Most of the investigations also report that the effect of the chemical structure is negligible, compared to the effect of the oxygen content (14)(15)(16)(17). Cheng et al, for example, formulated fuels blends with up to 15 wt % of oxygen and tested them in a Cummins B 5.9 directinjection diesel engine (14).…”

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

“…It can easily be seen that the addition of acetal influences the particle size throughout all measured particle sizes; however, the influence seems to be somewhat higher on larger particle sizes, i.e., particles with a mobility diameter of >130 nm. This effect on particle size when using oxygenated fuels has also been observed by other researchers (16).…”

“…Different organic compounds (for example, alcohols, ethers, and esthers) have been studied as potential additives to diesel, and the influence of the levels of particles as well as other components have been reported (3,(7)(8)(9)(10)(11)(12)(13). A general finding is that the reduction of particles seems to be linearly dependent on the oxygen content, and, thus, the blend with the highest oxygen content results in the highest reduction of particles (14)(15)(16). Most of the investigations also report that the effect of the chemical structure is negligible, compared to the effect of the oxygen content (14)(15)(16)(17).…”

“…A general finding is that the reduction of particles seems to be linearly dependent on the oxygen content, and, thus, the blend with the highest oxygen content results in the highest reduction of particles (14)(15)(16). Most of the investigations also report that the effect of the chemical structure is negligible, compared to the effect of the oxygen content (14)(15)(16)(17). Cheng et al, for example, formulated fuels blends with up to 15 wt % of oxygen and tested them in a Cummins B 5.9 directinjection diesel engine (14).…”

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

“…For a detailed description of the Scanning Mobility Particle Sizer (SMPS) system, see Hallgren [14]. Backgrounds scan with and without the HEPA filter installed upstream of the dilution tunnel is found in Figure 5.6 showing the effectiveness of the HEPA filter.…”

Ultra-Clean Fischer-Tropsch Fuels Production and Demonstration Project

“…Absence of carbon-carbon bond in its chemical structure helps to reduce soot emissions during combustion, but the same affects lubrication property of the fuel leading to wear and tear of moving parts that comes in contact with the fuel [29,193,194]. Oxygen rich fuel property of DME also helps to reduce PM as the absence of C-C bond inhibits the formation of PM and cause high oxidation of particulates [195][196][197]. The low viscosity and density of DME possess fuel handling issues.…”

A study on the control of NOx and particulate matter emissions from dimethyl ether combustion in compression ignition engines