Development of a High-Pressure Fuel Injection System for Use with Propane-DME

Ojeda, William De; Wu, Simon

doi:10.4271/2023-01-0403

SAE Technical Paper Series

2023

DOI: 10.4271/2023-01-0403

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Development of a High-Pressure Fuel Injection System for Use with Propane-DME

William De Ojeda¹,

Simon Wu²

Abstract: <div class="section abstract"><div class="htmlview paragraph">Paper details the design approach and performance of a high-pressure common rail fuel injection system used with Propane-DME mixtures targeting high injection pressures on a light duty 2.2L inline-4 compression ignition engine. The study estimates the bulk modulus of elasticity based on the hardware geometry and operating pressures to assess the compressibility of Propane and DME across a range of pressures typical of the LD engine appli… Show more

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2024

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Cited by 1 publication

References 9 publications

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Light Duty Engine Performance Characteristics with Dimethyl Ether and Propane

De Ojeda,

Wu,

Ankobea-Ansah

et al. 2024

SAE Technical Paper Series

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<div class="section abstract"><div class="htmlview paragraph">The paper explores the performance characteristics of a compression ignition HYUNDAI 2.2L engine operating with Dimethyl Ether (DME). Test are carried out at three operating conditions that weigh heavily in the FTP75 certification cycle (1000rpm-12Nm, 1500rpm-50Nm, 2000rpm-100Nm). The engine features a high-pressure common rail fuel injection system designed to operate with liquified gases. The main component of the fuel system is a high-pressure pump that incorporates an electronic inlet metering valve commanded on a crank-angle base to control the rail pressure. The pump, which requires no pressure regulator, provides the flow needed to the injectors without flow returning to the inlet. This novel fueling system is leveraged in tests that are conducted to examine the impact of EGR, combustion phasing, injection pressure on efficiency and emissions. In addition, the impact of introducing 15% Propane by mass is examined. During the tests, the engine ECU is aided by an Engine Controller High Speed Oversight unit (ECHO) to provide combustion phasing control, improved cylinder-to-cylinder uniformity, and an effective optimization over the testing effort. The use of DME and Propane allowed for peak thermal efficiency of nearly 43%. These fuels enable significant carbon index (CI) reductions over the baseline Diesel fuel, with indications that 50% reduction in CO<sub>2</sub> over the Diesel engine are possible.</div></div>

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Light Duty Engine Performance Characteristics with Dimethyl Ether and Propane

De Ojeda,

Wu,

Ankobea-Ansah

et al. 2024

SAE Technical Paper Series

View full text Add to dashboard Cite

show abstract

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Development of a High-Pressure Fuel Injection System for Use with Propane-DME

Cited by 1 publication

References 9 publications

Light Duty Engine Performance Characteristics with Dimethyl Ether and Propane

Light Duty Engine Performance Characteristics with Dimethyl Ether and Propane

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