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EMS The Energy Institute Dimethyl Ether - A Path to Use Natural Gas as a Transportation Fuel André Boehman EMS Energy Institute Department of Energy & Mineral Engineering The Pennsylvania State University Partners: Oberon Fuels Alternative Fuel Technology, LLC EMS The Energy Institute Why Consider DME? Natural gas vehicles are of great public and commercial interest direct displacement of petroleum from a domestic resource Efficient utilization of natural gas should be our goal But in what form? HCNG, CNG, LNG, or conversion to other fuel chemistry for more efficient usage? Dimethyl ether represents an emerging engine technology for NG utilization. Infrastructure build-out can piggyback on current LPG infrastructure Handles like propane Burns smokeless eliminates diesel particulate matter concerns Won’t boil off if your vehicle sits for two weeks EMS The Energy Institute J. Eberhardt, DEER 2002 DME 61% the energy content of propane Similar energy content to ethanol on volume basis EMS The Energy Institute Comparison of Emissions of Low Emissions Vehicle-Certified RTD Buses Vehicle Cycle THC (g/mi) NMHC (g/mi) NOx (g/mi) CO (g/mi) CO2 (g/mi) PM (g/mi) Btu/mi RTD Bus 1014-CNG CBD 20.04 2.19 9.06 0.34 1690 0.02 27018 RTD Bus 1011Diesel CBD 0.18 ----- 16.12 11.18 1785 1.02 22908 McCormick, Graboski, Alleman, Herring and Nelson, SAE 1999-01-1507 ~ 3090 1890 g/mi at 70*GWP 2090 10*GWP of CH4 20*GWP CNG Vehicles Suffer From: Reduced compression ratio lower thermal efficiency High unburned CH4 emissions Combination of high CH4 emissions and reduced efficiency eliminates the H/C ratio benefit of CNG over diesel fuel with respect to CO2eq emissions EMS The Energy Institute CNG Vehicle Efficiency 1990’s: Thomas and Staunton (SAE 1999-01-1511) state DOE target is 10% > fuel economy than equivalent gasoline vehicle, but > 15% improvements are possible with turbocharged lean-burn operation. Alternative is CI NG engines, using diesel pilot, and recommended port gas injectors or DI NG injectors, and maybe a prechamber to enhance ignition. Diesel efficiency requires DI or IDI for the NG and provide >28 to 37% efficiency gain over gasoline. Their analysis was restricted to conventional combustion – dual fuel with micropilot or CI of the NG. Weaver and Turner (SAE 940548) show that knock can occur in high BMEP engines, leading to derating of the engine to avoid knock or reduction of the fraction of energy from NG. At light load the very lean mixture may prevent effective burning of the homogeneous NG charge unless the engine is throttled. Can we “burn” natural gas and have diesel or better efficiency? consider DME “Synthetic LPG” DME Background What is DME? What is DME? Methanol Methane Patron member Patron member Propane LPG Butane Dimethyl-ether (DME) Water 1.4 tons MeOH to 1 ton DME Hydrogen Carbon Oxygen DME Properties – Comparison with Other Fuels Property DME Diesel Propane Chemical Formula C2H6O C10.8 H18.7 C3H8 Molecular Weight 46.07 148.6 44.11 Critical Temperature- C 127 - 95.6 Boiling Point- C -24.9 71-193 -42.1 Vapor Pressure at 20 C-kg/m2 5.1 <0.01 8.4 Critical Pressure-bar 53.7 - 43 Liquid Viscosity- cP .15 2-4 .10 Liquid Density at 20 C-kg/m3 668 800-840 501 Bulk Modulus (N/m2) 6.37E+08 1.49E+09 Specific Density,gas 1.59 - 1.52 Solubility in H2O at 20 C g/l 70 Negligible .12 Lower Heating Value- kJ/kg 28430 42500 46360 Heat of vaporization- kJ/kg 20C 410 233 426 Explosion limit in air- vol% 3.4-17 1.0-6.0 2.1-9.4 Ignition temperature at 1 atm- C 235 250 470 Cetane Number 55-60 40-55 7 Factors Driving DME Fuels Growth – Diesel Substitution Opportunities Can be used in conventional diesel engines with a modified fuel injection system Large potential market High cetane Quiet combustion Clean burning (sootless – no smoke or particulates) 100% SOx reduction Challenges Technical and regulatory hurdles remain LPG-like distribution infrastructure Lower lubricity requires lubricating agent Lower viscosity can cause leakage Government regulations Volvo DME Truck 8 Factors Driving DME Fuels Growth – Diesel Substitution Much Work Underway Japan DME Vehicle Promotion Committee Volvo & BioDME Consortium Shanghai Automotive Corp. Alternative Engine Technology Isuzu Advanced Engineering Center Nissan SAIC DME Diesel Engine Isuzu DME Diesel Truck Volvo DME Diesel Engine Nissan NTSL DME Diesel Truck SAIC DME Diesel Bus 9 EMS The Energy Institute Technology Description Developer of Fleet Scale DME Production System DME at 3000-5000 gallons per day Natural Gas and CO2 as feedstocks Leaps over the “Valley of Death” due to small scale production R&D Support and Technology Demonstration Developer of Novel Fuel Injection Systems for DME AFT fuel system technology is being adapted for commercial heavy duty applications by Volvo Group and Delphi AFT fuel system can be scaled from lightduty to heavy-duty applications Transportation Institute / Test Track / Chassis Dyno Combustion, Emissions and Fuel Formulation Oberon Fuels Process Natural Gas + CO2 NG-DME Syngas Methanol DME Biogas Gas-to-Liquids Unit Bio-DME Technology • Utilize proven components and catalysts • Benefit from the development of small-scale hydrogen production units • 30% CO2 in feedstock and scale are well suited for distributed waste biogas sources • Innovations from Oberon focus on: – Integration of modular components – Process efficiency – Centralized volume construction World leader in DME fuel system innovation – developed four generations of common rail fuel systems specifically designed for DME Novel fuel pumps and fuel injectors Novel fuel feed pump to send fuel from the supply tank to the engine EMS The Energy Institute Why Consider DME? Because it makes sense on many levels: Higher energy density than compressed natural gas Will not vent due to evaporation over time Does not need cryogenic storage Ease of refueling (no venting, no compressors) Diesel engine efficiency Ultra low emissions with simple emissions controls Monetizes “dry gas” in the Marcellus Shale Natural gas is selling at less than $2.50 per equivalent diesel gallon (Jan. 2012, DOE Clean Cities Alternative Fuel Price Report January 2012 DME is anticipated to sell at $3 per equivalent diesel gallon Represents an increase in the value of the natural gas This team has the capability to bring DME and DME engines to market cost-effectively