Methanol Fuel can free us from oIl - with appendices
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Transcript of Methanol Fuel can free us from oIl - with appendices
Bob Falco, PhDPete Sheehey, PhD
Institute for Energy Resourcefulness
Presented to the LAC Transportation Committee 12 July 2012
The EPA has researched the use of high The EPA has researched the use of high percentages of alcohol in enginespercentages of alcohol in engines
Scientifically prescribed path to easy Scientifically prescribed path to easy introduction of methanol introduction of methanol MIT Engine Lab and Lotus EngineeringMIT Engine Lab and Lotus Engineering
The path utilizes the availability of current The path utilizes the availability of current Flex Fueled Vehicles (FFV)Flex Fueled Vehicles (FFV)
There are over 11,000,000 FFV in the USThere are over 11,000,000 FFV in the USAll new vehicles purchased by Los Alamos All new vehicles purchased by Los Alamos
County are Flex Fuel CapableCounty are Flex Fuel Capable
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High cost of vehicle conversionHigh cost of pumping stationsHigh cost of maintenance Lower efficiency/power of vehiclesNo easy transition pathLocked into a single technology and fuel at a time of rapidly developing fuels technology
40%G 10%E 50%M
Institute for Energy Resourcefulness 7/12/124
Lotus Engineering Research
G = $3.73
G = $ 3.11 %
methanol
Lotus Engineering
7/12/12
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• Can be made from natural gas (100-120 yrs)• No competition with food• No water use issues• Cheaper to make than gasoline
Additional advantages• Engines can be optimized to run with
higher efficiency than diesels• Lower CO2,• CO2 neutral if bio methanol• CO2 negative if solar energy is used
• Methanol can be made renewably
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Reduce engine system costs (engine plus exhaust treatment) by $10,000 - $15,000. The engines cost less (diesels are more
expensive)No need for either the Diesel Particulate
Filter or the Urea Filter (NOx) Reduced maintenanceFuel costs less Better mileage – up to 5% better fuel
economy
EIA Nov 08 100 -120 years supply
Institute for Energy Resourcefulness
5/30/12Institute for Energy
Resourcefulness 11
Landfill
COWS------ > BIOGAS----- > GASIFIER -- > METHANOL---- > VEHICLES
NET EFFICIENCY = .70*.85 = 59.5%
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Maximum theoretical efficiency = 1.3*.85 = 1.10%
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Landfill
COWS---- > BIOGAS--- > SOLAR FURNACE -- > METHANOL--- > VEHICLES
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A Way Forward for Economical Environmentally Responsible
Transportation Policy in Los Alamos County• Do a test on an older E-85 vehicle. Buy methanol on open market
and establish the use of GEM mixtures. • If successful run a small test fleet
• Mix locally at airport pumping station?• Expand fleet using GEM mixture
• Contract for a long term methanol price (see supplemental slides)
• Buy all new vehicles with capability of 100% methanol usage• Passage of the “Open Fuels Act” will mandate this
• Renewable methanol from LA landfill gas emissions• Use classical gasifiers to make methanol from landfill gas• In the future, add solar gasifiers to make additional methanol
• Gain 30% in available energy• Utilize all of the CO2 emitted
• Apply for Federal Production Tax Credit
The above can be done with existing vehicles
CNG $2.54*200,000/5 = $101,600 LNG $1.70 * 200,000/5 = $68,000 Diesel $3.91 *200000/5 = $156,400 Methanol $2.64*200000/5 = $105,600 $75,000 cost increment to convert a full sized bus to CNG --------------------------------- Over 200,000 miles --
Converting to Methanol Saves: Diesel – Methanol = $156,400 - $105,600 = $50,800
Converting to LNG Saves: Diesel – (LNG + $75,000) = $156,400 – ($68,000 + $75,000) =
$156,400 – 143,000 = $13,400 ----------------------------
Additional cost of CNG fuel pumps $300,000-$500,000 Additional cost of methanol dispenser/tank from $25,000 to
$50,000
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CNG $2.54*200,000/5 = $101,600 LNG $1.70 * 200,000/5 = $68,000 Diesel $3.91 *200000/5 = $156,400 Methanol $2.64*200000/5 = $105,600 $75,000 cost increment to convert a full sized bus to CNG --------------------------------- Over 200,000 miles --
Converting to Methanol Saves: Diesel – Methanol = $156,400 - $105,600 = $50,800
Converting to LNG Saves: Diesel – (LNG + $75,000) = $156,400 – ($68,000 + $75,000) =
$156,400 – 143,000 = $13,400 ----------------------------
Additional cost of CNG fuel pumps $300,000-$500,000 Additional cost of methanol dispenser/tank from $25,000 to
$50,000
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Transportation costs can be reduced using existing vehicles – hundreds of dollars vs. tens of thousands per vehicle.
Future vehicles can be less expensive to purchase and operate if run on GEM mixtures.
Methanol can be contracted from NM farms or purchased cheaply on long term contract.
Maintenance is traditional, not the complication of CNGFlexibility in fueling
Cellulosic ethanol production breakthrough can immediately be accommodated
Butanol production breakthrough can be accommodated Flex Fueled hybrids are a natural extension for increased mileage
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Experience with Methanol
In California
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Methanol is much cheaper
The contract pricing is substantially less than market prices
as the California experience shows
from
Let’s look at the Carbon Dioxide Emissions from methanol fuel production
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renewables
Gasoline refining
METHANOL
GASOLINE
Safety
• In the California test (15 years), with over 200 million miles of methanoldriving, there was not a single case of accidental methanol poisoning.
• For M100 a 90% reduction in fuel related automotive fires is projected.
P. A. Machiele, Summary Of The Fire Safety Impacts of Methanol
as a Transportation Fuel, SAE International paper 901113
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Solar Methanol will use no water
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Volumetric vs. gravimetric energy density
24
Supports national policy/renewable fuel initiatives
Vehicle demonstration program High efficiency hybrid (hydraulic) Heavy-duty Class 6 delivery truck Captive fleet
High efficiency engine program (neat alcohol fuels and blends with gasoline) Ethanol or Methanol engines
with high efficiency (>40% peak) Lends itself to exhaust thermal energy
recovery in the form of chemical and mechanical energy
Combined system yields fuel cell efficiency (>55% peak) at a significantly lower cost
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Bromberg, L. and Cohn, D., "Alcohol Fueled Heavy Duty VehiclesUsing Clean, High Efficiency Engines,”
SAE Technical Paper 2010-01-2199, 2010, doi:10.4271/2010-01-2199.Author(s): Leslie Bromberg - Massachusetts Institute of TechnologyDaniel Cohn - Massachusetts Institute of Technology
5/30/12Institute for Energy Resourcefulness 26
EPA Brake Thermal Efficiency Comparison
engine fueled on 100% methanolin spark ignition
mode
same engine run in its native diesel mode
(1.9L VW TDI diesel)
Typical 1.9L gasoline engine has 22-25% BTE
42%39%
Ethanol/Methanol can give diesel engine efficiencies without the need for high pressure injection systems and either DPF or Urea NOx reducing exhaust treatment.
Test in a VW TDI 1.9 L diesel engine which was converted to spark ignition for the ethanol tests. The compression ratio was 19.5 to 1.
“Combined with an optimized conventional drivetrain, the efficiency gain shown in the previous slide for E30 should yield an estimated 10% - 12% gain in fuel economy. Thus it more than compensates for the approximately 8% loss in fuel energy density of E30 vs. straight gasoline.” EPA
Even Ethanol/Gasoline mixtures as low as E30 can give engine efficiencies that approach those of a diesel.
These SI engine efficiencies are 25% greaterthan attainable in current gasoline only fueled engines