Methanol fuel
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Methanol fuel is an alternative biofuel for internal combustion and other engines, either in combination with gasoline or independently. Methanol (CH3OH) is less expensive to sustainably produce than ethanol fuel, although it is more toxic than ethanol and has a lower energy density than gasoline. Methanol is safer for the environment than gasoline, is an anti-freeze agent, prevents dirt and grime buildup within the engine, has a higher ignition temperature, and produces horsepower equivalent to that of super high-octane gasoline.[1] It can readily be used in most modern engines.[2] To prevent vapor lock due to being a simple, pure fuel, a small percentage of other fuel or certain additives can be included. Methanol may be made from fossil fuels or renewable resources, in particular natural gas and coal, or biomass respectively. In the case of the latter, it can be synthesized from CO2 (carbon dioxide) and hydrogen.[3] The vast majority of methanol produced globally is currently made with gas and coal.[4] However, projects, investments, and the production of green-methanol has risen steadily into 2023.[5][6][7][8][9] Methanol fuel is currently used by racing cars in many countries and has seen increasing adoption by the maritime industry.
In 2022, the worldwide biomethanol market was around 120 million USD. Most of it is currently made from biomass.[10] Companies investing significantly in biomethanol production and research include Enerkem, Södra, Methanex, Alberta Pacific, and BASF.[11]
History and production
[edit]During the 1973 oil crisis, methanol produced from coal was suggested as a fuel to replace gasoline.[12] In 2005, George A. Olah proposed a "methanol economy" based on energy storage in synthetically produced methanol.[13][14]
In most countries, methanol is currently usually produced from syngas, obtained from steam reforming of methane (the chief constituent of natural gas).[15] In China, which produced around 60% of the world's methanol in 2014, it is made primarily from coal.[16] However, to be viable as an environmentally friendly fuel, it will need to be produced from renewable feedstocks, the most significant of which is biomass. Methanol produced from biomass is sometimes called biomethanol.[15] Biomethanol is primarily produced by gasification of biomass. Like traditional methanol production, this produces syngas. After removing hydrogen sulfide and carbon dioxide (sweetening), which form as side products during the gasification step, methanol can be made using conventional methods.[15] This route can offer renewable methanol production from biomass at efficiencies up to 75%.[17]
Production methods using carbon dioxide as a feedstock have also been proposed. This method involves reacting the carbon dioxide with hydrogen gas at high temperatures and pressures in the presence of a copper-based catalyst.[18] The main drawback of this approach is the difficulty of isolating carbon dioxide and hydrogen gas in the required large volumes and high purity.[15] A small amount of methanol is produced annually using carbon dioxide captured from industrial flue gas.[19]
Uses
[edit]This section needs additional citations for verification. (May 2023) |
Internal combustion engine fuel
[edit]Because of methanol's high octane rating of 114,[20] it has a higher thermal efficiency and power output compared to gasoline. However, it is also less volatile and burns at a lower temperature than gasoline, making it more difficult to start and warm up an engine in cold weather. In addition, its relatively low specific energy of around 17 MJ/kg (compared to 34 MJ/kg for gasoline)[21] and air-to-fuel ratio of 6.4:1 mean that it suffers from higher fuel consumption than hydrocarbon fuels. Because it produces more water vapor when burned (similar to hydrogen combustion engines) and some acidic byproducts, increased wearing of engine components is likely. It may contain soluble contaminants like chloride ions,[22] which makes it more corrosive. Insoluble contaminants, such as aluminum hydroxide, itself a product of corrosion by halide ions, clog the fuel system over time. Methanol is also hygroscopic, meaning it absorbs water vapor from the atmosphere.[23] Because absorbed water dilutes the fuel value of the methanol (although it suppresses engine knock), and may cause phase separation of methanol-gasoline blends, containers of methanol fuels must be kept tightly sealed.
Compared to gasoline, methanol is more tolerant to exhaust gas recirculation (EGR), which improves fuel efficiency of the internal combustion engines utilizing Otto cycle and spark ignition.[24]
An acid, albeit weak, methanol attacks the oxide coating that normally protects the aluminium from corrosion:
- 6 CH3OH + Al2O3 → 2 Al(OCH3)3 + 3 H2O
The resulting methoxide salts are soluble in methanol, resulting in a clean aluminium surface, which is readily oxidized by dissolved oxygen. Also, the methanol can act as an oxidizer:
- 6 CH3OH + 2 Al → 2 Al(OCH3)3 + 3 H2
This reciprocal process effectively fuels corrosion until either the metal is eaten away or the concentration of CH3OH is negligible. Methanol's corrosivity has been addressed with methanol-compatible materials and fuel additives that serve as corrosion inhibitors.
Organic methanol, produced from wood or other organic materials (bioalcohol), has been suggested as a renewable alternative to petroleum-based hydrocarbons. Low levels of methanol can be used in existing vehicles with the addition of cosolvents and corrosion inhibitors.
Racing
[edit]Pure methanol is required by rule to be used in IndyCar, Monster Trucks, USAC sprint cars (as well as midgets, modifieds, etc.), and other dirt track series, such as World of Outlaws, and Motorcycle Speedway, mainly because, in the event of an accident, methanol does not produce an opaque cloud of smoke. Since the late 1940s, Methanol is also used as the primary fuel ingredient in the powerplants of radio control, control line and free flight model aircraft (see below), cars and trucks; such engines use a platinum filament glow plug that ignites the methanol vapor through a catalytic reaction. Drag racers, mud racers, and heavily modified tractor pullers also use methanol as the primary fuel source. Methanol is required with a supercharged engine in a Top Alcohol Dragster and, until the end of the 2006 season, all vehicles in the Indianapolis 500 had to run on methanol. As a fuel for mud racers, methanol mixed with gasoline and nitrous oxide produces more power than gasoline and nitrous oxide alone.
Beginning in 1965, pure methanol was used widespread in USAC Indy car competition, which at the time included the Indianapolis 500.
Safety was the predominant influence for the adoption of methanol fuel in the United States open-wheel racing categories. Unlike petroleum fires, methanol fires can be extinguished with plain water. A methanol-based fire burns invisibly, unlike gasoline, which burns with a visible flame. If a fire occurs on the track, there is no flame or smoke to obstruct the view of fast-approaching drivers, but this can also delay visual detection of the fire and the initiation of fire suppression. A seven-car crash on the second lap of the 1964 Indianapolis 500 resulted in USAC's decision to encourage, and later mandate, the use of methanol. Eddie Sachs and Dave MacDonald died in the crash when their gasoline-fueled cars exploded. The gasoline-triggered fire created a dangerous cloud of thick black smoke that completely blocked the view of the track for oncoming cars. Johnny Rutherford, one of the other drivers involved, drove a methanol-fueled car, which also leaked following the crash. While this car burned from the impact of the first fireball, it formed a much smaller inferno than the gasoline cars and one that burned invisibly. That testimony, and pressure from The Indianapolis Star writer George Moore, led to the switch to alcohol fuel in 1965.
Methanol was used by the CART circuit during its entire campaign (1979–2007). It is also used by many short track organizations, especially midget, sprint cars, and speedway bikes. Pure methanol was used by the IRL from 1996 to 2006.
In 2006, in partnership with the ethanol industry, the IRL used a mixture of 10% ethanol and 90% methanol as its fuel. Starting in 2007, the IRL switched to "pure" ethanol, E100.[25]
Methanol fuel is also used extensively in drag racing, primarily in the Top Alcohol category, while between 10% and 20% methanol may be used in Top Fuel classes in addition to Nitromethane.
Formula One racing continues to use gasoline as its fuel, but in prewar grand prix racing methanol was often used in the fuel.
Maritime transport
[edit]In 2020, the International Maritime Organization adopted MSC.1/Circular.1621 codifying the proper usage and provisions for methanol as a fuel, in response to its growing usage in the maritime and shipping industries.[26] As of 2023, roughly 100 methanol-burning ships have been ordered by key players in the industry including Maersk, COSCO Shipping, CMA CGM[27][28] The majority of these ships contain dual-fuel engines, meaning they are capable of burning both bunker fuel and methanol.
Current challenges facing methanol as a fuel surround cost, availability, and emissions regulations. Retrofitting an oil barge to methanol can cost approximately $1.6M.[27] Additionally, fossil-methanol increases the total GHG lifecycle and emissions through the production process. The vast majority of the global methanol output is fossil-based, which is produced using gas and coal.[29][4] The availability of green-methanol (which is produced through zero or negative-carbon resources such as biomass) is currently limited and nearly twice the price of bunker fuel. However, accelerating the production of renewable methanol has been said to not be a significant global challenge, with many in the industry speculating that production could grow naturally as orders for methanol ships continue to be made.[27] In 2023, the shipping-giant Maersk signed agreements with private green-methanol producers across various countries in order to fulfill the one million tons required to run its 19 ordered ships.[27]
The United Arab Emirates is investing in refueling stations for green methanol in Egypt for the ships that use the Suez Canal.
Fuel for model engines
[edit]The earliest model engines for free-flight model aircraft flown before the end of World War II used a 3:1 mix of white gas and heavy viscosity motor oil for the two-stroke spark-ignition engines used for the hobby at that time. By 1948, the then-new innovation of glow plug-ignition model engines began to take over the market, requiring the use of methanol fuel to react in a catalytic reaction with the coiled platinum filament in a glow plug for the engine to run, usually using a castor oil-based lubricant contained in the fuel mix at about a 4:1 ratio. The glow-ignition variety of model engine, because it no longer required an onboard battery, ignition coil, ignition points and capacitor that a spark ignition model engine required, saved valuable weight and allowed model aircraft to have better flight performance. In their traditionally popular two-stroke and increasingly popular four-stroke forms, currently produced single-cylinder methanol-fueled glow engines are the usual choice for radio controlled aircraft for recreational use, for engine sizes that can range from 0.8 cm3 (0.049 cu.in.) to as large as 25 to 32 cm3 (1.5-2.0 cu.in) displacement, and significantly larger displacements for twin and multi-cylinder opposed-cylinder and radial configuration model aircraft engines, many of which are of four-stroke configuration. Most methanol-fueled model engines, especially those made outside North America, can easily be run on so-called FAI-specification methanol fuel. Such fuel mixtures can be required by the FAI for certain events in so-called FAI "Class F" international competition, that forbid the use of nitromethane as a glow engine fuel component. In contrast, firms in North America that make methanol-fueled model engines, or who are based outside that continent and have a major market in North America for such miniature powerplants, tend to produce engines that can and often do run best with a certain percentage of nitromethane in the fuel, which when used can be as little as 5% to 10% of volume, and can be as much as 25 to 30% of the total fuel volume.
Cooking
[edit]Methanol is used as a cooking fuel in China and its use in India is growing.[30] Its stove and canister need no regulators or pipes.[30]
Fuel cells
[edit]Methanol is used as fuel in fuel cells. Typically Reformed Methanol Fuel Cell (RMFC) or Direct Methanol Fuel Cell (DMFC) is used. Mobile and stationary applications are typical for methanol fuel cells such as backup power generation, power plant generation, emergency power supply, auxiliary power unit (APU) and battery range extension (electric vehicles, ships).
Toxicity
[edit]Methanol occurs naturally in the human body but is poisonous at high concentrations. The human body is capable of metabolizing and dealing with small amounts of methanol safely, such as from certain artificial sweeteners or fruit, temporarily resulting in toxic byproducts in the bloodstream like formic acid prior to excretion, whereas it is unable to safely metabolize more complex hydrocarbons like gasoline.[31] Ingestion of 10 mL, however, can cause blindness and 60–100 mL can be fatal if the condition is untreated.[32] Like many volatile chemicals, including ethanol and gasoline, methanol can damage skin, eyes, and lungs if exposed to substantial quantities. Those chronically exposed to such large quantities are at risk of developing long-term systemic health effects similar to low-grade methanol poisoning if left untreated.[33]
US maximum allowed exposure in air (40 h/week) is 1900 mg/m3 for ethanol, 900 mg/m3 for gasoline, and 1260 mg/m3 for methanol. However, it is much less volatile than gasoline and therefore has lower evaporative emissions, producing a lower exposure risk for an equivalent spill. While methanol offers somewhat different toxicity exposure pathways, the effective toxicity is no worse than those of benzene or gasoline, and methanol poisoning is far easier to treat successfully. One substantial concern is that methanol poisoning generally must be treated while it is still asymptomatic for a full recovery.
Inhalation risk is mitigated by a characteristic pungent odor. At concentrations greater than 2,000 ppm (0.2%) it is generally quite noticeable, however, lower concentrations may remain undetected while still being potentially toxic over longer exposures, and may still present a fire/explosion hazard. Again, this is similar to gasoline and ethanol; standard safety protocols exist for methanol and are very similar to those for gasoline and ethanol.
The use of methanol fuel reduces the exhaust emissions of certain hydrocarbon-related toxins such as benzene and 1,3 butadiene and dramatically reduces long-term groundwater pollution caused by fuel spills. Unlike benzene-family fuels, methanol will rapidly and non-toxically biodegrade with no long-term harm to the environment as long as it is sufficiently diluted.
Fire safety
[edit]Methanol is far more difficult to ignite than gasoline and burns about 60% slower. A methanol fire releases energy at around 20% of the rate of a gasoline fire, resulting in a much cooler flame. This results in a much less dangerous fire that is easier to contain with proper protocols. Unlike gasoline fires, water is acceptable and even preferred as a fire suppressant for methanol fires, since this both cools the fire and rapidly dilutes the fuel below the concentration where it will maintain self-flammability. These facts mean that, as a vehicle fuel, methanol has great safety advantages over gasoline.[34] Ethanol shares many of these same advantages.
Since methanol vapor is heavier than air, it will linger close to the ground or in a pit unless there is good ventilation, and if the concentration of methanol is above 6.7% in the air it can be lit by a spark and will explode above 54 F / 12 C. Once ablaze, an undiluted methanol fire gives off very little visible light, making it potentially very hard to see the fire or even estimate its size in bright daylight, although, in the vast majority of cases, existing pollutants or flammables in the fire (such as tires or asphalt) will color and enhance the visibility of the fire. Ethanol, natural gas, hydrogen, and other existing fuels offer similar fire-safety challenges, and standard safety and firefighting protocols exist for all such fuels.[35]
Post-accident environmental damage mitigation is facilitated by the fact that low-concentration methanol is biodegradable, of low toxicity, and non-persistent in the environment. Post-fire cleanup often merely requires large additional amounts of water to dilute the spilled methanol followed by vacuuming or absorption recovery of the fluid. Any methanol that unavoidably escapes into the environment will have little long-term impact, and with sufficient dilution will rapidly biodegrade with little to no environmental damage due to toxicity. A methanol spill that combines with an existing gasoline spill can cause the mixed methanol/gasoline spill to persist about 30% to 35% longer than the gasoline alone would have done.[35][36][37]
Use
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In 2019, nearly 100 million tonnes of methanol were used, mainly for chemicals.[38]
United States
[edit]The State of California ran an experimental program from 1980 to 1990 that allowed anyone to convert a gasoline vehicle[vague] to 85% methanol with 15% additives of choice. Over 500 vehicles were converted to high compression and dedicated use of the 85/15 methanol and ethanol.
In 1982 the big three were each given $5,000,000 for design and contracts for 5,000 vehicles to be bought by the State. It was an early use of low-compression flexible-fuel vehicles.
In 2005, California's Governor, Arnold Schwarzenegger, stopped the use of methanol to join the expanding use of ethanol driven by producers of corn. In 2007 ethanol was priced at 3 to 4 dollars per gallon (0.8 to 1.05 dollars per liter) at the pump, while methanol made from natural gas remains at 47 cents per gallon (12.5 cents per liter) in bulk, not at the pump.
Presently there are no operating gas stations in California supplying methanol in their pumps. Rep. Eliot Engel [D-NY17] has introduced "An Open Fuel Standard" Act in Congress: "To require automobile manufacturers to ensure that not less than 80 percent of the automobiles manufactured or sold in the United States by each such manufacturer to operate on fuel mixtures containing 85 percent ethanol, 85 percent methanol, or biodiesel."[39]
European Union
[edit]The amended Fuel Quality Directive adopted in 2009 allows up to 3% v/v blend-in of methanol in petrol.[40]
Brazil
[edit]A drive to add an appreciable percentage of methanol to gasoline got very close to implementation in Brazil, following a pilot test set up by a group of scientists involving blending gasoline with methanol between 1989 and 1992. The larger-scale pilot experiment that was to be conducted in São Paulo was vetoed at the last minute by the city's mayor, out of concern for the health of gas station workers, who would not be expected to follow safety precautions. As of 2006[update], the idea has not resurfaced. [citation needed]
India
[edit]Niti Aayog, the central planning institute of India, announced on 3 August 2018 that if feasible, passenger vehicles will run on 15% Methanol blended petrol.[41] At present, vehicles in India use up to 10% ethanol-blended fuel. If approved by the government it will cut monthly fuel costs by 10%. In 2021, ethanol costs Rs 60 a litre, while the price of methanol has been estimated at less than Rs 25 a litre.[citation needed]
See also
[edit]
References
[edit]- ^ "Pump The Movie Methanol Clip". YouTube. Retrieved 7 June 2022.
- ^ "Methanol Wins". National Review. December 2011. Retrieved 7 June 2022.
- ^ "Technology". Carbon Recycling International. 2011. Archived from the original on 17 June 2013. Retrieved 11 July 2012.
- ^ a b https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2021/Jan/IRENA_Innovation_Renewable_Methanol_2021.pdf
- ^ "Biomethanol-from-biogas plant begins operation in Italy | Bioenergy Insight Magazine". www.bioenergy-news.com. 2023-07-18. Retrieved 2023-08-06.
- ^ "Amsterdam biomethanol plant granted environment permit". 9 May 2023.
- ^ "Green methanol key to energy transition net-zero plans". www.spglobal.com. 2022-09-30. Retrieved 2023-08-06.
- ^ Higgins, Marisa (2023-07-07). "BP Expands Investment in WasteFuel for Bio-Methanol Production". Environment+Energy Leader. Retrieved 2023-08-06.
- ^ "CIB provides $277 loan to Varennes Carbon Recycling project | Biomassmagazine.com". biomassmagazine.com. Retrieved 2023-08-06.
- ^ "Bio Methanol Market Size and Share | Forecast - 2031". Business Research Insights. March 11, 2024. Retrieved 2024-03-29.
- ^ "Bio Methanol Market size growing with a CAGR of 24.51%: Growth Outlook from 2022 to 2030, projecting market trends analysis by Application, Regional Outlook, and Revenue". GlobeNewswire. 2023-12-22. Retrieved 2024-03-29.
- ^ Reed, Tom B.; Lerner, R.M. (December 1973). "Methanol: A Versatile Fuel for Immediate Use" (PDF). Science. 182 (4119): 1299–1304. Bibcode:1973Sci...182.1299R. doi:10.1126/science.182.4119.1299. PMID 17733096. S2CID 21588319. Archived from the original (PDF) on 2005-01-28.
- ^ George A. Olah (2005). "Beyond Oil and Gas: The Methanol Economy". Angewandte Chemie International Edition. 44 (18): 2636–2639. doi:10.1002/anie.200462121. PMID 15800867.
- ^ Bullis, Kevin (March 2, 2006). "The Methanol Economy". MIT Technology Review. Retrieved 2024-03-29.
- ^ a b c d Pirola, Carlo; Bozzano, Giulia; Manenti, Flavio (2018), "Fossil or Renewable Sources for Methanol Production?", Methanol, Elsevier, pp. 53–93, doi:10.1016/b978-0-444-63903-5.00003-0, ISBN 978-0-444-63903-5, retrieved 2024-03-29
- ^ Li, Changhang; Bai, Hongtao; Lu, Yuanye; Bian, Jinghong; Dong, Yan; Xu, He (July 2018). "Life-cycle assessment for coal-based methanol production in China". Journal of Cleaner Production. 188: 1004–1017. doi:10.1016/j.jclepro.2018.04.051.
- ^ "Renewable Methanol" (PDF). Retrieved 19 May 2021.
- ^ Narayanan, Raman (April 2023). "Methanol from CO2: a technology and outlook overview". Digital Refining. Retrieved 2024-03-29.
- ^ Dziejarski, Bartosz; Krzyżyńska, Renata; Andersson, Klas (June 2023). "Current status of carbon capture, utilization, and storage technologies in the global economy: A survey of technical assessment". Fuel. 342: 127776. doi:10.1016/j.fuel.2023.127776. ISSN 0016-2361. Retrieved 2024-06-17. Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License
- ^ Burton, George; Holman, John; Lazonby, John (2000). Salters Advanced Chemistry: Chemical Storylines (2nd ed.). Heinemann. ISBN 0-435-63119-5
- ^ Verhelst, Sebastian; Turner, James W. G.; Sileghem, Louis; Vancoillie, Jeroen (January 2019). "Methanol as a fuel for internal combustion engines". Progress in Energy and Combustion Science. 70: 43–88. doi:10.1016/j.pecs.2018.10.001. hdl:1854/LU-8589931.
- ^ Brinkman, N., Halsall, R., Jorgensen, S.W., & Kirwan, J.E., "The Development Of Improved Fuel Specifications for Methanol (M85) and Ethanol (Ed85), SAE Technical Paper 940764
- ^ "Frequently Asked Questions about Methanol". Methanex. 2011-09-13. Archived from the original on 2012-10-20. Retrieved 2013-06-22.
- ^ Sileghem, Louis; Van De Ginste, Maarten (2011-10-21). "Methanol as a Fuel for Modern Spark-Ignition Engines: Efficiency Study" (PDF). Department of Flow, Heat and Combustion Mechanics. Ghent University. Ghent, Belgium. Archived from the original (PDF) on 2016-09-10. Retrieved 2017-04-07.
The results on the Audi-engine indicate that methanol is more EGR tolerant than gasoline, due to its higher flame speed. An EGR tolerance of 27 % was found when methanol was used. The efficiencies of the methanol-fueled engine obtained with EGR are higher to those obtained with throttled stoichiometric operation.
- ^ More About Ethanol Archived June 16, 2006, at the Wayback Machine
- ^ https://www.register-iri.com/wp-content/uploads/MSC.1-Circ.1621.pdf
- ^ a b c d Paris, Costas (2023-02-06). "Methanol Takes Lead in Shipping's Quest for Green Fuel". Wall Street Journal. ISSN 0099-9660. Retrieved 2023-07-17.
- ^ https://www.dnv.com/expert-story/maritime-impact/Methanol-as-fuel-heads-for-the-mainstream-in-shipping.html
- ^ "The Methanol Industry". METHANOL INSTITUTE. Retrieved 2023-07-17.
- ^ a b "Launch of Methanol Cooking Fuel Program of India". Archived from the original on 2019-03-14.
- ^ "COT STATEMENT ON THE EFFECTS OF CHRONIC DIETARY EXPOSURE TO METHANOL" (PDF). Retrieved 7 June 2022.
- ^ "Methanol Poisoning". Archived from the original on 2008-09-15. Retrieved 2008-08-13.
- ^ Moon, C. S. (2017). "Estimations of the lethal and exposure doses for representative methanol symptoms in humans". Annals of Occupational and Environmental Medicine. 29: 44. doi:10.1186/s40557-017-0197-5. PMC 5625597. PMID 29026612.
- ^ http://www.methanol.org/pdf/SummaryofFireSafetyImpactsofMethanolasaTransportat.pdf. Retrieved February 28, 2011.
{{cite web}}
: Missing or empty|title=
(help)[dead link] - ^ a b "Archived copy". Archived from the original on 2011-07-28. Retrieved 2011-02-28.
{{cite web}}
: CS1 maint: archived copy as title (link) - ^ "Archived copy" (PDF). Archived from the original (PDF) on 2011-07-26. Retrieved 2011-02-28.
{{cite web}}
: CS1 maint: archived copy as title (link) - ^ "Archived copy" (PDF). Archived from the original (PDF) on 2010-12-12. Retrieved 2011-02-28.
{{cite web}}
: CS1 maint: archived copy as title (link) - ^ "A new hydrogen reality: Fuel from wind and water". siemens-energy.com Global Website. Archived from the original on 5 December 2020.
It is used in large quantities (more than 98 Mt in 2019), primarily as a feedstock for chemicals (80%) and in smaller volumes as an energy carrier (20%).
- ^ "111 Congress, H.R. 1476: Open Fuel Standard Act". 2009.
- ^ "Directive 2009/30/EC of the European Union and of the Council". 2009.
- ^ Sharma, Yogima Seth; Arora, Rajat (2018-08-03). "Niti Aayog may test-drive plan to run petrol cars on 15% methanol". The Economic Times.
External links
[edit]- Methanol Safety Concerns, Advantages, and Corrosive properties
- Commercial-Scale Demonstration of the Liquid Phase Methanol Process, Dept. of Energy Production of methanol by Clean Coal power plants for $.50 - .60 per gallon.
- DOE Alternative Fuels Data Center - Methanol
- Methanol as an alternative fuel Recording of a discussion with Nobel laureate George Olah broadcast on NPR.
- An Energy Revolution by Robert Zubrin Mandating Flexible Fuel Vehicles to run on ethanol and methanol as well as gasoline will defund oil producers who are funding terrorists. The cost per car is $100 – $800.
- [1] the University of Cambridge, General Management of Acute Poisoning, Specific Poisonings: Methanol
- Synfuel Cycle Efficiency Physics 240, Stanford University, Fall 2010