ethanol news | ethanol production information

Ethanol is also called ethyl alcohol or grain alcohol.

Ethanol is also called ethyl alcohol or grain alcohol. This is the drinkable alcohol, the active ingredient in beer, wine and spirits. Methanol (methyl alcohol or wood alcohol) is the poisonous one.

Ethanol is also a high-performance motor fuel that cuts poisonous exhaust emissions and is better for the environment. The Model T Ford was built to run on ethanol. Henry Ford designed the famed Model T Ford to run on alcohol — he said it was “the fuel of the future”. The oil companies thought otherwise, however — but the oil crisis of the early 1970s gave ethanol fuel a new lease of life.

The US now uses more than 15 billion gallons of cleaner, ethanol-blended petrol a year, totalling 12% of fuel sales in the US. Most of it is a 10% blend, but 85% and even 95% blends are now being tested.

Ethanol blends are increasingly used in South Africa, while Brazil, the world leader, produces four billion gallons of ethanol a year: all Brazilian fuel contains at least 24% ethanol, and much of it is 100% ethanol (engines can be designed to run on 100% ethanol).

Chrysler, Ford, and General Motors all recommend ethanol fuels, and nearly every car manufacturer in the world approves ethanol blends in their warranty coverage.

Over two trillion miles have been driven on ethanol-blended fuels in the US since 1980.

What is ethanol?Ethanol is made by fermenting and then distilling starch and sugar crops — maize, sorghum, potatoes, wheat, sugar-cane, even cornstalks, fruit and vegetable waste.

The benefitsEthanol is a much cleaner fuel than petrol (gasoline):- It is a renewable fuel made from plants- It is not a fossil-fuel: manufacturing it and burning it does not increase the greenhouse effect- It provides high octane at low cost as an alternative to harmful fuel additives- Ethanol blends can be used in all petrol engines without modifications- Ethanol is biodegradable without harmful effects on the environment- It significantly reduces harmful exhaust emissions- Ethanol’s high oxygen content reduces carbon monoxide levels more than any other oxygenate: by 25-30%, according to the US EPA- Ethanol blends dramatically reduce emissions of hydrocarbons, a major contributor to the depletion of the ozone layer- High-level ethanol blends reduce nitrogen oxide emissions by up to 20%- Ethanol can reduce net carbon dioxide emissions by up to 100% on a full life-cycle basis- High-level ethanol blends can reduce emissions of Volatile Organic Compounds (VOCs) by 30% or more (VOCs are major sources of ground-level ozone formation)- As an octane enhancer, ethanol can cut emissions of cancer-causing benzene and butadiene by more than 50%-Sulphur dioxide and Particulate Matter (PM) emissions are significantly decreased with ethanol.

Backyard ethanol- As with biodiesel, you don’t have to be a corporation to make ethanol — you can make fuel alcohol in your backyard, and many people are doing just that, and running their vehicles on clean-burning alcohol instead of gasoline.It’s more equipment-intensive than biodiesel. You need a still, and you need to learn how to ferment beer. You can build your own still, and there’s good information available to help you learn what you need to know.How does it work?

Ethanol is a very high octane fuel, replacing lead as an octane enhancer in gasoline.

Fuels that burn too quickly make the engine “knock”. The higher the octane rating, the slower the fuel burns, and the less likely the engine will knock.When ethanol is blended with gasoline, the octane rating of the petrol goes up by three full points, without using harmful additives.

Adding ethanol to gasoline “ç” the fuel, adding oxygen to the fuel mixture so that it burns more completely and reduces polluting emissions such as carbon monoxide.Ethanol and ETBE oxygenator, made from ethanol, are much safer than the toxic and polluting MTBE fossil-fuel-derived oxygenator used by oil companies.

Production Ethanol fuel production is a good locally-based industry, providing local jobs and a market for local materials, and helping to keep money and investment within the community. That’s why so many of the farming states in the US (and Canada) back ethanol fuel.One ethanol plant owned by farmers in Minnesota processes 11,751 bushels of grain a day to produce 33,990 gallons of ethanol and 95 tons of high-protein livestock feed.

If you happen to have a spare acre in your back yard, you can raise enough maize to make enough ethanol to drive even a gas-guzzling Land Rover (17.5 miles per gallon) about 5,000 miles, along with enough animal feed to help keep you in eggs and chicken.If the climate favours sugarcane, an acre’s worth will take you nearly 15,000 miles. A few fruit trees would help a lot too. You could put the by-product in a digester, along with other organic wastes, to produce methane gas for cooking — or as a heat source for the distillation process.

Alcohol yield tables (for 30 different feedstocks), showing: Average yield of 99.5 percent alcohol per ton; Average yield of 99.5 percent alcohol per acre.

Energy balance

Ethanol is a highly efficient fuel. A study by the Institute of Local Self-Reliance in the US found that using the best farming and production methods, “the amount of energy contained in a gallon of ethanol is more than twice the energy used to grow the corn and convert it to ethanol”.

The US Department of Agriculture says each BTU (British Thermal Unit, an energy measure) used to produce a BTU of gasoline could be used to produce 8 BTUs of ethanol.The non-profit American Coalition for Ethanol says ethanol production is “extremely energy efficient”, with a positive energy balance of 125%, compared to 85% for gasoline, making ethanol production “by far the most efficient method of producing liquid transportation fuels”.

Ethanol is also called ethyl alcohol or grain alcohol.

Bio-Fuel - Basic Information

Bio-Gas, Bio-Ethanol, Bio-Butanol, Bio-Diesel,

Biofuel can be defined as solid, liquid, or gas fuel consisting of, or derived from biomass. This information article, however, is principally about biofuel in the form of liquid or gas transportation fuel derived from biomass. Biomass can also be used directly for heating or power.

Biofuel can be produced from any carbon source that can be replenished rapidly e.g. plants. Many different plants and plant-derived materials are used for biofuel manufacture.

Biomass
Biomass is material derived from recently living organisms. This includes plants, animals and their by-products. Agricultural products grown for biofuel production include corn, switchgrass, and soybeans in the United States; rapeseed, wheat and sugar beet in Europe; sugar cane in Brazil; palm oil and miscanthus in Southeast Asia; sorghum and cassava in China; and jatropha in India. Hemp works as a biofuel. Biodegradable outputs from industry, agriculture, forestry and households can be used for biofuel production, including straw, timber, manure, rice husks, sewage, and food waste.

‘First-generation fuels’ refer to biofuels made from sugar, starch, vegetable oil, or animal fats using conventional technology.

The most common first generation biofuels are:

Vegetable oil
Vegetable oil can be used for either food or fuel. In most cases, vegetable oil is used to manufacture biodiesel, which is compatible with most diesel engines when blended with conventional diesel fuel. Used vegetable oil is increasingly being processed into biodiesel, and, cleaned of water and particulates, and used as a fuel.

Biodiesel fuel
Biodiesel is the most common biofuel in Europe. It is produced from oils or fats using transesterification and is similar in composition to mineral diesel. Oils are mixed with sodium hydroxide and methanol (or ethanol) and the chemical reaction produces biodiesel and glycerol.

Biodiesel can be used in any diesel engine when mixed with mineral diesel. Many people have run their vehicles on biodiesel without problems. However, the majority of vehicle manufacturers limit their recommendations to 15% biodiesel blended with mineral diesel. In many European countries, a 5% biodiesel blend is widely used.

Alcohol fuel
Biologically produced alcohols, most commonly ethanol and less commonly propanol and butanol, are produced by the action of microorganisms and enzymes through fermentation.

Butanol fuel
Butanol is often claimed to provide a direct replacement for gasoline, because it can be used directly in a gasoline engine (in a similar way to biodiesel in diesel engines).

Ethanol fuel
Ethanol is the most common biofuel worldwide. This alcohol fuel is produced by fermentation of sugars derived from wheat, corn, sugar beet and sugar cane. Ethanol can be used in petrol engines as a replacement for gasoline; it can be mixed with gasoline to any percentage. All petrol engines can run on blends of up to 15% bioethanol with petroleum/gasoline.

Methanol fuel
Methanol is currently produced from natural gas, a fossil fuel. It can also be produced from biomass.

BioGas fuel
Biogas is produced by the process of anaerobic digestion of organic material. It can be produced either from biodegradable waste materials or energy crops fed into anaerobic digesters. The byproduct contains methane.

Solid Biofuels
Examples include wood, charcoal, and manure.

Second generation biofuels
Second generation biofuels comprise biomass converted to liquid, including cellulosic biofuels from non-food crops.

Biofuel from algae
Microalgae can be used as an energy source, with applications for biodiesel, ethanol, methanol, methane and hydrogen.

Bio-Fuel - Basic Information