Cellulosic Ethanol

Cellulosic Ethanol is ethanol derived from the non-edible parts of plants (ie citrus peels), grass, or wood. The majority of plants are comprised of the non-edible compound known as lignocellulose that is the bulk of the biomass needed for cellulosic ethanol. Though cellulosic ethanol does not differ from other sorts of ethanol chemically, it is distinguished because of its source. Because the bulk of all trees, plants, and other vegetation has a large amount of lignocellulose per mass, it is an excellent source of fuel for energy, especially since it is not edible. Citrus peel ethanol production costs, for example, would be fairly inexpensive since they are basically waste; they are currently in use as low grade cattle feed. But as feed for cellulosic ethanol, citrus peels would fair much better economically. Many people who argue against the utilitization of ethanol in favor of gasoline often use corn ethanol as the fuel they contrast to gasoline. We are realizing that corn is probably nowhere near the right place to look for the biomass that goes into the ethanol fuel stills. In fact, the pro-oilers may be right that gas beats corn (except for that fact that gas is a non-renewable resource).

However, gas does not beat human waste. Gas does not beat dead vegatation. It doesn't beat sawdust. It doesn't beat the inedible parts of vegetation either. On the e85 ethanol production page there is a discussion about citrus peels being used to produce ethanol. Who eats citrus peels? Cows do, and its a low grade food stock for them as it is. People who rail against corn ethanol in favor of gasoline are not looking at the big picture. Sure, gasoline may be better than corn ethanol (and then again maybe not). But even if it is, that doesnt mean that gasoline is better than any kind of ethanol that can be produced. Cellulosic ethanol can be produced from human waste! Not what our bodies produce, but the things we throw in the garbage. You can literally use garbage to fuel your cellulosic ethanol cars. Maybe the garbage supply will not meet the ethanol demands, but thats fine. If we consumed all of our garbage in our cars and produced less greenhouse gases that way, wouldn't that be better for the planet than what we are doing now? Less garbage and more ozone seems like a step in the right direction to me. Not only can we clean up the mess we've made, but we can do it in a way that runs our cars. Thanks, cellulosic ethanol. Garbage as a resource we can all take pleasure in depleting. And it will keep e85 prices down. Brilliant!

Cellulosic Ethanol Cars

Cellulosic Ethanol Cars (aka e85 cars or ethanol cars) are being researched, and so the jury is not out yet. However, the studies are very promising and we can perhaps hope that cellulosic ethanol cars will be one of the greatest achievements of the human race. Perhaps that sounds a little grandiose, but the reason this is such a promising endeavor is because the planet is saturated with automobiles, which is of course a result of human influence. And we know that the high fuel demand coupled with the effect of fuel consumption on the environment has done a great deal of pollution damage to our planet. Cellulosic Ethanol cars are a potential way for us to continue to function in the world we have created (where mobility is a must), but to do so in a way that no longer harms our planet OR our food supply. There are several disadvantages of ethanol, but those disadvantages can be overcome with proper research and development into cellulosic ethanol production. If you want to help with progress in this field, get an e85 conversion so that you can contribute to the research!

Cellulosic Ethanol Production

One drawback of cellulosic ethanol production is that it requires extra processing as compared to ethanol derived from other sources, which means more energy is needed to fuel cellulosic ethanol production. The subject of how to make ethanol is complicated enough, and cellulosic ethanol production is an even greater challenge! Fortunately, there is some good news when it comes to cellulosic ethanol production. The lignin that is created in the process of cellulosic ethanol production can be used as an energy source to distill the ethanol. Lignin does not account for all of the energy needs in cellulosic ethanol production, but it certainly does help. In any case, well constructed ethanol stills are fairly energy efficient, so you may want to look into getting cellulosic ethanol grants, even if just for a small amount of money, and get a quality still.

Cellulosic Ethanol Grants

As society looks to ethanol to be the newest weapon in the war against pollution, a great deal of government funding is required to get the ball rolling. Millions, perhaps billions, of dollars have been granted to new ethanol plants to get things started. $114 Million Cellulosic Ethanol Grants monies were given to cellulosic ethanol projects in Missouri, Oregon, Colorado and Wisconsin. In February, $385 million was given to six plants in Kansas, Florida, California, Iowa, Idaho, and Georgia. That is nearly half a billon from the DoE alone. Other departments are chipping in, for example the DoA almost half a million to a butanol project (I thought the point was ethanol, but at least their hearts are in the right place). In any case, if you cant get one of the cellulosic ethanol grants you could easily afford to buy one of the ethanol distilleries for sale and get started right away! This will help with ethanol expasion which will in turn lower ethanol prices!