Purdue Makes Trash To Electricity Generator

musicon writes "A group of scientists at Purdue University have created a portable refinery that efficiently converts food, paper, and plastic trash into electricity. The machine, designed for the U.S. military, would allow soldiers in the field to convert waste into power. It could also have widespread civilian applications in the future. Researchers tested the first tactical biorefinery prototype in November and found that it produced approximately 90 percent more energy than it consumed."

Yawn...

Wake me when they invent the Flux Capacitor.

Re:Yawn...

[macadamia_harold]

Wake me when they invent the Flux Capacitor.

From the writeup, it sounds like they've created Mr. Fusion. So when the Flux Capacitor is created, at least the inventor won't be chased down at the twin pines mall by middle eastern terrorists in a vw bus.

Re:Yawn...

[BakaHoushi]

What are you talking about? Last I checked, there was only the Lone Pine Mall... (and there were terrorists there, but they crashed into a photo hut and were arrested)

Mr Fusion

[mpfife]

"No no, this thing needs more kick than that. It's nuclear - that's the only way I can generate the 1.21 gigawatts of energy I need."

Re:How does it stack up?

[Animats]

This is described as energy returned on energy invested, or EROEI, of 1.9, which is not all that great. Ethanol from corn has a value of about 1.25, and that number is from its proponents. Anything below 1.0 is a lose.

US oil production has a value of about 3. That number declines over time; it was as high as 100 in the early days of oil production. (Look up "Spindletop") Saudi oil production has a value of about 10. Wind energy has a value of around 5. Solar power values depend on how long the equipment lasts; energy breakeven on solar cells happens some time around 5 years.

Dual Purpose

[supernova_hq]

This seems to have two uses, both of which are, by them selves very amazing, together even more amazing:
1. It reduces garbage 30:1 and turns it into "ash" which seems to be a very easy thing to dispose of (especially at 1/30th of the amount)
2. It CREATES energy in the process.

As for the 90% thing, i believe they are saying that the input power would be what-ever power source you give it to turn the trash into electricity, I am pretty sure that the energy already in the trash is not counted in the input.

Just think, not only could you use your own garbage to power this thing, but just consider the fact that the one thing we have been trying to find a way to get rid of, and inadvertently stockpiling in land fills, can now be reduced by a factor of 30 and turned into electricity, just take a bunch of these to a local landfill and viola, less garbage and more electricity.

Any municipal government that does not take advantage of this (assuming it gets further developement) should be considered completely incompetent.

Re:Perhaps this could reduce a lot of waste issues

[teletype]

Many landfills already do produce power from garbage.

The local landfill where I live, the Johnston landfill, here in Rhode Island, operates a methane recovery plant. This methane gas then flow through eleven twelve-cylinder turbocharged engines, to power a bank of generators.

This produces 15.3 megawatts of power. 1.3 megawatts is used to power the plant and landfill site. The remaining 14 megawatts is sold back to the grid, and provides power for 21,000 homes.

It's not quite 1.21 gigawatts, but it's still pretty cool.

Re:In this house we obey the laws of thermodynamic

[BlackTachyon29]

RTFA they say the generator has to run off diesel oil for several hours to power the bioreactor/reformer. Once the components have had time to break the waste material down into ethanol, methane, and propane that gets funneled back into the generator that the net result is 90% additional output. If it was to take 10 liters of diesel to start the process, after using those 10 liters, and also burning the resultant fuels from the bioreactor/reformer it would be approximatly equal in electric output to having only used a plain old generator with 19 liters of diesel. In addition it reduces the trash input to aproximatly 1/30th of the volume in ash. It is bascially a mobile trash incenerator/generator that can be jumped started with diesel. Electrical plants that burn trash to produce electricty has been around for a long time. This sounds only slightly more efficent/environmentally friendly in that they use a bioreactor to produce ethonal from the biowastes, and use gasification techniques on the other types of trash instead of just plain burning all the trash together with a steam generator.

No matter is 'converted' to energy, it is only a chemical process to rearrange the the energy in the chemical bonds of the existant trash into a more useful form of energy(ie. electricity). Same as burning coal or any other fuel, the energy is released in the form of heat to provide work.

Re:Incredible

[Sj0]

Not all materials are metals which can be relatively inexpensively melted back down and used with no negative effects in the next recycled generation. Paper recycling, for example, might be a cure worse than the disease.

The harsh chemicals used to remove the many and varied dyes from paper to be recycled are pretty terrible to begin with (And unlike bleaching regular pulp, you don't know what's going to be there, so you can't reformulate all that well), then you end up throwing the recovered pulp right back into the pulper anyway, so while there are likely some gains in energy, it's not necessarily friendly to the environment. Making matters worse, recycled paper seems to have less strength than original pulp.

In the end, you're making more use of toxic chemicals for a product of lower quality. I'm sure there are other similar materials where the friendly concept meets unfriendly process control reality.