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A friend of mine has some very interesting things being posted on his blog over in his corner of the Internet. If you have an interest in Photovoltaic Solar Energy I highly recommend his blog at Double Glazing Insulating Glass Blog
Anyway, he has been posting lots of videos on magnetic motors and solar energy. Makes sense, he is an industrial engineer focusing on the insulating glass sector. One video which started me on this entire post was from Robert McMann of Australia. In that video he brought up a good point: Solar Energy requires storage batteries.
I wondered to myself, is solar truly the way to go? What other drawbacks are there to a solar based energy supply? For example, what finite materials go into the manufacture of solar cells? Obviously, the glass is renewable, so that shouldn’t be a problem. But what else is in there? Well, I do know newer, less expensive (as in more cost effective using today’s energy dollars) solar panels have a polymer layer. Such as the one’s produced by Konarka Technologies.
Hopefully, we won’t run out of oil before we build out all those solar cells, because polymers are manufactured from oil. So, when considering the best alternative to oil, gas or coal energy supplies, we have to look at the entire supply chain.
Now Harald had a very interesting video on a mirror solar cell test facility in the Negev that concentrates energy into a small collector in the center.
Quite frankly, I am a little surprised to see so little coming from Israel in the way of solar energy. I would think the Israeli’s would be more heavily involved in researching alternative energy since they have no energy resources of their own. And they have no vested interest in assisting to perpetuate the oil monopoly. Plus, there is the added benefit of thumbing their noses at the Muslims. While Muslims are busy looking for more inventive ways to destroy civilization and force the world to submit to Islamic oppression, Israel could be improving on or discovering alternative energies. One destroys, while the works towards establishing freedom from oil tyranny.
That led me to wonder: What else are the smart, hard-working people of Israel working on? I found this article on an Israeli company that has discovered a way to convert radioactive waste into clean energy:
In case you don’t feel like clicking the link here is a reprint of the full article.
Israeli discovery converts dangerous radioactive waste into clean energy
19 Mar 2007
An Israeli firm has taken the laws of science and turned them into a useful invention for mankind - a reactor that converts radioactive, hazardous and municipal waste into inert byproducts such as glass and clean energy.By Karin Kloosterman - ISRAEL 21C
The laws of conservation of energy and mass say that energy or mass cannot be created or destroyed - only change form. With the help of Russian scientists, Israeli firm Environmental Energy Resources (EER), has taken the laws of science and turned them into a useful invention for mankind - a reactor that converts radioactive, hazardous and municipal waste into inert byproducts such as glass and clean energy.
The problem of radioactive waste is a global one, and getting increasingly worse. All countries in the industrialized world are waking up to the need for safer hazardous waste disposal methods.
“In the beginning, nobody believed that we could do it,” says Itschak Shrem, chairman of investment company Shrem, Fudim and Keiner representing EER at a press briefing announcing the innovation last week in Tel Aviv.
Shrem, himself an invoker of small miracles through the founding of one of Israel’s most lucrative venture capital funds - Polaris (now Pitango) - points to a chunk of black, lava-like rock sitting on the table in front of everyone’s coffee cups.
The journalists cautiously eye Shrem as he assures them that the shiny dark material, emitted from EER’s pilot waste treatment reactor near Karmiel in the north, is safe to touch.
“It also makes a good recyclable material for building and paving roads,” he assures them. Earlier, Shrem told ISRAEL21c that EER can take low-radioactive, medical and municipal solid waste and produce from it clean energy that “can be used for just about anything.”
Using a system called plasma gasification melting technology (PGM) developed by scientists from Russia’s Kurchatov Institute research center, the Radon Institute in Russia, and Israel’s Technion Institute - EER combines high temperatures and low-radioactive energy to transform waste.
“We go up to 7,000 degrees centigrade and end at 1,400 centigrade,” says Moshe Stern, founder and president of the Ramat Gan-based company.
Shrem adds that EER’s waste disposal rector does not harm the environment and leaves no surface water, groundwater, or soil pollution in its wake. The EER reactor combines three processes into one solution: it takes plasma torches to break down the waste; carbon leftovers are gasified and inorganic components are converted to solid waste. The remaining vitrified material is inert and can be cast into molds to produce tiles, blocks or plates for the construction industry.
EER’s Karmiel facility (and its other installation in the Ukraine) has a capacity to convert 500 to 1,000 kilograms of waste per hour. Other industry solutions, the company claims, can only treat as much as 50 kilograms per hour and are much more costly.
According to the journal Research Studies (Business Communications, Inc.), ‘The production of nuclear weapons/power in the US has left a 50-year legacy of unprecedented volumes of radioactive waste and contaminated subsurface media and structures… Nuclear waste generators include the national laboratories, industrial research facilities, educational and medical institutions, electrical power utilities, medical diagnostics facilities, and various manufacturing processes.’
In the US alone, Research Studies predicts that this year’s market for radioactive waste-management technologies in America will cap $5.5 billion.
EER was founded in 2000 and has maintained a low profile until revealing its reactor last week.
“We spent our time on R&D and building up the site in Israel which we started constructing in 2003. We realized that nobody was going to believe us unless we started doing the process physically. They always said it sounded too good to be true, so we had to prove it to them,” said Shrem.
Back in 2004, the Ukrainian government put out a tender searching for a solution that would provide safer hazardous waste disposal methods. At that time, the country was looking for a way to treat its low-radioactive waste zones resulting from the Chernobyl explosion. EER sent in their proposal, and their technology won the bid.
According to Stern, the former Soviet Union was the first to build nuclear plants. Over the years they have generated “huge amounts of low-radioactive waste. They came to us looking for a solution,” he said.
The Chernobyl nuclear meltdown on April 26, 1986 - was beyond a doubt the largest civil nuclear explosion in the world and one still linked to thousands of deaths. More than 20 years after the explosion, tens of kilometers around the reactor is still highly radioactive; and some 30,000 radioactive homes remain buried along with household appliances, food and clothing, explained Stern.
“The European community is afraid of what is happening there,” notes Stern, warning that it is time for the clean up to begin, even if it means making only a small dent in the massive pile. “The low-radioactive waste is slowly contaminating the water and will continue to do so over the 300 years it takes to break down.”
And since new conventions have been set by The Basel Convention on the Control of Transboundary Movements of Hazardous Wastes and their Disposal, first world countries are no longer permitted to traffic their hazardous waste to third world nations - forcing Western countries to drum up immediate and responsible solutions.
With a strict eye over its operations by Israel’s Ministry of Environmental Protection, EER revealed its proof-of-concept to Israeli and foreign dignitaries in Aeblin, near Karmiel last week, showing how it can take mountains of municipal waste and reduce it to a pile of black rubble.
“We are not burning. This is the key word,” Shrem said. “When you burn you produce dioxin. Instead, we vacuum out the oxygen to prevent combustion.”
EER then purifies the gas and with it operates turbines to generate electricity. EER produces energy - 70% of which goes back to power the reactor with a 30% excess which can be sold.
“In effect, we are combining two of the most exciting markets in the US - the environment and clean energy,” says Stern, “We also reduce the carbon footprint.”
The cost for treating and burying low-radioactive nuclear waste currently stands at about $30,000 per ton. The EER process will cost $3,000 per ton and produce only a 1% per volume solid byproduct.
In the US, EER is working to treat low-radioactive liquid waste and recently contracted with Energy Solutions, the largest American company in the field with 75% of the US market.
Based on the financial forecasts, EER is certainly giving a fresh meaning to the expression - one man’s garbage is another man’s treasure. But in EER’s case, ones man’s hazardous waste may very well be EER’s goldmine.
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