Scientists at the federal Geological Survey of Canada say we can generate all the electricity we need from geothermal, and produce far fewer greenhouse gas emissions. It is safer than nuclear and it not fickle like wind and solar power because the rocks under the earth are hot 24/7. It would make the proposed Site C dam in BC unnecessary which is causing a political controversy over flooding.
It seems likely we could easily generate enough energy from geothermal to make as many electric cars as as we want. This could be an energy game changer. Yet why don't environmentalists support this? They are opposed to too much perhaps, too negative by nature.
http://www.vancouversun.com/technol...e+geothermal+energy+Report/5396759/story.html
It seems likely we could easily generate enough energy from geothermal to make as many electric cars as as we want. This could be an energy game changer. Yet why don't environmentalists support this? They are opposed to too much perhaps, too negative by nature.
http://www.vancouversun.com/technol...e+geothermal+energy+Report/5396759/story.html
B.C., Canada sitting on 'massive' store of geothermal energy: Report
By Margaret Munro, Postmedia News September 13, 2011
VANCOUVER — A "massive" store of clean, renewable energy is sitting at Canadians' feet, according to a federal report on geothermal energy.
Tapping into hot rocks that are tantalizingly close to the surface in western and northern Canada could generate more electricity than the entire country now consumes and generate few greenhouse gas emissions, says the report by a team of 12 scientists led by Stephen Grasby at the federal Geological Survey of Canada.
"As few as 100 projects could meet Canada's energy needs," according to the team's findings, to be presented at a geothermal conference in Toronto on Thursday.
The 322-report suggests the clean, renewable source of energy could be a game-changer.
"Canada's in-place geothermal power exceeds one million times Canada's current electrical consumption," the report says.
The heat is closest to the surface in large swaths of British Columbia, Alberta, the Yukon and Northwest Territories, but the report says geothermal energy opportunities exist across Canada.
It notes that geothermal has distinct advantages over not only fossil fuels and nuclear energy but also wind, solar and biofuels, as the Earth's heat is available 24 hours a day, year-round.
Grasby said that geothermal is not without technological and environmental risks. But there is no question there is a vast amount of clean energy underfoot, he said, and the country is well placed to start drilling for it.
"Of anywhere in the world, Canada has the technology and knowledge to move this forward," Grasby said, pointing to expertise devised for energy exploration and mining.
Co-author Michal Moore, an expert on geothermal energy at the University of Calgary, said Canada should be testing advanced geothermal energy systems, as they promise an assured source of clean, reliable energy. Geothermal is free of the greenhouse gases generated by electricity plants powered by coal and other fossil fuels, he said, and it sidesteps the problems with nuclear power, which are making headlines again this week after an explosion at a nuclear waste treatment site in France.
"It is just silly not to take advantage of a heat source like this," said Moore.
Canada's fledging, and in many ways frustrated, geothermal energy industry welcomes the federal report.
Craig Dunn, chief executive officer of Borealis GeoPower in Calgary, said "people often look at us like we're crazy" when trying to promote Canada's "phenomenal" geothermal resource.
"Well, now we can now point to this report by a team of very reputable people," said Dunn.
Temperatures at the centre of the Earth hover around 5,500 degrees Celsius, which is about as hot as the sun's surface. The lava spewing out of volcanoes, and hot water from geysers and hot springs, give just a glimpse of the heat available within five kilometres of the surface.
One of biggest advantages of geothermal is that it is constantly available.
"You don't need the wind to blow or the sun to shine," said Alexander Richter, director of Canadian Geothermal Energy Association.
The biggest downside to geothermal energy is the high upfront costs. Wells must be drilled kilometres deep to bring the heat to the surface and plants must be built to turn the heat into electricity. It takes five to seven years to get a geothermal energy system operating, said Richter.
But once the plant is in place the energy, at least in theory, would flow indefinitely, said Richter, whose association is looking to Ottawa for more technical and regulatory support.
Geothermal energy has long been used in Iceland to directly heat homes and buildings, and it is increasingly used in the U.S. and elsewhere to generate electricity.
In conventional geothermal systems, hot water it is drawn up from depths and used to drive generators to produce electricity.
Canada has yet to plug into geothermal electricity but there are several small projects on the drawing boards in western and northern Canada.
But those projects just scratch the surface, said Richter and his colleagues. They estimate there are at least 5,000 megawatts of geothermal electricity available in B.C., Alberta, and the Yukon.
As evidence, Dunn points to northern B.C. where companies have hit on water up to 180 degrees C while drilling for oil and gas.
B.C. is "blessed" with so much geothermal energy that he said it could produce as much electricity as the controversial $7.9-billion, 1,100 megawatt Site C hydroelectric dam proposed by the B.C. government.
"You would not need to build Site C if you chose to develop the geothermal resources in northeast B.C.," said Dunn, who also sees plenty of the Earth's heat going to waste in Alberta.
One Alberta energy company has wells producing two per cent gas and 98 per cent hot water, which at 80 degrees C is hot enough to make plenty of power, said Dunn.
"Enhanced" geothermal holds the potential to generate even more energy and is available across the country, says the report. It entails drilling deep wells and then fracturing or "fracking" rock several kilometres underground.
Water, or possibly even carbon dioxide gas, is injected down the wells and migrates through the cracked rocks to capture heat. The heated water, or CO2, is then brought back to the surface to produce electricity, said Grasby, who notes enhanced geothermal systems are being tested in Europe and Australia.
He and his colleagues estimate 100 enhanced geothermal plants could supply all of Canada's electricity needs. The researchers point to the Meager Mountain, about 150 kilometres north of Vancouver, as one of the most promising sites. Water hotter than 270 degrees C was discovered three kilometres underground at Meager Mountain when exploratory wells were drilled there as part of a national geothermal energy program, which ended in 1986.