Category Archives: Energy

Solar Power Innovation: 10 Times Cheaper needs 10 Times less Sun

Dr Wayne CampbellTaking nature’s cue for cheaper solar power (site broke link so I removed it):

Solar cell technology developed by the University’s Nanomaterials Research Centre will enable New Zealanders to generate electricity from sunlight at a 10th of the cost of current silicon-based photo-electric solar cells.

Dr Campbell says that unlike the silicon-based solar cells currently on the market, the 10x10cm green demonstration cells generate enough electricity to run a small fan in low-light conditions – making them ideal for cloudy climates. The dyes can also be incorporated into tinted windows that trap to generate electricity.

He says the green solar cells are more environmentally friendly than silicon-based cells as they are made from titanium dioxide – a plentiful, renewable and non-toxic white mineral obtained from New Zealand’s black sand. Titanium dioxide is already used in consumer products such as toothpaste, white paints and cosmetics.

“The refining of pure silicon, although a very abundant mineral, is energy-hungry and very expensive. And whereas silicon cells need direct sunlight to operate efficiently, these cells will work efficiently in low diffuse light conditions,” Dr Campbell says. “The expected cost is one 10th of the price of a silicon-based solar panel, making them more attractive and accessible to home-owners.” The Centre’s new director, Professor Ashton Partridge, says they now have the most efficient porphyrin dye in the world and aim to optimise and improve the cell construction and performance before developing the cells commercially.

Related: Solar power breakthrough at MasseyCheap, Super-efficient SolarLarge-Scale, Cheap Solar ElectricityMicro-Wind Turbines for Home Use

Micro-Wind Turbines for Home Use

Hong Kong Inventors Unveil New Micro-Wind Turbines Suitable for City Dwellers

“Let’s say if you have good conditions, five, six meters [of wind] per second, if you are a family with one kid you need most probably three, four square meters of that then you can most probably cover at least 60, 70 percent of your [energy] needs.” The technology can also help power bigger buildings. Administrators at Hong Kong’s Sea School, a secondary school offering basic seaman training, will install the new micro wind-turbines on its roof in April.

Gambarota says his biggest dream is to see his invention being used in developing countries. He says energy generated by micro wind turbines can be used to pump water, for example, saving women and girls from having to walk for miles to rivers and lakes to fetch it.

Information from Motorwave. Very cool idea though still early (they are meant only to provide electricity for immediate use at this time – no way to sell excess power to the grid or battery backup yet).

Related: Wind Power: USA GrowthPersonal Water Wheel PowerWater and Electricity for All
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£25 Gadget Saves Energy

£25 fridge gadget that could slash greenhouse emissions by David Adam:

Invented by British engineers, the £25 gadget significantly reduces the amount of energy used by fridges and freezers, which are estimated to consume about a fifth of all domestic electricity in the UK. If one was fitted to each of the 87 million refrigeration units in Britain, carbon dioxide emissions would fall by more than 2 million tonnes a year.

Because air heats up much more quickly than yoghurt, milk or whatever else is stored inside, this makes the fridge work harder than necessary. With the cube fitted, the fridge responds only to the temperature of the food, which means it clicks on and off less often as the door is open and closed. Trials are under way with supermarkets, breweries and hotels. One of the largest, the Riverbank Park Plaza hotel in London, fitted the device to each of the hotel’s 140 major fridges and freezers. David Bell, chief engineer, says energy use decreased by about 30% on average – enough to slash the hotel’s annual electricity bill by £17,000. The Park Plaza group plans to fit them throughout its UK hotels, and to recommend them overseas.

Mr Freedman said the devices would have the biggest impact in the large freezers and open chill cabinets used in the catering and supermarket industries. They do reduce the energy consumption of domestic fridges, but the saving is not so great because the door is not opened very often.

Related: The Magnetic FridgeElectricity SavingsEngineers Save EnergyMIT’s Energy ‘Manhattan Project’Personal Water Wheel Power

Wave Energy

Orkney to get ‘biggest’ wave farm:

Of the Pelamis scheme, he said: “This will be the world’s biggest commercial wave project – significantly bigger than the major Portuguese scheme. “Scotland has the potential to generate a quarter of Europe’s marine energy and kick-starting the sector is vital if we are to create a significant industry based in Scotland and meet our long-term renewables targets.”

Mr Stephen said the industry had the potential to create thousands of jobs and attract millions of pounds of investment. Scottish Power’s director of renewables, Keith Anderson, said: “This is a massive step forward. “It will be a test of the actual devices that will be used commercially and, if successful, should help propel Scotland into the forefront of marine energy throughout the world.”

Related: Ocean Power PlantWind PowerMIT’s Energy ‘Manhattan Project’

Trash + Plasma = Electricity

The Prophet of Garbage (broken link removed):

Startech’s trash converter uses superheated plasma to reduce garbage to its molecular components.

Perhaps the most amazing part of the process is that it’s self-sustaining. Just like your toaster, Startech’s Plasma Converter draws its power from the electrical grid to get started. The initial voltage is about equal to the zap from a police stun gun. But once the cycle is under way, the 2,200ËšF syngas is fed into a cooling system, generating steam that drives turbines to produce electricity. About two thirds of the power is siphoned off to run the converter; the rest can be used on-site for heating or electricity, or sold back to the utility grid.

Over the past decade, half a dozen companies have been developing plasma technology to turn garbage into energy. “The best renewable energy is the one we complain about the most: municipal solid waste,” says Louis Circeo, the director of plasma research at the Georgia Institute of Technology. “It will prove cheaper to take garbage to a plasma plant than it is to dump it on a landfill.” A Startech machine that costs roughly $250 million could handle 2,000 tons of waste daily, approximately what a city of a million people amasses in that time span.

Related: Turning Trash into Electricity

Broken link http://www.popsci.com/popsci/science/873aae7bf86c0110vgnvcm1000004eecbccdrcrd.html

Helium-3 Fusion Reactor

Future In Fusion? by John Lasker:

Nevertheless, UW fusion researchers believe their plan could get civilization off fossil fuels. That’s if crews could return to the moon to mine for helium-3, super-heat it out of the lunar soil to process the gas, and return it to the Earth.

But scientists and investors have taken notice. Nearly all of UW fusion research is privately funded. And meanwhile, with China, India, the European Space Agency and at least one Russian corporation all pursuing plans for a manned lunar base in the coming decades, there is increasing talk of a race to control this fuel, one shuttle load of which could theoretically power the United States for a year.

Aftergood doesn’t believe a race with China for lunar helium-3 has begun. Yet a race to the moon against China — whether real or superficial — may be in NASA’s best interest, he said. “There are some who wish this would be the case — this race with China. They believe it would recapture the dynamic of the United States’ and Russia’s race to the moon,” he said.

This sounds pretty incredible to me and I find the claims of using fuel from the Moon economically to power our needs on Earth. Still it is interesting and just because it sounds fantastic does not mean it can’t be true. But I am skeptical.

Related: China Prepares for Return of ShenzhouMIT’s Energy ‘Manhattan Project’Fusion Technology Institute (UW-Madison)Should Google Go Nuclear? Clean, cheap, nuclear power (no, really) – video

Cheap, Superefficient Solar

Cheap, Superefficient Solar

Technologies collectively known as concentrating photovoltaics are starting to enjoy their day in the sun, thanks to advances in solar cells, which absorb light and convert it into electricity, and the mirror- or lens-based concentrator systems that focus light on them. The technology could soon make solar power as cheap as electricity from the grid.

“I’d much rather make a few square miles of plastic lenses–it would cost me less–than a few square miles of silicon solar cells,” Olson says. Today solar power is still more expensive than electricity from the grid, but concentrator technology has the potential to change this. Indeed, if manufacturers can meet the challenges of ramping up production and selling, distributing, and installing the systems, their prices could easily meet prices for electricity from the grid, says solar-industry analyst Michael Rogol

Related: Large-Scale, Cheap Solar ElectricitySolar Tower Power Generation

Floating Windmills: Power at Sea

Floating Windmills (they broke the link – when will sites lean how to obey basic usability practices?):

A demonstration project is currently being planned based on wind turbines with a power generation capacity of 3 megawatt (MW). The windmills will reach 80 meters above the sea’s surface and will have a rotor diameter of about 90 meters.

According to plans, the demonstration project will start operating in 2007. We eventually envision wind turbines with a power capacity of 5 MW and a rotor diameter of approximately 120 meters.

“The future goal is to have large-scale offshore wind parks with up to 200 turbines capable of producing up to 4 terawatt hours (TWh) per year and delivering renewable electricity to both offshore and onshore activities. This goal is far in the future, but if we’re to succeed in 10-15 years, we have to start the work today,” Bech Gjørv says.

For photos see: Offshore Wind Turbine Farms

Related: USA Wind Power CapacityEngineers Save EnergyWind-Powered Water Heater

Personal Water Wheel Power

Personal Water Wheel

Scots inventor cracks centuries-old puzzle

Ian Gilmartin, 60, has invented a mini water wheel capable of supplying enough electricity to power a house – for free. The contraption is designed to be used in small rivers or streams – ideal for potentially thousands of homes across Britain. It is the first off-the-shelf water-wheel system that can generate a good supply of electricity from as little as an eight-inch water fall.

The water wheel produces one to two kilowatts of power and generates at least 24kw hours of sustainable green energy in a day – just under the average household’s daily consumption of about 28kw hours. It will cost some £2,000 to fully install – and pay for itself inside two years.

A “high head”, such as a traditional water wheel, is large, expensive and needs civil engineering. But with low heads of under 18 inches, no-one had invented a method of successfully recovering the energy generated – until now. A conventional water wheel allows the water to escape prematurely as the wheel rotates, but the Beck Mickle hydro generator contains the water for the full drop of the device, converting about 70 per cent of the energy into electricity.

Related: Cheap energy hope from waterwheel (photo from BBC) “Mr Gilmartin is an electrician by trade, but does not own a TV and has never lived in a house with electricity.” – Electricity SavingsEngineers Save EnergyWind PowerSafe Water Through Play

The Magnetic Fridge

A cool new idea from British scientists: the magnetic fridge by Michael Pollitt:

Your kitchen fridge has a compressor, which turns a gas into a liquid, releasing heat (which you’ll feel at the back of the fridge). The liquid is then pumped round the inside walls of the fridge, where it draws heat from the contents; that turns it into a gas, which is pumped on to the compressor.

A magnetic fridge works like this. Powdered gadolinium (with coarse grains for good heat transfer qualities) is put into a magnetic field. It heats up as the randomly ordered magnetic moments – the electrons with spin – are aligned, or “ordered”, by the field. The newly-acquired heat – a boost of between 2-5C, depending on the gadolinium’s original temperature – is removed by a circulating fluid, like a conventional fridge.

The magnetic field is removed and the gadolinium cools below its starting temperature as the electrons resume their previously disordered state. Heat from the system to be cooled – your fridge interior – can then be transferred to the now cooler metal. Then all you do is endlessly repeat. But unlike conventional fridges, which need very toxic chemicals, the only liquid needed for heat transfer is water, alcohol or, more likely, antifreeze.

40% energy savings are predicted.