Solar-powered lighting has been installed alongside Southampton Airport's runway.
Nick-named "Wig Wags" the flashing lights cost £25,000 in total and are used at junctions between the runway and taxiways.
Southampton is the first UK airport to install the lights which are also used by the US Air Force in Afghanistan.
An airport spokesperson said: "We've been able to minimise the environmental footprint and maintenance costs."
Solar energy
The five units, supplied by Systems Interface Ltd in Surrey, use solar panels to convert sunlight into electricity and ensure the lights operate 24 hours a day.
Their batteries can store enough energy to permanently operate the lights for up to 120 days without any solar charging.
The lights have also been installed in areas of the airport where there is no access to power supplies, saving the £170,000 cost of laying cables.
They were trialled during last winter as replacements for the conventional lighting systems.
Mark Gibb, director of airside operations admitted: "It's a drop in the ocean, but nonetheless it is part of our overall commitment to, wherever possible, identify possibilities to reduce carbon emissions.
This blog is all about Solar energy, solar panels, solar cells, solar energy and crises different nations faces in the energy sectors.....!
Wednesday, September 8, 2010
August sees record rise in UK home solar panels fittings
A record number of homeowners had solar panels installed this month, according to energy regulator Ofgem.
The devices have been fitted to 2,257 homes so far during August, up from 1,700 in July and 1,400 in June.
More than 6,688 homes have had solar panels fitted since April, when the government's scheme to reward people who generate their own energy altered.
The feed-in tariff system now enables homeowners to receive 41.3p for every unit of energy they generate.
This is regardless of whether they use the energy or sell it back to the National Grid.
After the panels are installed, the tariff is paid for 25 years and increased in line with inflation.
This replaces the previous system, under which people could obtain grants to help cover the cost of installing the green technology.
According to the Energy Saving Trust, solar panels usually cost between £6,000 and £12,000 to buy and install, depending on their size.
The panels most commonly installed by homeowners, consisting of eight panels able to generate up to 2.5kW, cost between £10,000 and £12,000.
The Trust calculates such panels could generate about £700 a year from the feed-in tariff, as well as saving homeowners about £100 a year on energy bills.
In addition, people could make about £25 to £30 through selling unused energy back to the National Grid.
MIT boffins unveil self-healing solar cell
For years scientists have managed to develop solar cells that are highly efficient in laboratory conditions, but quickly deteriorate when asked to cope with direct sunlight – which constitutes something of a drawback for a solar panel.
Now a team of researchers from the Massachusetts Institute of Technology (MIT) reckon they may have found the solution to the problem of deteriorating solar cells following the demonstration of a new cell design that manages to repair itself.
The cell mimics the ability of plants to convert sunlight into energy at the same time as continuously breaking down light-capturing molecules and reassembling them from scratch in order to avoid the debilitating effects of sunlight.
Michael Strano, the Charles and Hilda Roddey Associate Professor of Chemical Engineering, who led the research team, said the cell was "basically imitating tricks that nature has discovered over millions of years", such as plants' " reversibility, the ability to break apart and reassemble".
The cell uses synthetic molecules known as phospholipids that form disks which then provide structural support to proteins that respond to light. The molecules then create "reaction centres" that release electrons when hit by light particles. When suspended in a solution these reaction centres spontaneously attach themselves to carbon nanotubes that hold the disks in place and also act as wires that can transmit the released electrons.
The research team then added a surfactant to the self-assembling mixture, which resulted in the seven components that make up the system breaking apart. Once the surfactant, which MIT said was similar to that used to break up the BP oil spill in the Gulf, was removed from the mixture using a membrane, the compounds spontaneously assembled once again into a perfectly formed, rejuvenated photocell.
The team then ran the cell through the same cycle of assembly and disassembly repeatedly over a 14-hour period and recorded no loss of efficiency.
Strano said that the initial experiment delivered very low levels of efficiency, because the concentration of the molecular structures in the solution was very low. However, the efficiency of each individual structure stood at around 40 per cent, double that of the most efficient solar cells currently available, while the team believes that, theoretically, the structures could reach close to 100 per cent efficiency. MIT said the team is now working on how to increase the concentration of the solution.
It is likely to take years to develop commercially available solar cells based on the technology, but the breakthrough suggests that one of the most significant technical challenges faced by emerging nanomaterial-based solar technologies could be overcome.
Now a team of researchers from the Massachusetts Institute of Technology (MIT) reckon they may have found the solution to the problem of deteriorating solar cells following the demonstration of a new cell design that manages to repair itself.
The cell mimics the ability of plants to convert sunlight into energy at the same time as continuously breaking down light-capturing molecules and reassembling them from scratch in order to avoid the debilitating effects of sunlight.
Michael Strano, the Charles and Hilda Roddey Associate Professor of Chemical Engineering, who led the research team, said the cell was "basically imitating tricks that nature has discovered over millions of years", such as plants' " reversibility, the ability to break apart and reassemble".
The cell uses synthetic molecules known as phospholipids that form disks which then provide structural support to proteins that respond to light. The molecules then create "reaction centres" that release electrons when hit by light particles. When suspended in a solution these reaction centres spontaneously attach themselves to carbon nanotubes that hold the disks in place and also act as wires that can transmit the released electrons.
The research team then added a surfactant to the self-assembling mixture, which resulted in the seven components that make up the system breaking apart. Once the surfactant, which MIT said was similar to that used to break up the BP oil spill in the Gulf, was removed from the mixture using a membrane, the compounds spontaneously assembled once again into a perfectly formed, rejuvenated photocell.
The team then ran the cell through the same cycle of assembly and disassembly repeatedly over a 14-hour period and recorded no loss of efficiency.
Strano said that the initial experiment delivered very low levels of efficiency, because the concentration of the molecular structures in the solution was very low. However, the efficiency of each individual structure stood at around 40 per cent, double that of the most efficient solar cells currently available, while the team believes that, theoretically, the structures could reach close to 100 per cent efficiency. MIT said the team is now working on how to increase the concentration of the solution.
It is likely to take years to develop commercially available solar cells based on the technology, but the breakthrough suggests that one of the most significant technical challenges faced by emerging nanomaterial-based solar technologies could be overcome.
Is Solar right for you?
Solar is right for most every home, depending on your motivation. Are you interested in solar purely for economic benefit? Are you concerned for our environment or the social responsibility of your business? Are you concerned for our environment or the future health of your family? Are you bothered by the fossil fuel situation and wish to declare your energy independence? All of these are great reasons to go solar! Below are a few limiting factors to getting the most out of your solar electric system:
Why Solar Energy?
Solar energy systems reduce up to 100% your electricity costs, depending on system size. Utility prices are only going up every year. Solar energy provides you security from rising electricity rates.
A solar electric system adds value to any home or building and pays for itself for years to come. And, your solar system adds value without increasing your property taxes.
Solar is an environmentally responsible technology. Unlike fossil fuels, it does not emit pollutants which create harm to people and the environment.
A solar electric system adds value to any home or building and pays for itself for years to come. And, your solar system adds value without increasing your property taxes.
Solar is an environmentally responsible technology. Unlike fossil fuels, it does not emit pollutants which create harm to people and the environment.
TIPS for beginners builder.....!
Solar Panels for Beginners Tip #1
Don’t think you can build one solar panel and power your entire home. It won’t happen. However, you can run a small appliance, a light, or a small electric engine for several hours with one average sized panel.
Solar Panels for Beginners Tip #2
If you will have solar panels installed professionally, make sure it’s by a reputable company. There have been many people that have reported problems with less than reputable solar companies that never deliver as promised. Check with the Better Business Bureau in your area to find out which companies have unresolved complaints.
Solar Panels for Beginners Tip #3
Before you build a DIY solar panel, make sure you have enough roof space to correctly install the panel. Solar panels are not small and you certainly don’t want to end up with one too big for the area of the roof where it will be installed.
Don’t think you can build one solar panel and power your entire home. It won’t happen. However, you can run a small appliance, a light, or a small electric engine for several hours with one average sized panel.
Solar Panels for Beginners Tip #2
If you will have solar panels installed professionally, make sure it’s by a reputable company. There have been many people that have reported problems with less than reputable solar companies that never deliver as promised. Check with the Better Business Bureau in your area to find out which companies have unresolved complaints.
Solar Panels for Beginners Tip #3
Before you build a DIY solar panel, make sure you have enough roof space to correctly install the panel. Solar panels are not small and you certainly don’t want to end up with one too big for the area of the roof where it will be installed.
Building Your Own Solar Energy Panel
One reason why people often build their own panels is because it is much cheaper to do than to buy new solar panels. For beginners, there are a number of different ways it can be done and you’ll find most what you need at your local home improvement store. You can build a small one over the course of a weekend for about $200-$300. It will power a small shop or appliance. However, you can also loop these together to create more energy.
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