Once you have bought and finally installed your solar panel, your first concern is probably the kind of issues your system could face. This is natural since you want your investment to serve you properly for as long as possible. What are the most common issues? What parts usually break first? How do I make sure they don't break? Such could be the questions running through your mind.
Fortunately, photovoltaic modules can last a very long time. According to an analysis done in 2014 by National Renewable Energy Laboratory (NREL), photovoltaic panels made after 2000, which use monocrystalline silicon, have a yearly degradation rate of less than 0.4%. This means, your panel should have an efficiency of 92 percent after 20 years of service. Indeed, solar panels installed today are expected to last well beyond that at 80% efficiency.
Additionally, solar panels do not require costly maintenance. Since they are designed to work outdoors, their structure can withstand harsh weather and punishing sunlight and heat. Nevertheless, there are still some precautions to take and maintenance routines that will ensure your system works as desired during its long lifetime.
For the solar panels to produce enough power, they require full, bright sunlight. Shadow and prolonged cloudy weather are among the issues that will affect their performance. Lack of bright sunlight reduces the rate of voltage output. To ensure maximum production from the modules, install the panels on mounts angled towards the sun.
It will also be necessary to do some adjustment on a seasonal basis. This is because the sun’s inclination can change throughout the year. Besides, trees grow or people erect tall buildings that could block the sun’s rays. Always monitor these changes and make necessary adjustments to ensure your installation receives enough exposure to the sun.
Wiring problems are the most common with solar panels. It is always a good practice to examine the connections in your system on a regular basis. Check loose connections, corrosion, and oxidation of the wires as these issues could affect the performance of your renewable energy source.
For instance, loose wires become worse during very hot days and they can fail to transmit energy completely. On the other hand, corrosion increases the resistance of wires making them poor conductors of electricity. Tighten any loose connections and replace those which are already oxidized so that your installation can produce the optimum amount of energy.
Fortunately, rainfall does help in getting your solar panels clean. A lot of pollen, leaves, dust and any other loose debris are washed off during rains. However, when dirt accumulates during dry seasons, you may have to clean it. Such dirt can prevent enough sunlight from hitting the surface of the panels. This causes the power produced by your installation to reduce.
In this case, a simple act such as directing a hose pipe to the plate will clear of such dirt just like rainwater. However, some dirt and grime stick hard calling for some wiping. Solar panels are made of glass, and it is possible to clean them with water and soap. However, you cannot use an abrasive material or allow any soap residue to remain on the surface.
The residue coats the panel hindering sun rays from reaching it. On the other hand, abrasion can cause scratches that will reflect sun rays. All these reduce the efficiency of your solar system. Make sure you do not wash the panels during extremely hot days as the glass can shatter. Cracks on the plate’s surface lower its efficiency.
Inverters are among the balance of system components that will fall first. Most inverters in the market today have a useful life of fifteen to twenty years. You should keep proper installation records that can show the expected replacement time. You can hardly control their malfunction after the lapse of their useful life. Proper maintenance, though, will ensure that they serve as per the expectations.
Proper handling can lengthen the life expectancy of your photovoltaic module. Ensure it has a good frame that will protect it from breaking in case of accidental falling during installation. It should also be installed in a place free from falling objects.
About the Author: Adam Hammill - President/CEO of ALIVE SOLAR After 11 years researching alternative energy, he discovered a way of combining existing technologies to create a clean, chemical energy storage system at least twice as efficient as systems currently available. Adam's ideas, experience, and relationships have quickly caused Alive Solar to thrive in the alternative energy arena in Southern California. He earned a Bachelor of Science degree at the University of Southern California and a Master of Theology degree from the University of Aberdeen in Scotland.
]]>In November 2016 Heineken conducted a massive upgrade on the rooftop solar project at their brewery in Massafra, Italy. That facility, which now sports 13,000 solar panels, now boasts a total capacity of 4.5MW, making this the largest solar PV project installed on a beer brewery anywhere in the world.
So, if you enjoy your beer and are also conscientious about clean energy, clean air, and a healthy climate, grab yourself an ice-cold Heineken and enjoy it knowing that the company behind it values the importance of reducing their environmental and climate impact.
Though Heineken is a leader in sustainability and in taking responsibility for their impact on the planet, they are not the only beer brewers who are turning to renewable sources of energy to bring us their beers. Check out this article from SolarPlaza.com entitled: Top 50 Solar Beer Breweries.
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The cost of going solar has decreased substantially over the past few years, making solar an increasingly attractive solution for businesses who are seeking to reduce their overhead costs over the long term in order to experience greater profitability while reducing their carbon footprint. The installation of a solar electric generating station for your business is a known factor in the valuation of your business, increasing the value of your business to creditors and a perhaps a future buyer.
Fortunately, the economy has slowly grown and recovered in the years since the Great Recession subsided. The stock markets are soaring (as of this writing) and business owners are feeling much more confident that investments in their businesses are beginning to become more feasible and, for those who may have entertained the thought of going solar, there's no better time in years than now to take advantage of historically low costs, rebates, and incentives that make solar a viable energy strategy for business owners and offer the promise of substantially reducing or completely eliminating your electric bill.
Solar energy now has the potential to come in at a cost that will allow business owners the opportunity of reducing or eliminating their monthly electric bill and at some point in the future, owning an electric generating facility that will continue to produce power for years after it pays for itself. With solar, businesses are now to offset future costs by hedging against future utility price increases. That is a clear, positive return on investment that will go right to the bottom line.
Once a solar power system is installed, there is little overhead cost on the front end. Depending on what percentage of a business' electric bill the solar system is designed to displace from the grid, solar can reduce expenses in a significant way and can potentially eliminate all of a business’s electric bill. Granting the up-front cost, removing a monthly cost of doing business not only makes paying the bills each month easier, the system will be working towards paying itself off. Pay off times vary too much to say how that will take here in this article, but before you sign the dotted line, you will have a very good estimation how long it will take for the system to pay for itself. But, once it does, your solar power system will, with warranties and expected life of system components and nominal maintenance and care, continue to produce power that is essentially free for years thereafter.
One of the most important considerations when researching the possibility of taking your business solar is the tax implications. Many states and local governments, as well as electric utility companies, have various ways to provide incentives to home and business owners to encourage the growth of solar power. However, nearly all solar and renewable energy projects in the United States are eligible for a 30% Investment tax credit currently offered by the federal government. Here's how it works:
When you install a solar power system for your business, for every dollar you spend on that project you will receive $0.30 of credit toward any taxes you owe when you file at the end of the year. Businesses that owe less tax than what the credit covers can expect to be able to apply the balance of their credit to the following year's filing, either carrying back one year or carrying forward up to 20 years. Businesses may also opt to take the credit on quarterly filings to reduce quarterly tax commitments. Finally, business owners can experience additional savings by claiming system depreciation over a 5 year period.
As with any investment, the return needs to justify the cost. Pre-tax returns for most solar projects in the Northeast US can range from 5% to 25% with paybacks typically ranging from 3 – 10 years. A payback can be also viewed as the “end date” to an electric bill, as all electricity after the system is paid back is free electricity.
The great thing about owning a solar power system is that maintenance is very easy. Solar has no moving parts so there is no premature wearing of system components. Many system owners will go years before they see any significant maintenance costs. The industry standard estimate of maintenance costs after 10 years is calculated to be around 2 pennies per kilowatt hour (kWh). Older solar power systems may continue working properly beyond 10 years but the primary concern will be the inverter. The solar panels that form the system array, though, will continue to operate for 25-40 years with little need for maintenance, unless the system is damaged in some way.
If you're a business owner who is looking to hedge the future cost of energy while reducing or eliminating your monthly electric bill and reducing your carbon footprint, then should consider going solar. Solar energy can provide your business with a long term strategy to reduce costs, increase the value of your business, and eventually producing years of free and clear, clean, renewable solar electricity for your business, adding profits to your bottom line and helping your business succeed!
]]>In a tweet on the socia media platform Twitter, SEIA announced the release of the guide entitled Residential Cosumer Guide to Community Solar:
SEIA & @solaraccess release a new community #solar guide to help educate and empower consumers https://t.co/EH5C8USZXU
— Solar Industry (@SEIA) July 1, 2016
For more information about SEIA, visit them at their website. To learn more about community solar and CCSA, check them out here.
You can read the guide here.
]]>To the right is a pic of a nice home-built solar oven that he sometimes uses to cook meals, like the Thanksgiving meal he is preparing in this image. Mouse over or tap the image to see this solar oven from a different angle as Erik uses it to cook a chicken with veggies dinner.
You don't have to build your solar oven to be able to have one. There are several quality brands and models of solar ovens on the consumer retail markets. If building your own solar oven is a step towards solar cooking that you would like to skip, we recommend that you consider purchasing a quaility solar oven because we believe you'll be so happy with solar cooking that you'll be glad you have a product that will deliver many meals to come and stand up to the wear and tear - and can stand the heat of the kitchen!
One such quality solar oven is the All American Sun Oven®, pictured below. Priced at $329, the All American Sun Oven® is a complete solar oven solution that provides everything you need to get started cooking with the sun including a built-in thermometer, collapsible reflectors, spill protection with leveling leg, and a CD featuring hundreds of recipes with pictures. The All American Sun Oven® can reach temperatures of up to 400°.
Solar cooking is comparable to cooking in a crock pot and many of the same dishes that can be cooked in a crock pot on your kitchen counter can be cooked in a solar oven. As Erik shows us, he prepared a chicken and vegetable dinner. We have found that cooking with a solar cooker greatly improves the taste of the food. We experimented with potatoes, cooking them four different ways: in our oven, in our pressure cooker, in water and in our solar cooker. The potatoes were all from the same batch and we all agreed that the potatoes had a much earthier taste when prepared in the solar oven than did the other cooking methods. We have also found that other food also seem to taste better when cooked in the solar cooker.
If you're someone who feels secure in knowing that you are prepared in the event of some disaster, such as a tornado, hurricane earthquake, or other event that results in extended power outages, solar ovens can be used to cook and heat food. Many of us will never face such an event, but we're all pretty sure we won't be, just as those who experienced the aftermath of Hurricane Katrina thought they'd never face such an event. But there are other great reasons to own a solar oven and two of those reasons are camping and the other is because they're just plain fun! Take your solar oven camping and while you're off exploring and swimming and canoeing, your solar oven is back at camp quietly and efficiently slow-cooking lunch or supper. But the greatest reason to love solar cooking is because it's fun knowing that you can put some ingredients in a pot or pan and leave it in the sun and come back later and realize that your next meal required no connection to the power grid and required the making of no fires. It's just a neat thing to do!
If you've tried a cooking comaparison with, or cooked with, the sun using a solar oven, please tell us about your experience in the comments below.
]]>For many the dream is impractical but, for others, the desire to change their lives is compelling. Following, in no particular order, are ten reasons many people give for making the leap from stressed-out, over-materialized lives to lives of sustainablity and peace.
1. Living off-the-grid allows one to be free and to determine one's own destiny. Properly done, going off-grid is as close to being "free" as an American can get. "Close" because one still needs certain things that cannot be self-produced and there may be taxes that have to be paid. But being off-grid is as close to freedom as it gets.
2. A warm satisfaction that comes from living a more sustainable and self-sufficient lifestyle is a reason often given. There's nothing like going to your own garden and plucking a tomato off the vine and there's nothing like producing your own electricity.
3. A desire to have less impact on one's environment and the planet is a common reason for going off-grid. No matter what is causing climate change, the climate is changing and if humans are not directly responsible, then we are at least partially responsible. However, we are not going to just stop using fossil fuels. Doing so would collapse civilization. But we can help mitigate climate change by voluntarily changing the way we live and allowing a slow and steady adaptation to using less fossil fuels and simplifying our lives to include less of the products of civilization, ie: reducing demand for material "things" and using less fuel to get back and forth to work, school, grocery store, etc., we can live without helps to reduce CO².
4. The peace-of-mind that living a simpler, more satisfying lifestyle brings. When one has more time to appreciate the small things, the small things become very meaningful. The very scent of fresh air or of a wildflower can bring on a sense of well-being. Sitting on the front porch learning to play a guitar can be much more fulfilling than watching a crime drama series on television.
5. Growing one's own fruits, nuts, and vegetables, as well raising livestock provides one's family with wholesome, organic food, un-polluted by chemical preservatives and growth hormones found in processed foods can be a compelling reason for going off-grid.
6. The security of living a more secure life away from the issues associated with more populated areas, such as a large city. It's a fact that the more people who live in proximity to you the more crime that occurs. There is also the problem of gangs and other negative influences that affect our children whether in their neighborhoods or in their schools. "Off-grid" usually means rural and rural means that all of the issues of safety we face in cities and suburbs exist at a much smaller scale, or not at all. Living off-grid also means that one becomes responsible for one's own safety. No need to elaborate there.
7. Many people who go off-grid have done so after a lot of planning. This planning often includes, as it should, the advance purchase of a plot of land on which to live. Advance planning may also include the establishment of a water source, most often a well. Most also install a septic system. And, of course, one needs some sort of shelter in place, such as a cabin, mobile home, or even an RV. With good advanced planning and the basics in place, one can live debt-free, which is a major goal and, for many, the very reason for going off-grid.
8. Every American is aware to some extent of how life was during the Great Depression. The nation's economy collapsed and many people who had never experienced poverty became poor and hungry. People in cities found it hard to find a job or something for their families to eat. Going off-grid means self-sufficiency and preparedness. When you produce your own food, water, and electricity, and if you stay well-stocked, and if you are able to hunt, you can weather such an economic downturn.
9. Learning to live off of what land and nature provides you is a great motivation for going off-grid. Hunting, fishing, growing food are all very satisfying activities that go in to living off-grid. Look at those again: hunting, fishing, and growing food. Those are not only life-sustaining, they're also things many people in on-grid lives strive to do for fun! So, being off-grid can also be a fun life while being sustaining.
10. For those families with children who choose the off-grid lifestyle, going off-grid can instill in them a sense of self-sufficiency. They learn to do the things it takes to live off the land and gain a sense of independence and adventure that is hard to come by in the mean streets and school corridors of the Big City. Parents are able to raise their children in a way that is not corrupted or interfered with like it can be in a larger society that often times infuences children in ways that their parents don't agree with or believe in.
This is by no means a comprehensive list. Everyone is different and will have many reasons for wanting to escape the rat race. Going off-grid means a very different life for most people and it is a major move and can be scary. But it's up to each of us whether or not it's practical and something we want bad enough. And a closing bit of advice for anyone seriously considering leaving it all behind: Plan like you've never planned before! Don't get impatient; put everything in place first! Do this, and the transition from rat race to tranquil off-grid living will be a smooth and rewarding one.
]]>When graduate students at the University of Virginia heard about the “Change My World in One Minute” competition being sponsored by World Cerebral Palsy Day in 2012, they jumped to the challenge and created something pretty cool: a solar-powered wheelchair!
Check it out...you won't want these few minutes back!
]]>RIOS is an autonomous sensor platform using solar panels and an LPG generator to provide the electricity needed to power the radar sensors and the wireless internet data transmitter.
Hourly data gathered from RIOS is used to assess the navigability of tidal inlet.
The U.S. Army Corps of Engineers is currently seeking a lease for a RIOS platform for Vilano Beach in St. Johns County, FL. The St Johns County Commission will vote Tuesday (10.20.15) on whether or not to lease to the Corps for $1 a small bit of county-owned land at Vilano Beach.
]]>We've all seen these two versions of solar energy usage on homes and businesses in the form of “solar panels”. Solar panels come in both forms of solar energy collection, thermal and electric. Solar thermal is used on the roof of a home to heat water, which then provides hot water to the home. Solar electric (PV) takes the form of solar electric panels, or more generally just solar panels, attached to a roof by a mounting system. These are the most readily recognizable uses of solar energy. But technology is certainly not limited to use of solar energy on our homes and businesses. Here, in no particular order and voted on by no one, we'll look at six really cool ways solar energy is developed and used that you may not be familiar with and you just have to see!
Space exploration is cool. Space exploration powered by solar energy is really cool! Solar power has been used to power spacecraft since nearly the beginning of the Space Age. The use of solar panels to power spacecraft is limited those spacecraft that operate within the inner solar system, where the sun's rays are strong. Solar panels, which use gallium arsenide and, more recently, a gallium arsenide and silicon hybrid technology called "multi-junction photovoltaic cells". Multi-junction photovoltaic cells capture the largest spectrum of light possible and are the leading edge of solar PV technology, exceeding 40% efficiency under ideal conditions. Some spacecraft that have been powered by solar energy are Juno (Jupiter), Magellan (Venus), Mars Observer and Mars Global Surveyor (Mars), Rosetta (Comet 67P/Churyumov–Gerasimenko). Earth-orbiting solar-powered spacecraft include the Hubble Space Telescope, but the reigning colossus of really cool solar-powered spacecraft is hands-down the International Space Station!
The International Space Station (ISS) operates in low Earth orbit and is powered completely by solar power. Its first component launched into orbit in 1998, and consists of pressurized modules, external trusses, solar arrays and other components built by a partnership of nations including the United States, Canada, Japan, Russia, Italy, Europe, and others. The ISS is a series of modules launched into space by Russian Proton and Soyuz rockets and American space shuttles.
The ISS serves as a micro-gravity and space environment research laboratory in which crew members conduct experiments in biology, human biology, physics, astronomy, meteorology and other fields. All of these systems are powered by double-sided solar photovoltaic arrays which provide electrical power for the ISS.
The Russian segment of the station uses 28 volt DC from four rotating solar arrays mounted on Zarya and Zvezda. The USOS uses 130–180 V DC from the USOS PV array. The ROS uses low voltage. The two station segments share power with converters.
The solar arrays on ISS normally track the sun to maximize power generation. Each array is about 375 m² (450 yd²) in area and 58 meters (63 yd) long. In the complete configuration, the solar arrays track the sun by rotating the solar arrays as needed to maximize exposure to the Sun and to minimize drag, due to the station's low orbit, as it moves through Earth's shadow.
Rechargeable nickel-hydrogen batteries (NiH2) are used to store energy generated while the solar panels are exposed to the Sun. Then as the ISS is eclipsed by the Earth, this stored energy can then be used to power the station for the 35 minutes it is in Earth's shadow during each 90-minute orbit
But enough of that technical stuff. What really matters is the really cool way spacecraft, like the ISS, use solar energy to discover the final frontier!
Solar cars are vehicles which use solar photovoltaic cells on the surface of the car to produce electrial current from photons of sunlight. This current is then used to charge batteries in the car. The batteries provide power to the electric motors which then turn the wheels of the car. Solar cars are generally built for racing and the limitations of using on-board solar energy to power passenger vehicles are currently insufficient in providing a reliable source of vehicular transportation.
However, there have been great strides in electric car technology, led by the likes of Elon Musk of Tesla Motors notoriety and cars like the Toyota Prius and Nissan Leaf. These cars use a cord that plugs into a power source in order to charge the batteries. All it takes to transform these EV car models into solar cars is to install a standalone solar power system that will store the sun's energy in a battery bank which can then be transferred to the car. This usually will take the form of a solar carport but can also be a pole- or roof-mounted solar array.
Solar-powered cars are a developing technology. But can it replace traditional fossil-fuel-powered cars? For an answer to this important question, we turn to Tom Murphy, an associate professor of physics at the University of California, San Diego: “...solar powered cars fall solidly on the reality side of the reality-fantasy continuum. That said, pure solar transport (on board generation) will suffer serious limitations,” says Murphy. “More reliable transport comes with nuances that may be irritating to the purist. You can apply a bumper sticker that says SOLAR POWERED CAR, but in most cases, you will need to put an asterisk at the end with a lengthy footnote to explain exactly how you have realized that goal.”
For an extended, by-the-numbers look at solar cars, check out Tom's article entitled A Solar Powered Car? over on his blog Do the Math . The article is 4 years old but does a good job of illustrating the degree of practicality of solar cars. This writer reckons the numbers have gotten better in those intervening four years. Perhaps Mr. Murphy will stop by and lay some contemporary wisdom down on us by way of an update to his article.
Using light from the Sun is a really cool way to power a spin around your neck of the woods!
Solar bricks are a really cool way to highlight the driveway or walkways around a home or business. Solar bricks come in many styles, sizes, and colors and can be laid right into the masonry of a brick sidewalk, driveway, and patio or to accent the perimeter of a brick wall or to add ambient light to outdoor landscaping features.
Most solar bricks allow sunlight to penetrate during the day to charge the batteries which, in turn, powers led lights inside the brick. When the sun sets and the dark of night advances, these bricks begin to glow, lighting walkways, driveways, and patios and providing a way to navigate the dark of night. Some even have control systems that allow you to change their color or to turn them off and on as needed.
Solar bricks are easy to install and are designed to replace regular brick and paving stones and are laid using mortar just as regular bricks are laid and cemented together. Most quality solar bricks are able to collect a full charge, even on moderately cloudy days. Dark, overcast days may affect the lighting output of solar bricks but exposure to natural light all day should provide enough charge to sufficiently light them at night. And besides, they're a lot cheaper to install than traditionally wired lighted bricks!
The cost of solar bricks varies depending on the kind of brick that you want. Higher quality, more sturdily built lighted bricks will of course cost more. Some decorative models will also cost more but there are many models and brands of solar bricks that are very reasonably priced. But another thing that's really cool about solar-powered bricks is that, once installed, they cost nothing more to operate!
So, that's two really cool things that make solar bricks a really cool use of solar energy: it's a brick that lights up at night, and it costs nothing to operate once installed. Shall I say it one more time? Solar bricks are really cool!
No, we'll probably never see a solar-powered commercial passenger airliner. However the day may come when smaller airplanes, probably motorized gliders, are powered completely by the Sun. Solar airplanes, also known as “electric aircraft”, use thin-film solar cells on the tops of their wings which provide power to the propellers via a motorized shaft. Aerodynamics and physics do the rest.
Solar airplanes today are mostly experimental demonstrators and include both manned and unmanned aerial vehicles. Beginning early in 2015 Solar Impulse , a manned airplane powered by the Sun, began a 5-month circumnavigation of the Earth, the first attempt of it's kind. In the interest of space, we'll highlight this particular solar aircraft to help describe this really cool use of solar energy.
Solar Impulse , a Swiss long-range experimental solar-powered aircraft project, is a privately funded project led by Swiss engineer and businessman André Borschberg and Swiss psychiatrist and aeronaut Bertrand Piccard, who gained previous notoriety co-piloting Breitling Orbiter 3, the first balloon to circumnavigate the world on a non-stop mission. The two men are currently attempting to achieve the first circumnavigation of the Earth by a piloted fixed-wing aircraft using only solar power.
Powered by photovoltaic cells and capable of taking off under its own power, the single-seat monoplane prototype aircraft Solar Impulse 1 was designed to remain airborne up to 36 hours. Solar Impulse 2 , on the other hand, is a new and improved craft carrying more PV cells and more powerful motors, among other improvements, and has a longer range and time in flight.
According to Wikipedia, Piccard and Borschberg began their attempt to circumnavigate the globe aboard Solar Impulse 2 on March 9, 2015. Departing from Abu Dhabi, the aircraft was scheduled to return to Abu Dhabi in August 2015, upon the completion of its multi-stage journey. By June 1, 2015, the plane had flown across Asia. Leaving from Japan on July 3, 2015, the plane completed the longest leg of its journey, after landing in Hawaii. During that leg, however, the aircraft's batteries experienced thermal damage that is expected to take months to repair. The Solar Impulse team will attempt to resume their circumnavigation of the globe in April 2016.
For more information on solar airplanes, check out this Wikipedia article .
I don't know about you but flying around the world is a really cool way to use solar energy! And when it comes to Solar Impulse, I say, “Are we there yet?” Stay tuned at SolarImpulse.com!
By now we've all seen them on the side of the road, perhaps at each end of a school zone or atop a portable speed detection radar unit. Solar traffic control lights and monitoring equipment systems are devices which are powered by solar panels and batteries. Positioned at road intersections, pedestrian crossings, and other locations to control and monitor the flow of traffic, these systems use lights in the standard colors red, amber, and green. Most solar traffic control systems use a battery bank to power the unit during nighttime hours.
Most solar traffic lights use LED lighting technology as they are more reliable and are energy efficient and have a long life span, among other advantages. Solar traffic lights consist of battery enclosures which house the batteries, control panel circuitry, signage, lights, and a solar panel(s) all mounted on a pole or trailer. Solar traffic lighting systems also include a charge controller to control the charging and discharging of the battery and a countdown timer which displays the amount of time left before the battery discharges fully.
Solar traffic lights can also be used during periods following natural disasters such as hurricanes and tornadoes, when the existing street lights may not function due to power outages. Often in times like these traffic becomes uncontrolled and chaotic and traffic congestion in the disaster area ensues. There are also portable solar-powered street lights that are designed to be carried and operated by police and relief workers wherever traffic needs to be regulated.
There are obvious advantages to the use of solar traffic lighting and control systems: they are self-contained and do not require external power sources or fuel to operate; they are fast and easy to set up and operate; and they are autonomous, requiring very little if any maintenance as they have no moving parts that can break down and otherwise fail. In most cases the entire system consists of some sort of lighting configuration that conveys a universal signal or textual message, a charge controller, a battery bank, a solar panel(s), and mounted to a pole or trailer, depending on whether it's a permanent fixture or a portable unit.
Any way you look at it, using solar to power portable traffic control and lighting systems in the event of a natural disaster or to control the flow of traffic through a school or highway construction zone is a really cool way to use solar energy!
The one thing I always notice no matter what kind of motorized boat I'm aboard is the noxious fumes produced by the burning in the motor of fossil fuels like gasoline or diesel. But for some boats and boating applications, there is a viable alternative: solar-powered boats!
You need three things to move a boat: energy, propulsion, and a rudder. In the olden days, the energy to move a boat was provided by the wind. The propusive device took the form of sails. Then petroleum and cumbustion motors were added to the methods for propelling a boat through the water. But now we're finding that solar energy can be used to power an electric motor which then turns the boats propeller. Solar boat design has to take into account the efficiency of current solar technology when figuring out how much area is needed to collect enough solar energy. Most current solar boat applications are limited to powering boats for short trips. But there are experimental applications that take solar boating to a whole new level.
Meet PlanetSolar, a unique sailing vessel that uses solar power to power it's electrical and propulsion systems. PlanetSolar is the largest solar-powered boat in the world. It launched on 31 March 2010 and after over two years it became the first solar electric vehicle ever to circumnavigate the globe. This solar boat is covered by nearly 6000 square feet of solar panels producing around 93 kW of electrical power. The current generated by the solar array is used to power one of the two electric motors in each hull. There are 8.5 tons of lithium-ion batteries in the ship's two hulls that act as ballast and which store the energy produced by the solar array. Combined with the hydrodynamics and aerodynamics of the boat's shape, PlanetSolar can reach speeds of up to 14 knots. The hull was model tested in wind tunnels and was tank tested to determine its hydrodynamics and aerodynamics. It is currently being used as a floating marine research laboratory by Geneva University.
But not all solar boats are expected to get their crews all the way around the world. A more practical application of solar powered boating includes the use of solar-powered water shuttles. The Serpentine Solar Shuttle, operating on Lake Serpentine in the UK, can carry 42 passengers. The Constance, which can carry up to 60 passengers, is another solar shuttle that operates on Lake Constance, on the Germany, Austria and Switzerland border. The Hamburg Solar Shuttle carries up to 120 passengers and operates in Hamburg, Germany.
Whether it's solar-powered sailing around the world or taking a water taxi across a European lake, using solar power to propel a boat is a really cool thing to do!
And there you have it, five really cool ways we use solar! But solar energy is in no way limited to these five examples. There are many more really cool way that we use solar and we'd like to get you involved. In the comments below, tell us another example of a really cool was to use solar energy!
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