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An Easy Way To Use Solar Power

Sunday, June 14th, 2009

Charles Cox asked:

The fact is that solar power has not been taken seriously in the past. All the non believers feel that there is an adequate supply of energy coming from the sun, but being able to capture that is energy is another thing altogether. They feel that the whole ordeal would be too costly. However, as we all know, technology has been growing geometrically over the last decade or so and it keeps getting better and better. So rather then to buying an expensive solar panel and all the equipment you would require to lower your power bill each month, you can now build your own solar panel system at home. In fact, it is very possible for your entire residence to be completely free from the power company just by switching over to solar.

This is what many of the doubters are not aware of; solar power in your home can actually be very easy. There are many types of material that attract the light and heat from the sun like metal, glass, and mirrors. These materials can not only be used to harness the power of the sun, but it also has the ability to store the energy and even transfer it to a battery. A simple car battery can be used to store the power generated by your solar power system.

Contrary to what many people believe, home made solar power programs do not have to be difficult. As long as you can read and follow instructions you can be well on your way to energy freedom and independence. And the wonderful thing about solar power is that you can start small if you desire and grow your solar power system as you would like. You probably want to get the basics of how solar works before you go all out, but when you start seeing the savings on your power bill you may reconsider and start adding on to your solar project.

It seems that everything has a price these days, so it is nice to know that the energy of the sun is still free and available. You may have to buy a few materials for your home solar system to work, but much of it can be constructed from items lying around the house. The basic components of a solar panel will be solar cells, some solder, flux, a soldering iron, and tabbing.

In a short period of time you can be enjoying your homemade solar panel system and helping the environment at the same time. Solar power is being used in places of business and by large companies but now you can have it at home as well.

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The Cost And Benefits Of Solar Power Explained As Renewable Energy Becomes A Viable Alternative

Saturday, June 13th, 2009

Jon Kelly asked:

As fuel costs continue to rise, alternative sources of energy become more attractive to individuals and businesses. For those who are concerned about pollution or about the depletion of natural resources, renewable energy sources such as wind and solar power have presented themselves as possible alternatives to oil and coal.

Yet as increasing demand for clean, renewable energy drives a growing market for solar energy products, many people are left wondering what such systems cost and where those costs come from. Sunlight itself is free to everyone, yet the types of technology used to harness the power of sunlight can be costly. If you are interested in purchasing solar power products for your home or business, knowing what you will be paying for can help you make the best investment.

Two of the main types of products that take advantage of solar energy are passive and active solar products. These two types of systems differ in how they are constructed and can also differ greatly in cost. Passive solar technology can be used to heat air or water using the sun’s energy. Unlike an active solar application, passive solar set-ups accomplish their task without the use of additional electrical components, such as fans that need an external electricity supply.

Some solar space heating or water heating systems are active solar heating systems that have various components that require external power sources. Because of their simplicity compared with active systems, passive solar heating systems generally have the lower cost of the two.

In addition to these solar heating systems, there are also solar power systems available. Rather than using the sun’s energy for heating applications, these systems convert solar energy into electricity. These products are often constructed from hundreds of a type of solar energy collection cell called a photovoltaic cell. The name of this type of cell makes reference to the fact that the cell generates electricity from light. As sunlight falls on a photovoltaic cell, the light’s energy is converted into electricity that can then be used to power many kinds of electronic devices.

Because of the complicated technology involved, these kinds of solar power systems can be very expensive. However, the cost savings may eventually more than pay off your initial investment in the solar cells.

When considering what kind of solar heating or power system to install in your home or business, be sure that you are purchasing your equipment from a reputable manufacturer or distributor who will be able to help you with any necessary repairs, periodic upgrades or additional conversion from traditional systems to a solar-powered system.

The best service will often be the most expensive, but you may be able to find grant funding to help offset the costs of equipment or installation. Many states offer grants for conversion to solar power, and doing some research into the grant programs for solar power systems in your area will help you get a sense of the how much financial assistance is available.

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Posted in Solar Power

Tags: Solar Energy Products

The Many Faces of Solar Power

Wednesday, June 10th, 2009

Mark Hostetler asked:

Living in Nevada, the sun is an almost constant companion. This gives Nevadans a unique opportunity to use solar radiation powers for good. In April, a tour of southern Nevada homes shed some light on the subject of solar powered homes. Hosted by the American Solar Energy Society, this Nevada branch of the National Solar Tour explored homes that used both passive and active solar power, thermal hot water systems, and other environmentally features. However, unless you’re a green technologies expert, or took the tour, you may not know the difference between passive and active solar, or how thermal hot water is different than average. Let me help you understand!

Active solar technology is the one that most people may be familiar with. It involves having a solar panel that collects the sun’s energy and converts it into electricity. These have a battery where energy is stored, so electricity can still be used at night, and, to a certain extent, on cloudy days. Solar panels are an excellent way to make electricity, especially in remote areas. While they are moderately costly to set up, and do require some maintenance, they provide reliable and free electricity, even in climates far less sunny than Nevada’s.

Passive solar technologies are far older than active ones, and involve utilizing the natural heat and light the sun creates, without converting it in any other way. Have you ever noticed that after a long, hot day, south-facing rocks, pavement or brick and adobe buildings will radiate warmth? They have spent the day passively collecting solar energy, and are releasing it. Some materials are better at absorbing and storing that heat energy than others. For example, wood insulates, meaning it will block temperatures, whereas stone will absorb and release temperatures. Homes that are built to take advantage of passive solar are often constructed of brick, adobe or concrete. Cob is another passive-solar-friendly and ancient building material that is going through a revival of sorts. It is made of sand, clay and straw, similar ingredients as adobe, but adobe is baked into bricks and stacked, whereas cob structures are free-formed while the material is wet. Passive solar homes usually have a lot of windows lining their south walls, and less so their east and west walls, with little to no windows on the colder north sides. These windows do two things. First, they provide natural light inside the home, one aspect of passive solar. Second, they allow heat to come into the home. If the home has a stone tile floor and even walls, that tile will absorb the heat, releasing it later when the outside temperature drops.

Passive solar homes can be designed to be cool in summer while using the sun to warm them in winter. For example, if shutters are closed during summer months, the home will remain much cooler. Also, the height and angle of overhang can be considered to maximize the windows exposure to low winter sun, but minimize exposure to the high summer sun. Alternatively, I saw an interesting example of someone planting deciduous trees on the south side of their home. In the winter, the trees had no leaves and so let in a lot of light and heat. In the summer, their thick greenery provided shade that kept the house cool.

So that is the major difference between active and passive solar technologies. Since passive solar is essentially free, it would be wise for any architect or home designer to take it into consideration when building new homes. Well designed passive solar homes can greatly reduce their electrical energy needs. And while active solar is brilliant technology, it still takes many resources to create. Plus, it may be superfluous in an area with an existing electrical source.

As for thermal water heating, it too is a very simple concept. Home made thermal water heaters can be as simple as an outdoor water tank painted black, but that’s a little crude for most tastes. However, there are a variety of styles out there. Some have panels that are metal painted black and enclosed with glass, with copper pipes filled with water running through them. This water will heat, and is then pushed by gravity into an insulated storage tank. Some solar water heaters use a similar set-up but with tubes filled with anti-freeze that are then hooked up to a heat transfer loop, where water in a storage tank is heated. Whatever system you use, thermal water heating is surprisingly affective.

There are a lot of ways to take advantage of the sun and use less electricity. Check out next year’s National Solar Tour to see them for yourself.

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Posted in Solar Power

Tags: Solar Powered Homes

Measuring Solar Power: What the Sun Has to Offer. (part 5)

Tuesday, June 9th, 2009

Daniel Stouffer asked:

cle explains the fundamental terms related to sunlight and residential solar energy systems. You will learn about units of measure, forms of solar radiation, spectral distribution, energy distribution, and solar position.

Germany and Japan are often cloudy or foggy but is where most solar panels now sold in the United States are produced. Because of the way solar modules produce power from direct, diffused and reflected light it works great in these conditions. A very high performing solar array can be found on a foggy beach in California.

Measuring Light and How Solar Panels Use It

The following terms related to different aspects of light and their characteristics as they come in contact with different physical formations on Earth. The definitions below will help explain how some residential solar energy systems seemingly in areas with poor sun quality can actually achieve respectable power output.

Irradiance - The rate of solar radiation falling on a given area at a moment in time. Irradiance is measured in units of kW/m2 (read kilowatts per square meter).

Irradiation - The amount of solar energy over time. Irradiation is measured in units of kWh/m2/day and read kilowatt-hours per square meter per day. Different locations through the United States (and the World) have different levels of irradiation. As in previous articles, you can find many maps on the Internet that will show the average annual solar irradiation throughout the United States.

Light Characteristics and Solar Fundamentals

Deflection - The amount of light lost when the solar panels aren’t facing the sun squarely as the sun moves across the sky. This loss of light is called deflection. Even though solar cells are etched on the surface into little pyramids to collect light from all angles, coated with a light diffusing coating, and protected with light diffusing glass, more light is deflected when the sun is not directly in front of the panels.

Spectral distribution - The bulk of the solar light spectrum which reaches the Earth’s surface is ideally suited for conversion by solar (PV) cells into electrical energy.

The Sun’s Position as It Relates to Solar Energy Systems

Two coordinates describe the position of the sun at any given time. The orientation provide the information to home solar installers to figure out and orientate the solar energy system to collect and convert as much sun energy as possible into residential electricity.

Azimuth - Describes the direction from east to west in degrees (°). North is 0 degrees. East is 90 degrees. South is 180 degrees. West is 270 degrees. The layout of this grid is not unlike the face of a compass. The markings are in degrees indicated on the face.

Altitude - Is the measurement in degrees, like on a compass, that the sun is from the horizon. Altitude is measured in degrees as well. Altitude is the point in the sky where it is located right over head often referred to it’s highest point in the sky. Just like a plane has an altitude that it travels at across the sky as it is measured above the horizon. So does the sun.

Irradiation Example for a Solar Energy System

In the coast area of California, residential solar energy systems are sized using an average of 5.5 sun hours per day. More often than not, most people think or comment that their house gets more like 8 to 15 hours of sunlight per day. This is true but sunlight is different than solar sun hours per day.

The sun hour numbers take into account things like fog, rain, night and, most importantly, deflection. The sun hour ratings listed for different places throughout the United States is the amount of solar irradiation available to be converted into electricity by a fixed mounted solar array facing true south at the optimal tilt angle. A solar module produces its full rated power only when in direct sunlight, so when the sun is to the East or the West of the module it is not at full production.

reThinking the Economics of Residential Solar Energy

Doing your part to choose green, solar power can be a bit confusing and complex at times. There are many terms, aspects of the installation, and details about your sun light hours per day that all influence decisions to upgrade your home to solar energy. A very interesting and attractive option currently development in the solar market is the option to rent a residential solar energy system versus having to pay out up to $40,000 for your own solar panels and related equipment.

The economics of residential solar power have changed. Every American homeowner can decide to upgrade to solar energy and avoid large purchase of a solar energy system. New rental programs are now available that give homeowners the chance to adopt residential solar energy without having to make a huge investment.

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Posted in Solar Power

Tags: Solar Panels

Renewable Energy - Lesson 3 - Wind Power

Sunday, June 7th, 2009

David J Hughes asked:

Today, much emphasis is being placed on renewable energy, living green, and the environment, Never before has there been such a strong and growing grass roots movement toward renewable and sustainable energy and environmental responsibility. In truth, this movement is to a significant extent motivated by financial concerns of people who are desperate to cut utility bills by finding ways to conserve energy. However, the end result is the same; much more interest in and progress toward bringing renewable and sustainable energy technology such as wind power into the mainstream.

Wind power is a concept that, like solar power, has been around for a long time and sparsely used. In the last five years, this has changed dramatically. In the Midwest, one can see many examples of eclectic cooperatives purchasing land or at least leasing rights to construct huge farms of wind generators to augment their electricity generating capabilities and to bring down the cost of electricity to their customers. While this is a great development from an environmental aspect, the average customer sometimes does not see a great reduction in their monthly electric bill.

Wind power for the average private residence is possible. While technically possible to go off the grid with wind power, this is not as reliable or advisable compared to solar power. However, residential wind power generators do make sense in that they can significantly reduce one’s electric bill. Unlike the massive towers with gigantic propellers, that one sees the electric cooperatives using, residential wind generators are compact, relatively small and usually unobtrusive.

These residential wind generators can be free standing with their own tower, usually 20 to 30 feet tall, or they can be mounted on a tower which is in turn mounted on the roof of the house. The residential wind generator does face some challenges that solar power does not. The configuration of a wind generator generally requires that the propeller be at least 20 or 30 feet off the ground, especially in a dense residential area. Depending on the neighborhood, some will run into zoning restrictions that might prevent them from having a tall tower on or around their house. However this is the exception rather than the rule. Most homeowners will be able to install their wind generator with a minimum of trouble and expense.

Most wind generators are relatively affordable and can be paid for in the first two years with the savings in the monthly electric bill that they make possible. People are usually surprised by how little wind is necessary to generate a significant amount of wind power. This will vary according to region, but most places will have sufficient wind to generate at least some wind power every day.

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Solar Power For A Greener America

Thursday, June 4th, 2009

Arnold Hexden asked:

Solar power has many more uses around your home than just solar heating. The technology has made significant advances and you can now cook, heat your pool and even refrigerate your groceries using energy from the sun. However, your solar home may have issues that you may be unaware of. In this article, we’ll talk about the economic and environmental benefits and drawbacks of using solar power.

The biggest benefit of solar energy is that the fuel is free and the source is unlimited. There is little to no maintenance required with solar panels because there are no moving parts. In fact, most manufacturers include warranties on their products that are good for up to twenty-five years. In the event of a blackout, solar power is not affected. That means that during extreme storms, your family can still enjoy all the comforts of your solar home.

Environmentally speaking, the use of solar energy produces no emissions because there is no burning of fossil fuels. Solar energy prices are steadily declining and as new technologies emerge, the costs of solar systems will continue to decrease.

It is a fact that solar power home kits have become more commonplace in recent years, however, these kits can be dangerous. As the instructions in these kits are laid out in what seems to be easy-to-follow steps, some people forget the fact that they are working with electricity. To be on the safe side, purchasers of solar home power kits should read the instructions thoroughly.

It is recommended that you hire a professional installer or electrician instead of installing the kit yourself. Professionals have received more training, so they are much more capable of handling the risks that come with using solar power home kits.

It is also worth bearing in mind that although solar electricity is a clean source of power, eventual disposal of the cells is environmentally unfriendly! It is known that most solar cells that are used to create a solar home contain the highly toxic substance known as cadmium. Extreme care should be taken as it can cause serious environmental damage if it’s not disposed of properly.

The supply of sunlight should also be taken into account as with solar power it is imperative. Generally most places do have adequate light to operate with solar panels, but there are areas in the extreme north and south that experience only darkness for up to a month a year.

While solar power is a huge step forward in reducing our dependency on fossil fuels, there are some drawbacks. Like with any investment, consumers should thoroughly research their options and consult professionals. Solar energy is a rapidly advancing technology, so it’s reasonable to assume that the issue of cadmium contamination will be addressed. It’s important to remember that building a solar home is not just a financial investment, but an investment into the future of a clean planet that will sustain generations to come.

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Posted in Solar Power

Tags: Using Energy

Wind Power Battery Storage System

Tuesday, June 2nd, 2009

Munya Chinongoza asked:

There is a new Canadian technology could make wind power a much more reliable source of energy with their new wind power battery storage system. VRB Power Systems Inc. (www.vrbpower.com) is a company in Vancouver that has developed a large-scale storage unit which allows it to a hold significant amount of power.

These batteries could be the solution to the main problem that we have with wind, the fact that it is unpredictable. Five percent of the electricity produced in Saskatchewan comes from wind. Wind power would be a great alternative to using coal if they could only predict the amount of wind they would be receiving.

Hydro offers a dependable power supply to meet basic industrial and residential needs. Wind adds to the mix of hydro and gas however it does not do it consistently. Wind can decide to blow at night when there is no demand for it at all, or it may decide to be unavailable when people actually need it.

Although coal is a much more dependable resource, it has a huge downside and that is the amount of pollution that it sends off into the atmosphere. To use clean coal technology would be very expensive. The new power plant that might be built in Saskatchewan will cost roughly $1.5 billion to produce 300 MW of power that we could actually use.

If they decided to spend the same amount of money on wind the plant would be able to give off 1,000 MW of power. However unfortunately for the reasons that have been already stated they can not rely on wind power to satisfy the people’s basic needs. It would be wonderful if we could store large amounts of wind power and then use it when it is necessary. Although storing wind power in batteries is not feasible, the VRB wind power battery storage system technology just may allow it to be possible of us to do so.

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Posted in Solar Power

Tags: Clean Coal Technology

Residential Wind Power, is it for You?

Saturday, May 30th, 2009

William Rigby asked:

odays residential power customers are looking for ways to reduce their utility bills. With the unbelievable rate energy costs are rising, Many groups are now promoting alternative energy solutions. Wind power is one of those ways. Using residential wind power has had a big increase in use over the years.

Residential wind powers works in the way of having a wind turbine attached on top of a high tower so that the wind turbine can collect the kinetic energy and change this kinetic energy into electricity. The electricity then works through out your home like normal electricity that you are use to having coming into your home. Because a wind turbine can be even more effective giving off more electricity then is needed for the average home the utility companies usually offer a buy back system where they will buy back any unused electricity that has been supplied by the residential wind power. The turbine for residential wind power is small but effective. This alternative will help significantly when it comes to lowering your electric bill.

Not only will you be giving the environment a better chance of survival, You will also be reducing your electric bill. Residential wind power helps the environment in ways of pollution, because there is no output of pollution from a wind turbine. You are decreasing the amount of pollution put into the air by the utility company by producing your own power from the wind. During the lifetime of a wind turbine, the wind turbine can prevent 1.2 metric ton in air pollutants. This alone will help preserve the planet for future generations, especially our children. The cleaner the air, the better we breathe, the healthier we will all be.

Many residential customers think that converting to residential wind power will be hard or they will need to replace all the wiring in their home. The truth of the matter is that residential wind power can be hooked directly to any home with out the need to switch any of your current wiring or appliances. The only extra add on may be your utility company might install a second utility meter so that they can measure any surplus electricity they will be buying from the residential customer who is utilizing residential power wind. I would love to be paid by the utility company instead of having to pay them every month. Wind power for residential housing in a viable alternative source of power.

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Posted in Solar Power

Tags: Kinetic Energy Wind Power

Solar Power System

Thursday, May 28th, 2009

Aleks Kos asked:

Solar power system is the process of using the light from sun and turning it into an energy source. It has become a reliable alternative to regular power sources in remote areas. It has even been used in outer space. Solar power system is used in homes, lighting, architectural projects, and cooking. It has become even more popular as the cost of fossil fuel continues to rise. Solar panels are designed to collect the power from the sun.

Once solar energy is collected by the solar panels it has to be converted into energy. This can be done by a process called solar thermal application. It involves using the energy from the sun to directly heat air or liquids. The process of photoelectric application involves the use of photovoltaic cells to change the energy into electricity.

Solar power poses no harm to the environment. However, other threats to the environment may affect the ability to use solar power system in the future. Global dimming is the result of pollution. It allows less sunlight to reach the surface of the Earth. A recent concern is global dimming, an effect of pollution that is allowing less sunlight to reach the Earth’s surface. Global dimming is caused by pollution particles and global warming.

The Solar Electric Power Association is an organization of electric utility companies and the solar industry. They joined together to find solutions to meet our energy needs. SEPA is a network of more than one hundred companies. Fifty are utility companies, twenty five are solar companies, and the rest are various types of businesses. They share experiences, knowledge, and information about solar programs, They also discuss policies and technology relating to their field.

Is solar energy right for you? There are advantages to using this as a safe alternative to fossil fuel. Solar energy is free. It can be used in areas where electricity can`t be set up easily. The sun is not a resource that is going to be depleted. Disadvantages are that it doesn’t work at night. The cost of creating solar power stations to store such energy is very expensive. In some area of the world, solar energy just isn’t an option because the climate does not receive enough sun light.

Energy from the Sun - Solar power system.

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Posted in Solar Power

Tags: Solar Companies

Advantages and Disadvantages of Wind Power

Saturday, May 23rd, 2009

James Nash asked:

Wind power, or wind energy, is a renewable resource; it is from the sun. The advantages of wind power are many, including practical, environmental as well as economic. There are also disadvantages to using windpower, such as the natural variability of wind, the competition for other land uses, and bird deaths.

Wind power, or wind energy, is a renewable resource; it is from the sun. The intensity of solar radiation differs across the globe. Some areas receive intense amounts of sunlight, while others receive much less. The result is a temperature gradient; a gradient which is mediated by the flow of air to and from areas of dissimilar temperatures and pressure systems in our atmosphere. Uneven heating of the earth’s atmosphere,

in addition to irregularities on the earth’s surface and the rotation of the earth create wind. Terrain, water bodies, and vegetation then shape flow patterns.

The recent history of wind power in the United States has a similar impetus to that of alternative fuel sources in general - it was an idea borne from the 1970’s Oil Crisis. It does, however, have a more extensive history reaching back into to late 19th century in the colonization of the American West; millions of windmills were erected for irrigation and cattle purposes to facilitate the growing number of farms and ranches. Many soon feel into disrepair as inexpensive energy sources became more widespread and grid power extended its reach into rural areas used small electric wind systems.

Outside of the US, however, wind power has a broader history. In fact, there was evidence that boats were propelled along the Nile as early as 5000BC via wind energy. China used wind for pumping water several millennium ago.

Wind is harnessed to make mechanical power or electricity. The kinetic energy from the wind is converted through various different processes to create mechanical energy that can be used in lieu of fossil fuels. There are two types of modern turbines - horizontal and vertical axis, both of which work similar to one another and as decried above. Between the two types, they come in an array of sizes from small 100 watt units for single homes to much larger or ones (with a blade diameter greater than 50m). These larger turbines can generate 1 MW of electricity.

The most common used today are horizontal axis turbines with three blades (15-30m in diameter) and produce approximately 50-350 kW of electricity. Often wind turbines are grouped together; the arrangement in called a wind farm that provides energy to an electrical grid.

Vertical axis turbines are more efficient in areas with vast amount of lands and moderate wind speeds. Current technology is looking to develop different turbine types for different areas of wind speed given the amount of land available for farms.

The advantages of wind power are many, including practical, environmental as well as economic. Worldwide, the total kinetic energy contained in wind is more than 80 times that of human energy consumption. While only a fraction of this can be used for electricity purposes, the potential-given future technological developments is great.

Environmental advantages include the fact that a renewable source of clean, nonpolluting energy curbs the demand and use of fossil fuels and emit no air pollution of greenhouse gases, In the US, wind plants have offset the emission of than 2.5 billion pounds of carbon dioxide, and 15 million pounds of other pollutants. Also, wind energy is free: the cost of installation and maintenance has dramatically decreased in recent years and future technology ensures only a continual decrease in the prices. As a result, the lifetime investment is much lower than most fossil-fuel systems.

One of the primary disadvantages to wind power is the natural variability of wind in any given locale. Indeed there are certain areas with extremely high average wind speeds, but in most places, wind exposure is quite variable. Wind energy can only be stored with a battery, otherwise it is not. In the latter case, not all energy demands can be met through the natural timing of winds. For these reasons, it may not be a viable option for some. One other disadvantage is the competition for other - more highly valued and profit generating - land uses.

Economic disadvantages include the fact that the initial investment is often higher than fossil fuel systems. The higher costs is mostly due to the machinery which is involves. Other costs include site preparation and installation. The primary environmental drawbacks to wind power are as follows: Noise pollution via the rotor blades Aesthetic impacts (”visual pollution”), and bird deaths.

It is important to keep in mind that many of these problems have been resolved with increasing technology. Avian mortality, however, is still being studied.