Want to get into residential solar panel installation?  Get solar energy training!  Watch this video and where you could be!

Boots on the Roof, one of the best solar/wind training providers in the San Francisco bay area, is currently enrolling students into its upcoming Solar PV and Wind Energy training boot camp.  Students can get certified as solar PV installers. The training program includes hands-on labs, classroom activities focusing on solar electric system design, safety regulations, installation and extra business topics related to photovoltaic.  To learn more about dates, locations, and course details,  click here.

Solar Electricians are the backbone of the solar power industry. After all, photovoltaic solar cells convert sunlight into electricity, and that electricity then must be distributed throughout a building. Attending a solar school to get solar panel installation training rather than a regular vocational school, however, to get an Electrical Engineering degree specializing in solar power will provide you with a strong advantage in getting hired as an electrician in the solar power industry.

Why? The answer is because wiring a building to run off of solar power requires very different technologies and skill sets than wiring a building to run off of the local electrical power grid.

Using local grid power, regular home construction electricians are used to accessing a constant, regulated, steady flow of electricity from the local power grid. All they have to do is distribute that constant flow of electricity throughout the building via the standard residential electrical wiring network.

Solar power, however, is much more complex. Under solar power systems, electricity comes not from the local power grid, but from the sun. Solar panels in the roof convert sunlight to electricity. Consequently, the flow of electricity is neither regulated nor constant. To overcome this problem, electricity generated by the solar panels is stored in battery banks. The batteries, in turn, provide a regulated, steady flow of electricity to the building. If the batteries are depleted, the home electrical network needs to be able to switch seamlessly back over to the local power grid.

All this, obviously, adds an extra layer of complexity to wiring a building’s electrical network. Any electrician specialized in dealing with it will be in high demand in the solar power industry.

How will I use my Solar Power Training Certification–What Does a Solar Electrician Do?

In addition to wiring a home or building with the usual electrical network, a solar electricians must also set up the solar energy battery banks. This is not as easy as it sounds. The solar electrician must know what type of batteries to use, and how many will be needed. If there is more than one battery (as with all but the most basic solar power system there will be), the solar electrician will need to set up load-balancing equipment to charge and deplete the multiple batteries evenly. The electricity will also need to be converted from DC power to the 120-volt AC power used in the building’s wall outlets.

Solar electricians also need to be also to install instrumentation to measure the charge in the battery banks, and control mechanisms to switch over to local grid power when the battery banks are almost drained. Today, very few homes are capable of being powered entirely by solar energy. Most use a combination of solar and grid power, using the solar power produced merely to reduce their monthly power bill.

How Do I Become a Solar Electrician?

At least an Associate’s degree in Electrical Engineering or a related field would be the required to qualify as a Solar Electrician. Obviously, a Bachelor’s or Master’s Degree you be preferable. If possible, attend a solar school rather than a community college or a vocational school program to get solar panel installation training. Not only will a solar school train you in the specializations needed to work with solar power systems, but you’ll learn more about solar power in general. Both of these will make your degree more attractive for a solar power company, and increase your chances of being hired.

Boots on the Roof, a leading Renewable Energy training institute, is enrolling students into its Solar PV Installation Training classes. For more information on qualifications, Training Dates and Locations, click here.

The wind turbine market continues to grow, as more and more people realize the potential of this clean, green method of generating power. Even in the recent economic recession, the wind industry is maintaining strong sales and progress, with growth/loss estimates ranging from a five to ten percent loss to a five to ten percent growth, depending on the company. New rotor models continue to be produced, offering more options for users at low and medium wind speed sites. Wind turbine technology is growing, and just keeps getting better.

Recently displayed models include Vestas new eight hundred fifty kilowatt turbine model with a sixty meter diameter rotor, Fuhrlander’s two and a half megawatt FL 2500 nacelle, and eviag AG’s W100 turbine model. Spanish company mTorres has developed an interesting new one and a half megawatt direct drive turbine that’s also available as a 1.65 MW model with several different diameters to choose from. A larger two and a half megawatt turbine is currently under development, and we expect to see a prototype for it in 2010.

Use of wind power is increasing, with capacity doubling about every three years. Currently, about eighty percent of wind power installations are located in the US and Europe. US states such as Montana, Texas, Minnesota and California are greatly increasing their generation capacity, making the United States the country to add the most wind energy to its grid in recent years. Currently, wind generates about 1% of the total electricity used in the United States.

Many European nations already rely heavily on wind generated power. Germany generates over twenty-five thousand megawatts using wind turbines, and Spain produces close to twenty thousand megawatts. Smaller installations can be found in Italy, France, the UK, Portugal and Denmark. China’s capacity is similar to Germany’s and new installations are going in all the time. India’s wind turbines are currently capable of producing over ten thousand megawatts, and the country ranks fifth in the world in terms of power capacity. These turbines are responsible for three percent of all electricity produced in India.

The high cost of installing turbines remains the biggest barrier to producing wind power on a regular basis. Not as many facilities are capable of producing the largest modern turbines and towers. The growth in wind turbine manufacturers may help drive existing costs down, however. Additionally, new models may be able to decrease the overall cost per kW, as efficiency rises.

Currently, while wind is expected to follow other businesses in troubles caused by the global financial crisis, the overall prospects are good. A BTM Consult forecast up to the year 2013 projects significant growth once the crisis is over – an expected average annual growth of a little over fifteen percent. More than two hundred gigawatts of new capacity are expected to come online before the end of that year.

New wind turbine companies are springing up all the time, and megawatt ratings for industrial turbines are rising. BARD Engineering has announced plans to scale up their five megawatt offshore turbines to six and a half megawatts, and there are rumors that Enercon is testing an eight megawatt version of their existing E-126 onshore turbine. This company currently produces one E-126 turbine per month, and plans to create more as international demand grows. These huge turbines could greatly increase wind power generation capacity.

Wind power is a viable option for replacing current dependence on fossil fuels, and the industry is growing. Growth is expected to continue over the next several years, despite setbacks caused by international financial troubles. National and local governments are realizing the benefits of wind power, and encouraging companies to build new towers and turbines. Wind power could be a big answer to our energy problems.

This is the kind of job most people imagine when they think about a career in renewable energy.  Solar Laboratory Technicians are the scientists working in research & development laboratories for renewable power companies.  They constantly research and invent new and better technologies to generate and utilize green energy sources.

Specifically, Solar Laboratory Technicians pioneer new ways to improve and diversify ways of gathering sunlight, turning it into electricity, storing it, and utilizing that energy.  Similar research & development laboratory positions exist, however, in other areas of the renewable energy economy.  Green power companies involved in wind power, geothermal energy, hydroelectric power, and biomass gases all need research scientists and technology architects.  And this isn’t even mentioning the many other new alternative energy technologies that are currently being explored, but have yet to become well-known household terms.

Obviously, being a Solar Laboratory Technician requires a large amount of detailed knowledge of solar electronics.  The most common and well-known type of solar power systems are photovoltaic solar arrays  that convert sunlight into electricity.  The development of solar cells that can generate more electricity, automatic tracking systems to follow the movement of the sun to optimize the efficiency of solar arrays, and batteries that can store more electricity for longer periods of time are all things that Solar Laboratory Technicians research, build, and test.

There are many other types of non-electric solar power, however, that a Solar Laboratory Technician should be familiar with.  An example is thermal solar cells, which convert sunlight into heat.  Other areas include passive solar systems, an area of research that seeks to optimize variables such as location, weather, architecture, windows, and insulation to heat or cool a building by either absorbing or reflecting sunlight.  Finally, another form of solar energy utilizes focusing lenses and mirrors to concentrate sunlight and thermal energy.  Applications of this technology include warming homes, heating water, and even boiling water for electricity-producing steam turbines.

Requirements for Becoming a Solar Laboratory Technician

Obviously, Solar Laboratory Technicians must possess a greater knowledge of solar power systems that solar panel installer-roofer or maintenance technician.  In fact, Solar Laboratory Technicians require some of highest education and most thorough training of all careers in the green energy economy.  Solar Laboratory Technicians need to understand applied and theoretical science, as well was the design, development, engineering, construction, and testing of electronics, particularly electrical power systems.

Solar Laboratory Technicians should also have practical experience using scientific equipment, tools, and instrumentation.  Advanced mathematics, including calculus and statistical methods and applications, will most likely be a prerequisite.  The ability to read, interpret, analyze, and compile scientific data, charts, and graphs is also necessary.

To become a Solar Laboratory Technician, you would need at least a Bachelor’s degree in physics, chemistry, engineering, or material science.  A Graduate degree in any of there fields would be better.  Some companies might also accept an Associate’s degree if combined with at least two or more years of work experience in this field.

Boots on the Roof, a leading Renewable energy training institute, is enrolling students into its Alternative Energy Training classes. For more information on qualifications, Training Dates and Locations, click here.

Watch President Obama’s speech on Jobs and Clean Energy.  See why it’s important to get solar energy training now.

Boots on the Roof, one of the best solar/wind training providers in the San Francisco bay area, is currently enrolling students into its upcoming Solar PV and Wind Energy training boot camp.  Students can get certified as solar PV installers. The training program includes hands-on labs, classroom activities focusing on solar electric system design, safety regulations, installation and extra business topics related to photovoltaic.  To learn more about dates, locations, and course details,  click here.

Don’t be fooled by the fancy title.  Solar Fabrication Technicians are essentially specialized construction workers for the rapidly growing green economy.  These are the people who build and erect the solar panels of sun farms.

It is important to point out this is an industrial, not residential, construction job.  Being a residential Solar Fabrication Technician (usually referred to as Solar Installer-Roofers) requires a slightly different skill set.  Residential solar fabrication involves a lot of retrofitting solar power systems into existing buildings.  This most commonly involves setting up solar panels on the roof and wiring them into the building’s electrical power grid.  Consequently, residential Solar Fabrication Technicians are a combination of carpenter, roofer, and electrician.  Industrial Solar Fabrication Technicians, in contrast, work more with metal, concrete, and heavy construction equipment.

Being an industrial Solar Fabrication Technician involves a slightly different set of trade skills than residential technicians.  It involves less carpentry and more metalworking.  Furthermore, on an industrial scale, construction positions are more specialized.  Industrial Solar Fabrication Technicians build and erect freestanding solar collectors and can leave the wiring to the electricians.

Solar Fabrication Technicians need to be proficient in working with metal sheeting and tubing, usually steel and copper.  You must be able to cut, bend, file, drill, rivet, weld, and paint metal, using machine shop equipment such as jigsaws and band saws, drill presses, power brakes, pneumatic drills, and rivet guns.

Requirements for Becoming a Solar Fabrication Technician

A Solar Fabrication Technician is one of the careers in the green power segment that doesn’t necessarily require a college degree.  Work experience and training in construction and the trades are more that sufficient.  You’ll need to complete either a vocational school program, or a trade apprenticeship program in an area such as metalworking or pipefitting.  Even if you haven’t completed such a program, enough years of work experience in the trades may be enough to qualify you for a position as a Solar Fabrication Technician.

That being said, an academic degree certainly doesn’t hurt.  In some sun farms, the solar panels are mobile, designed to be able to tilt and rotate to follow the sun across the sky to collect the most direct sunlight.  In such cases, Solar Fabrication Technician positions might require varying degrees of mechanical aptitude as well and trade skills. An Associate’s or even Bachelor’s degree in engineering or material science would certainly increase your chances of landing a Solar Fabrication Technician position at such a sun farm.  It would also help you get promoted to foreman or other supervisory positions.

If you are looking for a job in the green economy, keep in mind that a Solar Fabrication Technician job is mostly a construction position.  If you take pride in your craft, are willing and able to perform sometimes strenuous manual labor, and don’t mind working outdoors in potentially very hot weather (most sun farms are located in California and the Southwestern deserts for obvious reasons), then you’d be a good fit for the Solar Fabrication Technician job.

Boots on the Roof, a leading Renewable energy training institute, is enrolling students into its Alternative Energy Training classes. For more information on qualifications, Training Dates and Locations, click here.

What Is a Solar Installer-Roofer?

Solar Installer-Roofers are the people who install solar panels and solar cells in the roofs of residential and commercial buildings.  Currently, trained, qualified Solar Roofers are hard to come by these days, even in our quickly growing “green” economy.  Why?  Because a Solar Roofer must not only possess the trade skills and construction experience of a roofer, but must also be a competent solar electrician.

Solar Roofs

There are basically two different types of solar roofing jobs being done today: retrofitting and integrated.  Retrofitting is installing a solar panel on an existing roof.  Integrating is incorporating solar cells and panels into a new roof being built.

Solar electrician skills are less important for retrofitting solar roofing.  This is a relatively easy job.  It basically consists of mounting one or more solar panels on an existing roof, and feeding the wiring though the roof to the battery banks.  A regular roofer could do this, and leave the wiring to an electrician.

Retrofitted solar roofs, however, have many drawbacks.  Solar panels are bulky, more exposed to the elements of wind, rain, and snow, and many consider them to be an eyesore that drags down property values.  Consequently, integrated solar roofing has become increasingly popular.  The solar panels are actually built into the roof, the sides more or less flush with the rest of the roof.  Such solar panels are less exposed to harsh weather and more aesthetically pleasing.  It’s still obvious, however, that you have solar panels on your roof.

To compensate for this problem, solar cell manufactures have started producing “solar shingles.”  These are specialized roofing shingles that have photovoltaic solar cells built into them, but otherwise appear to be the same shape, size, and color as regular asphalt shingles.  Solar shingles can provide an entire building roof that is essentially one big solar panel, but (from a distance, at least) looks like any other roof.  Although solar shingle roofs are increasingly popular, they have also increased the demand for Solar Installer-Roofers.

Unlike solar panels in which all the solar cells are already wired together, solar shingles must be wired together into a solar array as they are applied to the roof.  Furthermore, the solar shingles need to be installed and wired together before the rest of the roof is installed with regular shingles, so that the wires from the solar shingles can be run along the ridge cap of the roof, where they are hidden from sight and protected from harsh weather.

Requirements for Becoming a Solar Installer-Roofer

Solar Installer-Roofers are usually made rather than found.  Unfortunately, few people today possess both roofing trade skills and solar electronics training.  Therefore, solar roofing companies either hire roofers and train them to be solar electricians or hire solar electricians and train them to install roofs.

If you are already a roofer, enter a two-year program in electrical engineering at a community college or vocational school.  Another option is an electrician apprenticeship trade program.  Either way, this should give you the electrical knowledge and experience necessary to qualify for a Solar Installer-Roofer position.  For there, your employer should train you on the specifics of their methods and equipment.

On the other hand, if you are already have an Associates or Bachelors in electrical engineering, or are a certified electrician, you’ll need to train to become a roofer as well.  Vocational schools should at least offer a few classes in this construction skill, and some might even offer full programs.  Another route is to enter a roofing apprenticeship trade program.

Boots on the Roof, a leading Renewable energy training institute, is enrolling students into its Alternative Energy Training classes. For more information on qualifications, Training Dates and Locations, click here.

Nowadays, an education is a means to an end. Of course, the end is securing a well-paying job although helping your environment and helping your fellowman while you are helping yourself is a good proposition. This is exactly what you will get from your solar school education!

With your education, you can earn anywhere from $31,200-$60,000 per year with solar engineers earning as much as $80,000. Now, that’s a good living any way you look at it while you are doing good things for the environment! However, to maximize your education, there are three things you must do.

Get Busy!

The solar sector of the renewable energy industry is one of its fastest growing areas. In fact, the Department of Energy’s Solar America Initiative predicts that solar power shall be a competitive energy source for commercial electricity by 2015! As such, many job opportunities are available for professionals who possess the right kind of qualifications. Therefore, professionals must get busy with acquiring more knowledge and more experience either from getting a solar school education or from the field.

If you cannot secure a job within the solar sector, volunteering in establishments that are solar-friendly can boost your résumé. If you have spare time, learn all you can about the industry through trade journals. If you must, take the low-paying job being offered just because it provides for entry into the solar sector. The point is to get busy expanding your network, your knowledge and your experience. Eventually, you will get noticed by the top honchos of the company and the sector you want to work in.

Get Noticed!

Even when you have attained good performance marks in your solar school education, you still need to get noticed by the solar industry. There are many ways to achieve this goal although you have to put your personal twist on them.

• First, you must attend industry conventions. These are venues where professionals converge to discuss the concerns and directions of the solar industry, which are also often excellent sources for employers to source out prospective employees. At the very least, you can distribute business cards and résumés to the people who matter in the industry.
• Second, you must build a good reputation within the industry. At present, the solar sector is sufficiently small to allow for an atmosphere of almost-everybody-knows-almost-everybody to pervade. As such, good word of mouth advertising as well as official recommendations from former employers and co-workers will provide for more job opportunities.

Again, the point is to get noticed in a positive way. It will not just be your education from a prestigious solar school that matters, but your personal and professional track record will matter, too!

Get Updated!

As usually happens, fast growth means fast obsolescence and fast turnover. As such, the solar industry is always on the lookout for newer, bigger and better technologies and applications.

In turn, the professionals must be constantly updated on these new technologies. It is a challenge that creates new business opportunities. It is fast growth that requires new knowledge. In short, the more you know of the latest in solar technologies and events, the more opportunities you have to maximize your solar school education!

Truly, solar education must be maximized not only for the sake of financial stability and career advancement but because it paves the way for a brighter and cleaner future.
Boots on the Roof is currently enrolling students into its upcoming Solar PV training boot camp. To learn more about dates, locations, and course details,  click here

There is an overwhelming need in our country for people who have advanced educations in the renewable energy industry. Not only is the demand for this energy higher than ever, those professionals already in the field are nearing retirement and suitable replacements will be needed. It is estimated that there will be over 100,000 positions to be filled.

Solar energy education is flourishing. Educational institutes have recognized the need to included solar energy education programsdue to the increased need for well training professionals in the solar energy industry. There are programs that offer certificates all the way up to four year degrees and beyond.

Solar energy education is not only for those looking to start a profession in the industry. Many homeowners are getting solar energy education to learn how to install and maintain solar energy systems for their homes. There are basic courses designed for these individuals. These programs will teach them the basics of how to install a variety of solar energy systems, the state codes they must follow and the specifics for their area. They also teach them how to be able to repair and maintain all part of their home’s system.

Engineering degrees are very valuable and these professionals are in high demand. Also degrees that focus on research and development have growing demands as companies are looking to make solar power more efficient. An environmental internship can be a helpful addition to a solar energy education program. Internships allow you to prove that you can be a valuable player at a company. It will give you invaluable experience and additional trainings that will give you the edge over your competition who are entering the solar energy industry.

Boots on the Roof, a leading Renewable energy training institute, is enrolling students into its Solar PV Training classes. For more information on qualifications, Training Dates and Locations, click here.

See these Solar Panel Installers at work!  Watch:

http://www.youtube.com/watch?v=fBDB2aD1JIQ

Boots on the Roof, a leading Renewable energy training institute, is enrolling students into its Solar PV Training classes. For more information on qualifications, Training Dates and Locations, click here.