Wednesday, October 21, 2015

Pennsylvania’s Alternative Energy Portfolio Standard

Pennsylvania has a robust renewable energy market and is part of one of the largest mandated solar photovoltaic markets in the United States, along with the surrounding states of Maryland, Delaware, New Jersey and New York. Each of these states also has large solar photovoltaic requirements in their Alternative Energy Portfolio Standard (AEPS).
The Roots of Pennsylvania Solar
In 2004, the Pennsylvania General Assembly passed a law, AEPS Act 213, which required that an annually increasing percentage of electricity sold to retail customers in Pennsylvania come from alternative energy sources. The law requires that 18 percent of electricity sold at retail in the Commonwealth of Pennsylvania to be generated by alternative energy sources by 2021. This includes a “Solar Share” of 0.5%, which equates to 863 MW from solar photovoltaic (PV) energy.
Alternative Energy Credits (AECs)
The AEPS program requires that retail energy suppliers utilize Alternative Energy Credits (AECs) for demonstrating compliance with the standard. An AEC is created each time a qualified alternative energy facility produces 1000 kWh of electricity. The AEC is then be sold or traded separately from the power. This makes it easy for individuals and businesses to finance and invest in clean, emission free solar power.
Pennsylvania Solar Industry Facts
  • Pennsylvania is one of the largest solar employers in the nation as home to more than 471 solar businesses.
  • Throughout the value chain, 2800 people are employed.
  • 10MW of solar electric capacity was installed in 2014 in Pennsylvania
  • With 249MW of solar energy currently installed in Pennsylvania, there’s enough solar power installed to power 29,000 homes.
  • Recognizing the value and potential of solar photovoltaics (PV) to provide reliable, emissions-free, distributed electricity, the Commonwealth of Pennsylvania’s state government is clearly leading by example with nearly 30% of its electricity needs coming from renewable energy sources.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Tuesday, October 20, 2015

Is Rooftop Solar Catching Fire – Literally?

In May of 2015, a rooftop solar fire was ignited by the solar panels on the roof of an Apple-owned facility in Mesa, Arizona. That begs to question, with growing demand for green energy, what are the real risks of solar installation catching fire on a rooftop?
Utility scale and commercial rooftop solar power is becoming more prevalent as the United States and individual corporations look to reduce their dependence on fossil fuels. Rooftop solar photovoltaic (PV) farms consisting of solar panels are an excellent way to introduce clean, renewable energy and utilize unused rooftop space; however, these renewable power plants introduce new challenges to solar manufacturers, system engineers, O&M companies, and fire fighters.
Research conducted two years ago indicated that rooftop solar-caused fires are very rare. A German study found approximately 75 instances out of some 1.3 million installations, while a study in the United States found only 7 instances in the entire country. While rare, the potential for a rooftop solar fire still exists and with the number of renewable energy systems growing daily, the risk grows exponentially.
What Can Cause Rooftop Solar Fires
It all starts with the components of both the solar array and the roof. Mounting solar panels and system components on the roof of a building can affect the combustibility of the overall roof system. Here’s what can happen:
In a combiner box, numerous wires from PV panels are connected. It is here that there is considerable voltage before the current is converted from DC to AC at the inverter. Electrical arcs near the combiner box can cause the PV panels to ignite as the backings of some panels are constructed of highly combustible plastic. Once the electrical arcs ignite the roof assembly, the fire can quickly spread under the solar panels and potentially across the entire rooftop.
How System Engineers Avoid Rooftop Solar Fires
When designing a solar array, there are several factors that can help prevent fires and/or can limit fire spread if ignition occurs:
  • Using a complete system that has been tested to simulate actual field conditions.
  • Avoiding installation of PV system on an older rooftop and choosing roof assemblies that limit potential fuel contribution in the event of a fire.
  • Investigating the need to coat the roof in expanded or extruded polystyrene insulation or multi-ply roof covers.
  • Securing mineral wool or other fire-resistant compressible insulation between wood nailers, covered by steel flashing.
  • Evaluating the underside of the PV panel for the least combustible material usage.
  • Utilizing PV panels that have passed fire tests that include testing with the proposed roof assembly.
How O&M Providers Avoid Rooftop Solar Fires
Once a solar array is installed, it’s up to a Solar Operations and Maintenance (O&M) service company to keep the system safely performing at optimal levels. To do this, the O&M Company will need to perform regular, scheduledpreventative maintenance, provide emergency services, monitor the system and audit its solar energy production.
Visual Inspection
Attention to every detail is critical in the operation and maintenance of a solar power plant. Something as simple as a regular visual inspection can prevent the system from being damaged by rodents and other pests, which could compromise wiring or insulation.
Repairs & Replacement
As manufacturers are taking steps to reduce the potential for fire by improving upon the electrical components, it is also important for O&M companies to keep up with these developments, as well as new code requirements. Repairs or replacements as recommended by the original equipment manufacturers (OEM) and governing bodies should be conducted in a timely manner. While some of these issues may be warranty related and some may simply be upgrades or more advanced technology – others can be critical at preventing system failure, fire or other safety hazard. Some examples are:
Micro-Inverters
Some solar panels now have micro-inverters on each PV panel, which convert voltage from DC to AC. While this can be expensive to implement in a solar power plant, it will reduce the change of a fire igniting on a rooftop PV solar array.
Arc Fault Detectors
Arc faults are caused by air gaps between electrical conductors. The most common causes are faulty manufacturing, installer error, or aging, degraded connectors. Electrical current flowing across this type of loose connection produces sparks which could cause a fire.
An arc fault current interrupter (AFCI) senses the DC current coming into inverters in smaller arrays or into combiner boxes in commercial and utility-scale systems. The increased electrical noise of an arc fault will trigger a system shutdown before it causes a fire.
These devices can be added to a solar installation by an O&M service company for a cost of anywhere from $25 and $100 to each inverter string. While the 2011 National Electrical Code (NEC) requires AFCIs in rooftop solar arrays, states are allowed to implement NEC requirements at their own pace.
Monitoring Systems
To further protect against the potential for arc faults, the O&M Company managing the installation should be monitoring for signs of future arc-fault failures and preventative maintenance should be conducted to prevent fires.
Preparedness In Case of Rooftop Solar Fire
Regardless of the materials used in the construction of a PV panel, system, or the roof, its mere presence changes the dynamic of a fire involving a roof assembly. Fire fighters and other emergency first responder personnel need to understand and be prepared with adequate training with these unfamiliar hazards. Instruction is needed on structural fire fighting in buildings and structures involving solar power systems that utilize solar panels to generate thermal and/or electrical energy. Some of the training needed involves:
  • Ventilation – Firefighters need to be aware that they may be limited in where they can cut and it can take longer to cut ventilation holes in roofs with solar panels covering the surface.
  • Electrocution – When high-pressure water is trained on the roof, there is the potential for electrocution. Additionally, opening holes in the ceiling or attic space from the inside of a building may put firefighters in contact with metal conduit that is no longer grounded due to partial roof collapse or heat damage and therefore dangerous to touch.
  • Roof Collapse – Due to the additional weight on a roof, solar panels may increase the risk of roof collapse.
  • Exiting Roof – With the presence of rooftop-mounted PV arrays, it may limit the areas in which firefighters can exit the roof.
In conclusion, as rooftop solar arrays continue to proliferate, the solar industry and those involved in emergency response need to be keenly aware of the risks, the challenges and the new technology developments as they continue to collaborate to keep safety at the forefront of renewable energy generation.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Monday, October 19, 2015

Solar News – Obama’s Climate Action Plan

On Wednesday, September 16th, 2015, the United States Department of Energy announced that researchers developing new solar power technology would receive more than $100 million in grants from the federal government as part of the Obama administrations Climate Action Plan. These grants are to fund research in finding ways to reduce the cost of solar power and expand access to low-carbon energy.
Of the grants announced Wednesday, $32 million will be used on 14 projects researching how to improve the performance and efficiency of concentrating solar power plants. Some of these projects include:
  • Using mirrors to concentrate reflected sunlight on a central point and then storing that energy in molten salt.
  • A new thermal energy storage system that would boost the amount of energy concentrated solar plants are able to store, so solar power can be used when the sun isn’t shining. This project will use new highly conductive materials to make concentrating solar plants more efficient.
  • Finding ways to improve photovoltaic performance and reliability and reduce the cost of solar photovoltaic panels, which are already rapidly becoming less expensive.
An additional $7 million is being spent on researching ways to slow solar panel deterioration over time.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Friday, October 16, 2015

Creating a Clean Energy Economy

Earlier this year, the President of the United States announced a new goal to increase the share of renewables –beyond hydropower – in the U.S. electrical generation mix to the level of 20 percent by 2030. The solar industry has a big stake in this initiative. Let’s take a look at the facts about what has been happening in the solar industry:
Rapid Solar Growth
  • The use of renewable energy technologies has increased dramatically over the past several years, in terms of overall capacity of the generation and in the overall amount of renewable electricity generated.
  • The total amount of electricity generated at utility scale facilities (those which have a capacity of more than 1 megawatt) from renewables has tripled since 2008. All while costs have fallen.
  •  Last year, the United States commissioned as much solar energy every three weeks as it did in all of 2008. Plus, jobs in the solar industry were added at a rate 10 times faster than the rest of the economy.
  • Since the beginning of 2010, the average cost of a solar electric system has dropped by 50 percent. In fact, distributed solar prices fell 10 to 20 percent in 2014 alone and currently 44 states have pricing structures that encourage increased penetration of distributed energy resources.
  • In the past five years alone, the solar industry has grown 86 percent. Worldwide in 2014, a record amount of solar power was added to the world grid, pushing the total cumulative capacity to 100 times the level it was in 2000.
Why is Solar Power an Important Renewable Energy Source?
Through the use of solar power, the U.S. gains energy independence and increase its energy security while bolstering job creation and combatting climate change.
Today’s solar industry is also adding jobs ten times faster than the rest of the economy – all while cutting emissions and combatting climate change.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Thursday, October 15, 2015

What is the SunShot Initiative?

Created in 2010 by the U.S. Department of Energy (DOE), the SunShot Initiative drives research, manufacturing, and market solutions to make solar energy resources more accessible and more affordable for Americans. This national collaborative effort aims to reduce the total installed cost of solar energy systems to $.06 per kilowatt-hour (kWh) within a decade, by 2020.
Specific Goals of the SunShot Initiative
  • To make low-cost, clean, reliable solar energy available for homeowners, businesses, communities, and government.
  • To reduce greenhouse gas missions (GHG) and other pollutants
  • To create jobs in the United States through domestic solar manufacturing and distribution.
SunShot’s Mission
Sunshot’s Mission is to make it faster, easier, and cheaper for Americans to choose solar energy in their daily lives.
To learn more about more recent developments in the Sunshot Initiative, view the 2014 SunShot Initiative Portfolio Book now.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Wednesday, October 14, 2015

Forget Solar Incentives Think Solar Initiatives

In 2010, the SunShot Initiative fueled renewable energy growth while moving away from solar incentives and working toward solar initiatives.
Scientists driven to increasing efficiency rates and making technology advancements whilst businesses and residents were being egged on to install solar by solar incentives were previously propelling the solar industry. The SunShot Initiative set out to make solar power cost-competitive with traditional energy sources, without solar incentives by 2020. It’s no surprise then that while the price of installing solar power has been declining, solar incentives provided through state governments and utility companies have been dropping off substantially when compared to those from ten years ago. This data comes from the Lawrence Berkeley National Lab who surveyed eighty percent of all U.S. residential and non-residential photovoltaic systems.
Are Solar Incentives Dead?
While, in general, solar incentives are trending downward, some states are still pushing for new programs to sustain renewable energy growth to restore shrinking businesses and fuel job growth.
Not too long ago, New Jersey was second in the country as a solar state; the state is now in seventh place. To give the states solar industry another boost, New Jersey Assemblyman Tim Eustace wants to jumpstart New Jersey’s fading solar energy effort with new incentives for areas of the state where solar is most needed. Under his bill, homeowners and businesses in five areas of New Jersey where electric grid congestion is at its worst would be offered a 15 percent incentive to install a solar system, and $1.50 per watt of energy produced by that system.
New Jersey’s incentives fit nicely in with the executive actions and private sector commitments President Obama recently announced. These initiatives will not only continue to promote the use and development of smart, simple, low-cost technologies to help Americans save on their energy bills, but they will also help enable all income classes access to solar while helping the country transition to cleaner, and more distributed energy resources.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Tuesday, October 13, 2015

Will the U.S. Reach it’s SunShot Initiative 2020 Goals?

At the halfway mark of the President’s decade-long SunShot Initiative, the solar industry is already approaching the 70 percent mark to achieving SunShot’s goal to make solar power fully cost-competitive with traditional energy sources, without solar incentives, by 2020.
Take a look at what’s been happening in the solar industry and what the SunShot Initiative 2020 goal is driving:
Decreasing Solar Costs
Steep reductions in module prices primarily drove down the cost of residential solar between 2008 and 2012, but in the years since then, reductions are coming from lowering soft costs. For utility scale solar, PV costs have decreased by nearly 60 percent. These falling utility costs have allowed a series of new record low power purchase agreements (PPAs) during the past two years. Included in these PPAs are numerous contract announcements coming in at or below 5 cents per kilowatt-hour.
Increasing Solar Capacity
The Department of Energy’s SunShot Initiative is paying off. The 2014-year was a record breaking one for solar installations in the United States, up nearly 40 percent over 2013 with 20 gigawatts of installed capacity. That’s enough power to provide electricity to approximately 4 million homes.
New Solar Projects
The United States has become the third largest solar market in the world. Currently there are approximately 800,000 solar projects operating across the country. And, of all of the new electric generating projects coming online during 2014, solar represented 32 percent of them in the United States.
Creating Solar Jobs
The number of solar projects being installed, commissioned, and then need ongoing operations and maintenance (O&M) is rapidly increasing. With that increase comes the creation of solar jobs.
The solar industry in the United States employs nearly 174,000 workers. This figure is up 22 percent over 2013. By 2020, to reach the Administration’s goal, nearly 75,000 workers need to be trained.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Friday, October 9, 2015

What You May Not Know About Solar

Have you been following the solar industry? Here are some facts that you may not have know about solar:
Did you know…
By the fourth quarter of 2014 there was over 20,000 MW of cumulative solar electric capacity operating in the United States? This is enough solar energy to power more than 4 million average American homes.

Did you know…
Residential solar costs have dropped by 45% since 2010, but utility-scale costs have dropped even more. Recent contract pricing reports below $0.05/kWh.

Did you know…
The United States existing solar capacity is expected to double over the next two years with approximately 20,000 MW of solar capacity forecasted to come online.

Did you know…
More than 16 states are excepting to have installed 100MW by 2016. In 2014 only 9 states reached this level.

Did you know…
Major U.S. corporations are going solar at an extremely fast rate. The top 25 corporations who have installed solar add up to more than 569 MW of capacity in over 1,100 different facilities across the United States. These top corporations have more than doubled their solar capacity since 2012.

Did you know…
Since 2012, the average price of a commissioned commercial solar photovoltaic (PV) project has dropped by more than 45%.

Did you know…
There are almost 4,000 primary and secondary schools in the United States with solar installations. This means more than 2.7 million students attend schools who support solar.

Did you know…
By the end of 2014, California lead the nation with 3549 MW of installed solar PV. North Carolina came in second place with 397 MW, followed by Nevada with 339MW.

Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.
*References – SEIA.org

Thursday, October 8, 2015

Making Solar Accessible

A standout fact about The White House’s solar initiatives announced earlier this summer is that they focus on making solar accessible to everyone, no matter what income class. Previously, access to solar power has been largely skewed toward affluent households.
Low-income households often face many barriers to going solar. Not only are they less likely to own their own home, they are less able to take out loans or access other financing options for solar and more likely to have subsidized utility bills. However, the need to be able to generate their own electricity is higher considering the disparity between their income and their energy bills.
Solar Initiatives for Accessible Solar
The White House’s solar initiatives strive to triple the target for solar on federally subsidized housing to 300 megawatts by 2020. They also direct the Department of Housing and Urban Development to provide technical guidance for state and local housing authorities on how to go solar. As an integral part of these new solar initiatives, The White House also announced more than $520 million in commitments from private companies, investors, NGOs, and state and local governments to pay for energy efficiency and solar projects for low-income households.
These new solar initiatives also place an emphasis on community solar, in which groups of households pool resources to build and maintain a shared solar system in their neighborhood.
Solar for Low-Income Housing
Several power companies and other states are working to find ways to support solar for low-income housing:
  • Arizona Public Service, a Phoenix-area utility, recently launched a $28.5 million program to install its own solar panels on rooftops in its service area, specifically targeting low-income households.
  • Con Ed, the power company serving most of New York City, plans to spend $250 million on such upgrades in Brooklyn and Queens, as an alternative to a $1 billion upgrade to the old natural gas-fired electric grid.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.
Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com or call 610-832-1000.

Solar Energy Timeline

Harnessing solar power isn’t a new concept. It’s roots date back to the 7th Century B.C. and continues to develop even today. Solar technology has come a long way from concentrating the sun’s heat with glass and mirrors to generate fire; today we use solar power to generate energy for everything from solar-powered vehicles, to solar-powered buildings.
Take a look at some milestones in the development of solar energy and its technology:
7th Century B.C. – Magnifying glass used to concentrate sun’s rays to make fire and to burn ants.
3rd Century B.C. – Romans and Greets light torches for religious purposes using burning mirrors.
2nd Century B.C. – Archimedes, a Greek scientist, used the reflective properties of bonze shields to focus sunlight and set wooden ships on fire as early as 212 B.C.
1767 – Horace de Saussure, a Swiss scientist was credited with building the world’s first solar collector.
1816 – On September 27, 1816, Robert Stirling applied for a patent for his Economiser at the Chancery in Edinburgh, Scotland. He built these heat engines in his home workshop. This engine was later used in the dish/Stirling system, a solar thermal electric technology that concentrates the sun’s thermal energy in order to produce power.
1830’s – Sir John Herschel used Swiss scientist Horace de Saussure’s solar collector to cook food during his South African expedition.
1839 – French scientist Edmond Becquerel observes the first photovoltaic reaction while experimenting with an electrolytic cell made up of two metal electrodes placed in an electricity-conduction solution. When exposed to light, electricity generation increased.
1873 – Willoughby Smith discovered the photoconductivity of selenium.
1876 – William Grylls Adams and Richard Evan Day discover that selenium produces electricity when exposed to light. Although selenium solar cells failed to convert enough sunlight to power electrical equipment, they proved that a solid material could change light into energy without heat or moving parts.
1883 – An American inventor, Charles Fritts, described the first solar cells made from selenium wafers.
1891 – Clarence Kemp, a Baltimore inventor patented the first commercial solar water heater.
1905 – Albert Einstein catches wind of what’s happening and writes a landmark paper on the photoelectric effect, along with a paper on his theory of relativity. He wins the Nobel Prize (twenty years later) for his work.
1916 – Robert Millikan provided experimental proof of the photoelectric effect.
1954 – The New York Times celebrates the ‘Limitless Energy of the Sun’ when the 6% efficient solar cell is announced.
1958 – Hoffman Electronics achieves 9% efficient photovoltaic cells.
1962 – Bell Telephone Laboratories launches the first telecommunications satellite, the Telestar (initial power 14 watts).
1963 – Japan installs the world’s largest solar array, a 242-watt photovoltaic system, on a lighthouse.
1964 – NASA launches the first Nimbus spacecraft – a satellite powered by a 470-watt photovoltaic array.
1968 – The first wearable solar device – the solar powered wristwatch hits the streets.
1973 – The University of Delaware builds “Solar One,” one of the world’s first photovoltaic (PV) powered residences
1977 – Solar panels are installed on the roof of the United States White House.
1978 – Mini PV panels appear on calculators, now we can do long tricky sums way out in the desert
1980 – At the University of Delaware, the first thin-film solar cell exceeds 10% efficiency using copper sulfide/cadmium sulfide. Also that year, ARCO Solar becomes the first company to produce more than 1 megawatt of photovoltaic modules in one year.
1982 – Hans Tholstrup drives the first solar-powered car almost 2,800 miles between Sydney and Perth, Australia. Worldwide photovoltaic production exceeds 9.3 megawatts.
1992 – University of South Florida develops a 15.8% efficient thin-film photovoltaic cell made of cadmium telluride.
1994 – The first solar dish generator using a free-piston Stirling engine is tied to a utility grid.
1999 – Construction was completed on 4 Times Square, the tallest skyscraper built in the 1990s in New York City. It incorporates more energy-efficient building techniques than any other commercial skyscraper and also includes building-integrated photovoltaic (BIPV) panels on the 37th through 43rd floors on the south and west-facing facades that produce a portion of the buildings power.
1999 – Worldwide, a 1000 megawatts of PV power has been installed.
2002 -The largest solar power facility in the Northwest, the 38.7-kilowatt White Bluffs Solar Station goes online in Richland, Washington.
2004 – The solar roofs initiative proposed by Governor Schwarzenegger, meaning 1,000,000 people will have their homes powered by solar.
2005 – The PV Industry in China employs 13,810 people, at this stage.
2007 – “A comprehensive energy project that will pay for itself in a few years,” says the Vatican about its new solar power plan.
2007 – Google launches a massive solar panel project.
2007 – The race heat ups to produce the most efficient solar panel at this point, efficiency rates are around 40%.
2007 – Solar Aid, to end Africa’s dependence on the harmful and expensive kerosene lamp, launches ‘The Ravi’ solar lamp.
2011 – Fukushima nuclear disaster causes Germany to ditch its nuclear program in favor of renewables, with emphasis on solar PV.
2012 – On a sunny day in Germany, solar power produces 22 Gigawatts per hour, about the same as 20 nuclear power stations, enough for 50% of the entire county.
2012 – At this point in time there are about 288,000 solar projects in the United Kingdom.
2012 – US Government declares that the sun will power 4 million homes by 2020.
2013 – India’s first solar-powered ATMs are installed.
2013 – Spain is now generating more than 50% of its power through renewables. Renewables supply approximately 19% of the world’s final energy consumption.
2014 – In 2014, the U.S. solar industry achieved another record year growing by 34% over 2013. The country installed nearly 7.000 megawatts (MW) of solar electric capacity.

What Is The Future for Solar Energy?
  • Solar power has been a growing form of renewable energy, especially in recent years, largely attributed to government tax incentives such as solar rebates, solar tax credits and feed-in tariffs.
  • As the solar industry grows, it benefits the economy, employing nearly 174,000 solar workers in the United States.
  • Roughly 20,000 MW of solar capacity is forecasted to come online over the next two years, doubling the country’s existing solar capacity.
Miller Bros. Solar (MBS) is a chosen leader in operations and maintenance (O&M) solutions due to the company’s project expertise, full construction capabilities, and 160+ pieces of heavy equipment. MBS is one of the few electrical contractors that can simultaneously self-perform multiple utility scale solar projects while exceeding client expectations, controlling costs and adhering to timelines and customer schedules.Miller Bros. Solar provides O&M services for solar projects in the following states: Connecticut, Delaware, Ohio, Georgia, Indiana, Maryland, Massachusetts, New Hampshire, New Jersey, New York, North Carolina, Pennsylvania, Rhode Island, South Carolina, Vermont, Virginia, and West Virginia.
For more information, visit http://millerbrossolar.com/ or call 610-832-1000.