SMA America’s Solar Academy curriculum consists of a broad range of seminars and webinars covering grid-tied and off-grid products, commercial and utility systems, communication devices, sales and marketing, code compliance and installation best practices. Most live classes qualify for North American Board of Certified Energy Practitioners (NABCEP) continuing education credit. Classes are held at SMA America headquarters in California as well as at rotating sites all over North America.

Upcoming training opportunities:

November 5

Sunny Boy O&M: Protecting Your Investment Webinar

November 12

Installation: Sunny Boy 240-US Micro Inverter Virtual Hands-on Installation Webinar

November 19

Virtual Hands-on: Sunny Boy with Secure Power Supply Installation and Commissioning Webinar

December 3

Virtual Hands-on: Sunny Tripower Installation and Commissioning Webinar

December 10

Product Fundamentals: Large-Scale PV Using the New Sunny Central CP Family Webinar

December 17

SB240 Micro Inverter Module Level Monitoring Webinar

Solar Power World

The City of Lancaster in Los Angeles County unveiled an energy storage system at the Lancaster Museum of Art & History (MOAH). The City and partner Green Charge Networks also unveiled Lancaster’s first Electric Vehicle (EV) fast charging station, located in MOAH’s parking lot. In its ongoing pursuit of optimal economic and environmental efficiencies, the City is constantly working to maximize the use of alternative energy and green technologies. With the help of a California Energy Commission grant, Green Charge Networks, a leading California energy storage company, installed both the new storage system and EV fast charging station.

“The City of Lancaster prides itself in utilizing cutting edge technologies. It is great to see these technologies installed and operational right here in the heart of our downtown,” said Lancaster Mayor R. Rex Parris.

MOAH’s new energy storage system is an important addition to Lancaster’s alternative energy efforts. The system stores energy to be used at peak times, thus offsetting ever-increasing demand charges which continue to spike City-wide electric bills. Over the past decade, demand charges throughout California have grown more than 7% each year – accounting for 50% of the electric bills of many businesses and institutions. Green Charge Networks’ system utilizes proven technology to cut these demand charges by up to 50%. In bringing this energy storage technology to Lancaster, the company helps Lancaster take yet another step toward its goal of becoming America’s first Net-Zero city.

“Green Charge Networks’ GreenStation will reduce the museum’s demand charges thus lowering their operating costs and maximizing the building’s power efficiency,” said Vic Shao, CEO of Green Charge Networks. “Since solar-generated power is now required for new homes in the City of Lancaster, adding intelligent energy storage will save tax dollars while creating a more flexible grid that’s ready to take solar power utilization to the next level.”

The new EV ChadeMO DC fast charging station will also support the City’s green energy efforts, as it is the first EV charger in Lancaster capable of charging compatible electric vehicles to 80% capacity in approximately 30 minutes, roughly a tenth the time that it takes at the seven other public EV chargers in the City. This new EV fast charging station is operated by NRG eVgo and is now available for public use in MOAH’s rear parking lot.

The seven other public EV chargers are conveniently located throughout downtown Lancaster. Three single car chargers are installed in the north parking lot of Lancaster City Hall, while four EV chargers have been installed in the southeast section of the Metrolink Station parking lot, located on Sierra Highway.

“This is yet another example of the City of Lancaster’s dedication to improving power efficiency throughout our community. This new energy storage system will save taxpayer dollars by lowering MOAH’s energy costs,” added Vice Mayor Marvin Crist. “We’ve also made a new charging station available for electric vehicle owners – all via innovative and environmentally conscious technologies. We’d like to thank Green Charge Networks and the California Energy Commission for helping to make this possible.”

The City of Lancaster is a thriving community of nearly 160,000 in northern Los Angeles County. Clean air, attainable housing, wide open spaces, and a close-knit community make Lancaster an ideal place for businesses and families alike. A low cost of doing business, endless potential for growth, and a strong commitment to business from local leaders has twice earned Lancaster the Eddy Award for “Most Business-Friendly City” in Los Angeles County from the Los Angeles County Economic Development Corporation. In addition, Lancaster boasts more than 300 days of sunshine per year, making it the ideal place to pioneer new solar energy technologies. No matter how you look at it, it’s positively clear that Lancaster is the perfect place to live, work and play.

Founded in 2009, Green Charge Networks is a leader in intelligent customer-sited energy storage.  The company gives commercial and industrial businesses, municipalities, and schools control of rising demand rates on their monthly electric bills. Green Charge’s product complements solar PV, electric vehicle charging, and energy efficiency.

Listen to learn more in a podcast here. 

Solar Power World

Solar Power World

Region Solar has completed a 1.004-MW solar photovoltaic ground-mounted system at VizCo’s 26,000 sqft. manufacturing facility in Monticello, Florida. This solar system is projected to produce 1,002,400 kWh of electricity annually, and will be net-metered by Duke Energy.  The array will save 536 tons of CO2 from being emitted and is equal to powering 138 households per year.  Notably, this array was completed in under twelve weeks, from contract signing to commissioning.

Achieving project goals included constructing the galvanized steel racking system, designed by S:Flex Inc., and mounting 3,280 Lightway poly-crystalline modules. The system was designed with forty-five SolarEdge 20k String inverters and 1,640 SolarEdge P700 optimizers.

This array is situated on 4 acres of previous wooded land in Monticello, Florida, roughly 30 miles northeast of the state’s capital, Tallahassee.  The ground cover maintenance is achieved by a flock of grazing sheep.

VizCo, The Visionary Company, produces plastic injection-molded drip pans, alarms and pipe grips for water heaters. Increased production, efficiency, and reducing operational costs drove business owner Chris Cantolino to choose solar photovoltaic to power his manufacturing facility.  Seeking a clean and steady delivery of power through solar, Cantolino looked to combat small energy fluctuations in electrical current which created significant losses in the production process of his injection molded plastics machinery.

Region Solar owner Andrew Tanner said, “To our knowledge, VizCo is the only manufacturing facility in Florida completely powered by solar, through net metering.  Solar is a savvy choice for Florida manufacturers!”

Cantolino is passionate about American manufacturing and being a Florida manufacturer.  “Solar photovoltaic is a smart business choice.  Reducing and controlling operational costs increases a business’s competitive edge.”  In September, Region Solar completed a 150.3 kW rooftop and carport solar photovoltaic system at SimGar, the Simple Garden, in Bradenton, Florida; Cantolino’s second business.

Solar Power World

Supporting the goals of the Obama Administration’s Climate Action Plan, the Energy Department today announced $15 million in available funding to help integrate distributed, on-site solar energy systems into the nation’s electrical grid. With more solar power installed in the United States in the last 18 months than in 30 years prior, solar is shattering records. Since President Obama took office, the amount of solar power installed in the U.S. has increased more than thirteen fold – from 1.2 gigawatts (GW) in 2008 to an estimated 15.9 GW today – enough to power the equivalent of 3.2 million average American homes. As more solar comes online, the Energy Department is working to address the challenges of solar power, such as the variability of available sunshine during the day, and developing solutions to better integrate solar photovoltaics (PV) with electric power systems throughout the grid.

To further spur widespread deployment of safe, reliable, and cost effective solar energy for all Americans, this funding is specifically aimed at supporting projects that enable low-cost, flexible and reliable solutions that successfully integrate solar PV power plants and energy storage. The funding opportunity will tackle the challenge of creating cost-effective and reliable distributed PV and energy storage solutions to help overcome the challenges associated with increased amounts of renewables. Eligible projects include solutions that will help revolutionize distributed PV and energy storage through:

• Advanced operation in conjunction with smart loads and demand response,
• Incorporation of solar and load forecasting,
• Innovative uses of smart components and functionalities, and
• Easily interoperable hardware, software and firmware technologies.

The Energy Department’s Office of Energy Efficiency and Renewable Energy (EERE) accelerates development and deployment of energy efficiency and renewable energy technologies and market-based solutions that strengthen U.S. energy security, environmental quality and economic vitality. EERE’s SunShot Initiative works to make solar energy fully cost-competitive with traditional energy sources by the end of the decade. This funding builds on SunShot’s work to advance solar energy technologies to drive innovations in systems integration technologies that support the deployment of solar energy technologies and the reliability and efficiency of electricity generation, delivery, and use.

Solar Power World

Most people going solar in Massachusetts have household incomes (HHI) of less than $150,000, according to a survey conducted by Top 400 Solar Contractor New England Clean Energy, president Mark Durrenberger. Nearly 250 customers responded to the Hudson-based installer’s survey on HHI. The results show that people purchasing solar electricity systems, with or without financing, cross all income brackets, but predominantly (67 percent) earn less than $150,000 per household.

A full 35% reported earning less than $100,000 a year. Ten percent have HHI under $50,000, and 13 percent earn $200,000 or higher.

Comparing results year by year, from prior to 2010 through 2014, shows that between 59 percent and 78 percent of those going solar each year had HHI of less than $150,000.

“Anti-solar forces in Arizona and other states are claiming solar policies — in particular net metering, which compensates solar owners for their production at retail — benefit the rich at the expense of the poor. This argument assumes only the rich can install solar,” Durrenberger said.

“We knew anecdotally that plenty of middle-class families and retirees on fixed incomes were going solar. Now, we have data confirming that people of all income brackets are installing solar to save and make money. In states with progressive solar policies, like Massachusetts, solar is accessible to virtually anyone with decent credit. Even those without the necessary credit rating, and those with bad roofs or who rent, can access solar today, through community solar gardens and virtual net metering,” Durrenberger said.

“Furthermore, the claim that net metering amounts to a subsidy of solar owners by non-solar owners doesn’t take into account the incredible value solar energy provides to individuals, communities, our economy, our environment and our society. By lowering carbon emissions, solar improves air quality and thus can help reduce healthcare costs. Solar creates local jobs and spurs small business growth. It stabilizes regional energy costs by reducing dependence on imported energy sources. Finally, solar benefits utilities in ways just starting to be quantified. For example, solar increases fuel diversity, puts power generation close to load centers, reduces or eliminates bottle-necks in the grid, and reduces or eliminates utilities’ need to build expensive new infrastructure,” Durrenberger said.

New England Clean Energy’s anonymous, online survey of 460 customers was conducted between October 23 and 29. Of those contacted, 244 completed the survey.

Since being founded in 2006, Hudson, Mass.-based New England Clean Energy has installed more than 450 solar energy systems, and put more solar on Central Massachusetts homes than any other local installer. The company designs, engineers and installs solar electric and solar hot water systems, as well as related products, for homes and businesses.

Solar Power World

NextEra Energy Resources, through its indirect, wholly-owned subsidiaries, has announced construction of two solar photovoltaic (PV) systems on separate sites in southern California. The solar PV systems will be ground mounted on 20-acre privately owned sites in Apple Valley, Calif., and Blythe, Calif.

“We are committed to developing projects that meet customer needs for clean solar energy, whether through distributed solutions or small- and large-scale utility projects,” said Andrew Beebe, vice president, Distributed Generation, for NextEra Energy Resources. “These projects will bring emission-free energy to residents of California while helping the state to achieve its renewable energy goals.”

The projects are part of the California Renewable Energy Small Tariff (CREST) program, a feed-in tariff program for eligible renewable energy projects under 1.5 MW. Southern California Edison will purchase all of the output from the PV systems under the terms of two 20-year power purchase agreements for each site.

Each site consists of two identical 1.5 MW ground-mounted fixed solar systems with a combined total of approximately 23,000 panels installed. These projects are expected to reach commercial operation by the end of 2014 and in the first quarter of 2015, respectively.

NextEra Energy Resources
www.NextEraEnergyResources.com

Solar Power World

Andalay Solar, a designer of integrated solar power systems, displayed three products at Solar Power International 2014 (“SPI”) in Las Vegas, NV.  In addition to the company’s own booth, its products were exhibited in the booths of two separate tier-one module manufacturers.

Andalay displayed its core AC module product as well as two new products: a DC module with an integrated jumper cable and a smart DC module with a DC optimizer integrated into the j-box, a feature which continues the company’s tradition of developing solutions which simplify the labor and reduce the balance of systems parts required for solar installs.  Each of these products incorporate Andalay’s core innovative plug and play technology with integrated wire management and low profile, rail-less mounting hardware.

This is the first time in two years that Andalay Solar has hosted a booth at SPI.  The company received positive customer feedback regarding its new strategy of partnering with tier-one module manufacturers to license Andalay’s patented technology, thereby broadening the availability of Andalay-based solutions in the marketplace.   As a result, Andalay Solar has a number of new prospective customers within the top 20 largest installation companies in the United States who are undergoing technical review and evaluation of its plug and play solar solution.

“Having joined the company six months ago and re-launching various parts of our business, I am excited to see the positive market feedback at an important show like SPI. This is a strong step forward in a bold new direction for Andalay Solar,” said Steve Chan, Andalay Solar’s CEO and President. “We are working hard to expand our partners to adopt our industry leading patented technology with superior aesthetics, labor savings and much reduced maintenance issues.”

Andalay Solar
www.andalaysolar.com

Solar Power World

SolarReserve, a developer of large-scale solar power projects and solar thermal technology, has acquired Aerojet Rocketdyne’s Concentrating Solar Power (CSP) business. The acquisition includes intellectual property (IP) rights and patents related to molten salt technology for concentrating solar-thermal power and electricity storage applications, as well as heliostat designs and collector field control systems.

“The technology acquisition further demonstrates SolarReserve’s industry leadership in solar thermal energy storage, and our ongoing commitment to technology innovation and operational excellence through investments in advanced technology research and development,” said SolarReserve’s CEO Kevin Smith. “With this acquisition and continued advancement on the technology, SolarReserve is well positioned to capture a significant portion of the projected $75 billion CSP market expected to develop through 2025.”

The key personnel at Aerojet Rocketdyne with critical knowledge of this technology are joining SolarReserve along with the technology acquisition. This includes Chief Engineer, George O’Connor, a 35-year veteran at Aerojet Rocketdyne who brings extensive technical leadership experience on the solar programs while at Aerojet Rocketdyne in addition to his expertise on rocket propulsion and advanced power systems.

“We are excited to have the industry’s top solar thermal technology experts join SolarReserve from Aerojet Rocketdyne,” Smith added. “The integrated SolarReserve technology organization will further innovate, improve performance and reduce deployment costs of this leading edge technology.”

SolarReserve has commercialized the world’s leading solar thermal energy storage technology with the capability to deliver clean, reliable electricity “on demand” at any time, day and night, whether or not the sun is shining.  This game changing technology enables the company’s solar thermal (CSP) power plants to operate 24/7, providing a stable and predictable electricity product similar to that of conventional fossil fuel-burning power facilities, but without the associated harmful emissions and without any fuel costs.

Solar Power World

The Ross Solar Group has completed five commercial rooftop solar systems for the town of Stafford, Conn., totaling 660 kW. Each system is expected to generate a large percent of the buildings’ electricity needs on which it’s installed and operating.

“This solar project is a great fit for our town because it combines high performance solar technology with a forward thinking philosophy,” said Stafford Energy Advisory Committee Member Gary Fisher. “Ross Solar Group’s commitment to quality, communication, and customer service made our choice easy when selecting the right partner for this high profile, green building project.”

More than 2,000 high-efficiency SunPower solar panels have been installed on the buildings. They are projected to generate in excess of 740,000 kilowatt hours of clean energy per year. According to estimates provided by the U.S. Environmental Protection Agency, the system will offset more than 514 metric tons of carbon dioxide emissions annually, the equivalent of removing almost 3,220 cars from Connecticut’s roads over the next 30 years.

The design and installation of these commercial solar power systems was made possible by Zero-Emission Renewable Energy Credits (ZREC) for small and medium projects, awarded to the town by CL&P. Additionally, Technology Credit Corp. provided the Town of Stafford with a 10-year lease on the solar system equipment.

“We are thrilled to partner with a town like Stafford to help bring reliable solar electricity to the community,” said Ross Solar Vice President Stephan Hartmann. “With the world’s most efficient solar technology from SunPower, Stafford can expect to enjoy guaranteed performance and long-term savings over the life of the system.”

Ross Solar Group
www.rosssolargroup.com

Solar Power World

Blue Oak Energy, a commercial and utility engineering firm, has completed the construction of a 2.6-MW solar power generation facility in Winters, California. This accomplishment signifies a progressive renewable stance by residents and local authorities. The solar farm, which will be locally owned and operated, is located 30 miles west of Sacramento.

The completion of the project represents an important step forward in Blue Oak Energy’s mission to make our sustainable energy future a priority by delivering real world solutions today. Tobin Booth, the founder and CEO of Blue Oak Energy states, “Blue Oak Energy is delighted to have delivered the solar design and construction on Putah Creek Solar Farm. The successful collaboration between Blue Oak Energy, Array Technologies and Solvida Energy Group have been critical in meeting the project’s goals. We are excited for the residents of Winters and Yolo County, one of the greenest areas of the United States. We regard this project as a significant milestone in the city and county’s commitments towards an environmentally clean future.”

Putah Creek Solar Farm, LLC contracted Blue Oak Energy to engineer and construct the nearly 13 acre solar farm. The 8,640 modules are connected to DuraTrack HZ, a widely deployed single-axis solar tracker. These trackers were manufactured and supplied by Array Technologies, Inc. (ATI), a leading manufacturer of solar tracking and racking systems. Ron Corio, ATI Founder and CEO, states, “We are thrilled to be working alongside Blue Oak Energy yet again. They are a trusted partner that does exceptional work on each and every solar installation they are involved in.”

The solar farm was permitted through Yolo County and was included in the county’s Climate Action Plan. This action plan includes the reduction of carbon emissions through such measures as renewable energy production. Stephen Smith, the Managing Partner of Solvida Energy Group, explained, “We are proud to have worked with Yolo County, Blue Oak Energy and PG&E to deliver the largest privately owned solar farm in Yolo County, CA. This groundbreaking project is a shining example of how cooperation between governments, utilities and the private sector will be critical toward providing energy security and reducing carbon emissions in California and beyond.”

Blue Oak Energy
www.blueoakenergy.com

Solar Power World

Solar Power World

Sandia National Laboratories researcher Vitalie Stavila inserts a substrate patterned with electrodes into a temperature-controlled liquid-phase reactor for depositing MOF thin films. Sandia’s research team plans to combine MOFs with dye-sensitized solar cells, a technique it believes will lead to advancements in photovoltaic technology. (Photo by Dino Vournas)

Researchers at Sandia National Laboratories have received a $1.2 million award from the U.S. Department of Energy’s SunShot Initiative to develop a technique that they believe will significantly improve the efficiencies of photovoltaic materials and help make solar electricity cost-competitive with other sources of energy.

The work builds on Sandia’s recent successes with metal-organic framework (MOF) materials by combining them with dye-sensitized solar cells (DSSC).

“A lot of people are working with DSSCs, but we think our expertise with MOFs gives us a tool that others don’t have,” said Sandia’s Erik Spoerke, a materials scientist with a long history of solar cell exploration at the labs.

Sandia’s project is funded through SunShot’s Next Generation Photovoltaic Technologies III program, which sponsors projects that apply promising basic materials science that has been proven at the materials properties level to demonstrate photovoltaic conversion improvements to address or exceed SunShot goals.

The SunShot Initiative is a collaborative national effort that aggressively drives innovation with the aim of making solar energy fully cost-competitive with traditional energy sources before the end of the decade. Through SunShot, the Energy Department supports efforts by private companies, universities and national laboratories to drive down the cost of solar electricity to 6 cents per kilowatt-hour.

DSSCs provide basis for future advancements in solar electricity production
Dye-sensitized solar cells, invented in the 1980s, use dyes designed to efficiently absorb light in the solar spectrum. The dye is mated with a semiconductor, typically titanium dioxide, that facilitates conversion of the energy in the optically excited dye into usable electrical current.

DSSCs are considered a significant advancement in photovoltaic technology since they separate the various processes of generating current from a solar cell. Michael Grätzel, a professor at the École Polytechnique Fédérale de Lausanne in Switzerland, was awarded the 2010 Millennium Technology Prize for inventing the first high-efficiency DSSC.

“If you don’t have everything in the DSSC dependent on everything else, it’s a lot easier to optimize your photovoltaic device in the most flexible and effective way,” explained Sandia senior scientist Mark Allendorf. DSSCs, for example, can capture more of the sun’s energy than silicon-based solar cells by using varied or multiple dyes and also can use different molecular systems, Allendorf said.

“It becomes almost modular in terms of the cell’s components, all of which contribute to making electricity out of sunlight more efficiently,” said Spoerke.

MOFs’ structure, versatility and porosity help overcome DSSC limitations
Though a source of optimism for the solar research community, DSSCs possess certain challenges that the Sandia research team thinks can be overcome by combining them with MOFs.

Allendorf said researchers hope to use the ordered structure and versatile chemistry of MOFs to help the dyes in DSSCs absorb more solar light, which he says is a fundamental limit on their efficiency.

“Our hypothesis is that we can put a thin layer of MOF on top of the titanium dioxide, thus enabling us to order the dye in exactly the way we want it,” Allendorf explained. That, he said, should avoid the efficiency-decreasing problem of dye aggregation, since the dye would then be locked into the MOF’s crystalline structure.

MOFs are highly-ordered materials that also offer high levels of porosity, said Allendorf, a MOF expert and 29-year veteran of Sandia. He calls the materials “Tinkertoys for chemists” because of the ease with which new structures can be envisioned and assembled.

Allendorf said the unique porosity of MOFs will allow researchers to add a second dye, placed into the pores of the MOF, that will cover additional parts of the solar spectrum that weren’t covered with the initial dye. Finally, he and Spoerke are convinced that MOFs can help improve the overall electron charge and flow of the solar cell, which currently faces instability issues.

“Essentially, we believe MOFs can help to more effectively organize the electronic and nano-structure of the molecules in the solar cell,” said Spoerke. “This can go a long way toward improving the efficiency and stability of these assembled devices.”

In addition to the Sandia team, the project includes researchers at the University of Colorado-Boulder, particularly Steve George, an expert in a thin film technology known as atomic layer deposition.

The technique, said Spoerke, is important in that it offers a pathway for highly controlled materials chemistry with potentially low-cost manufacturing of the DSSC/MOF process.

“With the combination of MOFs, dye-sensitized solar cells and atomic layer deposition, we think we can figure out how to control all of the key cell interfaces and material elements in a way that’s never been done before,” said Spoerke. “That’s what makes this project exciting.”

Solar Power World

U.S. Bank and Top 400 Solar Contractor Microgrid Solar have joined together to boost renewable energy and help more than 50 local nonprofit institutions save thousands of dollars in energy costs and direct more money toward fulfilling their missions.

Microgrid and U.S. Bancorp Community Development Corporation, the community development subsidiary of U.S. Bank, are financing the installation and operation of up to 120 solar photovoltaic systems to benefit 56 nonprofit organizations. “The mass installation of solar systems is a first for the St. Louis region,” said Microgrid Chief Executive Officer Rick Hunter.

Each 25-kW solar installation will produce approximately 30,000 kilowatt hours of electricity a year, enough to save these nonprofits tens of thousands of dollars in reduced utility bills.

Site installations have already been completed for dozens of area schools and institutions including:

• SLU High School

• New City School

• St. Louis Area Foodbank

• Missouri History Museum

• Washington University

• Paraquad

The solar installations are taking place at additional participating nonprofits through December 2014. The program is closed to new participants, but may re-open in the future.

“This project totals 3 MW of solar power capacity that is being installed at some of the most well-known nonprofit organizations and schools in the St. Louis area,” Hunter said. “We think this will have a major impact, not only for the organizations, but for improving awareness and education around solar in the St. Louis area generally.”

“This is a unique financing program that is really a first nationally, and which essentially provides solar to a nonprofit organization at zero budgetary cost,” Hunter added.

USBCDC works with solar system installation firms around the nation to help businesses and homeowners add PV systems to their offices and homes, saving utility costs and reducing pollution and U.S. dependence on foreign petroleum.

“Reliable solar is a great investment for businesses, communities, and financiers alike,” said Dan Siegel, vice president of USBCDC. “We’re proud to leverage our renewable energy expertise and support to create opportunities for sustainability in St. Louis.”

Last year, USBCDC also partnered with Microgrid to install solar on its U.S. Bank branch in Clayton at Forsyth Boulevard and Hanley Road. Microgrid has since installed solar at 8 additional US Bank branch offices in the St. Louis area.

Solar Power World

Burton School District, in the heart of California’s sundrenched San Joaquin Valley, will house combined solar and energy storage systems from SolarCity, a Top 400 Solar Contractor. The district will install solar and DemandLogic, SolarCity’s smart energy storage system for businesses, to generate and store its own clean, renewable electricity at eight schools – the largest combined solar and energy storage installation SolarCity has undertaken to date. DemandLogic will allow the district schools to reduce energy costs by using stored electricity to lower peak demand.

SolarCity will install the district’s solar systems and advanced battery technology at eight elementary and middle schools, as well as additional solar generation at a district office. The solar installations will total more than 1.4 megawatts of clean power capacity, with storage providing an additional 360 kilowatts (720 kilowatt hours) of power to reduce peak demand. The new solar systems are expected to save the district more than $1 million dollars over the life of the contracts, and the DemandLogic battery storage systems could save thousands more on demand charges each year.

“With this remarkable development, Burton School District will not only stand at the leading edge of our country’s clean tech revolution, but will also reap tremendous savings in our fixed-costs at the same time,” said Burton School District superintendent Dr. Sharon Kamberg. “We will use the much needed savings to enhance our educational programs for students.”

Burton School District retained TerraVerde Renewable Partners, an independent energy advisor, to assess and scope an optimal energy cost savings program, analyze financing options, organize the RFP process and help the district select the best candidate to meet the program’s specifications.

The new SolarCity systems are expected to generate 2.3 million kilowatt hours of solar energy annually, and enough over the life of the contract to power more than 4,000 homes for a year. The solar systems will also help avoid more than 43 million pounds of carbon dioxide from entering the atmosphere and save more than 203 million gallons of water*, an especially important environmental benefit in the drought-stricken valley. The entire storage project is expected to be complete by May 2015.

SolarCity DemandLogic can allow schools and businesses to reduce energy costs by using stored electricity to reduce peak demand. It includes learning software that automates the discharge of stored energy to optimize demand charge savings for customers.

*Environmental calculations are based on 20 year solar system contracts and data from the United States Environmental Protection Agency and the National Renewable Energy Laboratory.

Solar Power World

Sollega FastRack held strong on the Westin Hotel in St. Marteen.

A hurricane whipped through the Caribbean island of St. Maarten on Oct. 13, leaving some residents unprepared. Initially, weather reports warned of a tropical storm, which was then upgraded to a hurricane watch along with a tropical storm warning.

Hurricane Gonzalo made landfall. Homes and boats were destroyed, and utilities such as water and power were affected.

Despite the destruction, the Island’s Westin St. Maarten Dawn Beach Resort & Spa’s solar-powered roof remained strong. The 900-kW Trina solar-module, hybrid system was ballasted and anchored (a heat-welded, anchored system, so as to fully adhere to the TPO roof).The system was supported by the Sollega FastRack.

The system is designed to provide energy for 317 guestrooms, restaurants, restrooms, laundry facilities, and the spa.

Despite some windows breaking, doors being affected, and even some water damage, the solar array stood up well to the hurricane winds in excess of 100 mph.

“A Category 1 Hurricane hit St Maarten/Westin head last Monday, and the array held up great with no issues,” explained Keith Freeman of One World Energy. “We only had eight broken modules from flying roof vents/satellites.”

Sollega
www.sollega.com

Solar Power World

APS microinverters join the product offerings of US Solar Distributing and CFM Equipment Distributors in a new agreement between the companies.

Sacamento-based CFM is a top distributor of HVAC systems, with locations in Northern California and Nevada, and also offers solar products through those channels. Its subsidiary US Solar deals exclusively in photovoltaics, and works directly with independent solar contractors through locations in California, Hawaii and New Jersey.

Thomas Nelson, APS vice president for sales, said the agreement strengthens APS’ position in key markets and adds two knowledgeable partners to the growing distribution channel.

“US Solar Distributing and CFM Equipment are a well-respected presence in the national PV market, and we’re proud to partner with them,” Nelson said.

CFM Equipment Distributors was founded more than 30 years ago and later spun off US Solar as an independent division, with a goal of providing professional contractors with a “one-stop” supply resource.

The companies offer complete lines of photovoltaic equipment, along with design and engineering services, professional training, and same- or next-day shipping throughout North America.

APS was founded in Silicon Valley in 2009, and is now a global leader in the development, manufacturing and marketing of microinverters based on their own proprietary, leading-edge solar technology. APS America, representing APS in the US market, is based near Seattle, Washington.

Recent major distribution deals have brought the APS product line to the American Southwest, central California, mountain and mid-Atlantic solar markets.

APS ranked No. 2 in global market share among leading microinverter suppliers by shipments in 2013 (source: GTM Research).

Solar Power World

The Chiriquí solar plant is one of the largest in the country and thanks to the Panamanian government driving the market in the last year. This new facility will be located in the Chiriquí province and will be launched during the first quarter of 2015.

Power Electronics will supply 10MW of Freesun HEC Series to PV plant Chiriquí, Panama. This has allowed Power Electronics to strengthen its position in the country

“This project is a milestone in a key market with great potential. It will act as a catalyst for other important projects in the area in the coming years” said Director of the Solar Division, Miguel Angel Escribano.

The Freesun HEC Gen II inverters are able to operate in the harshest environments and operating under extreme heat, humidity and altitude across the globe.

Solar Power World

Owned by Honduran energy company Energia Basica S.A., the Pavana Solar Park will include 79,200 Yingli solar modules and a decentralized system design with 880 Sunny Tripower 24000TL-US three-phase, transformerless inverters and 22 SMA Cluster Controllers for advanced system monitoring and control. The power plant, designed by Orlando, Florida-based EPC Sybac Solar LLC, is expected to be complete early next year.

When combined with the Sunny Tripower inverters, the system is expected to generate more than 42 GWh per year, enough to cover the annual energy consumption of about 61,000 Honduran households. SMA’s decentralized inverter solutions have been selected for the largest PV plant in Honduras. The 24 MW Pavana Solar Park in Choluteca will feature a decentralized system design with 880 Sunny Tripower 24000TL-US three-phase, transformerless inverters and 22 SMA Cluster Controllers for advanced system monitoring and control. The power plant, designed by Orlando, Florida-based EPC Sybac Solar LLC, is expected to be complete early next year.

Sybac Solar chose a decentralized approach for the Pavana Solar Park for myriad reasons, including reduced upfront and long-term costs, increased energy production and restricted site accessibility. Moreover, the redundancy provided by multiple inverters will preserve system uptime, protecting against lost profits.

“For a project of this size, the Sunny Tripower was the logical choice because it combines the sophistication of SMA’s utility-scale approach and the benefits of a decentralized PV design concept,” said Henry Dziuba, president and general manager of SMA America. “The Sunny Tripower will provide the Pavana Solar Park with high efficiency, reduced installation costs and simplified transportation, among many other benefits.”

“System downtime was the main concern with the Pavana Solar Park, which is why the decentralized design concept with the Sunny Tripower and Cluster Controller was the ideal solution,” said Markus Falz, CEO of Sybac Solar. “We chose SMA products because they offer class-leading reliability backed by unmatched service support and warranties.”

The Sunny Tripower TL-US is UL listed for up to 1,000 V DC maximum system voltage and has a peak efficiency above 98 percent, while OptiTrac™ Global Peak minimizes the effects of shade for maximum energy production. Also available in 12, 15 and 20 kilowatt models,the Sunny Tripower TL-US delivers full grid management functionality, cutting-edge communications and advanced monitoring. It is also equipped with all-pole ground fault protection and integrated AFCI for a safe, reliable solution. The Sunny Tripower TL-US offers unmatched flexibility with a wide input voltage range and two independent MPP trackers. Suitable for both 600 V DC and 1,000 V DC applications, it allows for flexible design and a lower levelized cost of energy.

Meanwhile, the SMA Cluster Controller offers reliable monitoring and control of up to 75 inverters, thanks to its Ethernet-based Speedwire fieldbus and high-performance, dual-core processor. Advantages of the SMA Cluster Controller include optimum data transmission rates for plant monitoring and fast processing of the measured values, status updates, and plant control commands. Furthermore, a variety of sensor connection options allow for precise evaluation of plant power, which also can be viewed via the Sunny Portal Web-based PV monitoring platform.

Solar Power World

ecoSolargy releases its Orion 1000 and Titian 1000 solar panel series for use in generating electricity for both businesses and homes.  Both offer improved efficiency over older panels; the Orion panels are offered in wattages between 250 and 275 and the Titian between 300 and 325.  The greater efficiency means fewer panels can be used to generate the same electricity as systems using older panels.

“Increasing panel efficiency shortens the payback timeline for customers to recapture the cost of their systems and enjoy the free energy of the sun,” observed Alan H. Lee, ecoSolargy’s founder and CEO.  “Combined with generous government incentives and the low cost of capital, there’s never been a better time to go solar.”

ecoSolargy designs and manufactures monocrystalline and polycrystalline solar panels and is an authorized distributor for inverters (which convert solar power into usable electricity) and racking (to mount the panels).  Its commercial and residential projects can be found throughout the United States.

ecoSolargy’s  Orion and Titian polycrystalline panels each come in six different wattages that adapt to many budgets and project sizes.  In addition to durability benefits, including corrosion and high wind loads resistance, both the Orion and Titian modules rank high in performance.  Lee noted, “These panels have proven themselves efficient and reliable, and can fit solar projects of all scales.”

Both panel series come with 10-year workmanship warranties, as well as 25-year performance guarantees, and can be financed through the company’s financing partners, Lee noted.

Solar Power World