BPS Asset Management is looking for 2­ to 3 companies to partner with to help build out more of its software to span the entire solar project lifecycle, from project development, design and construction to financing, monitoring, and operations and maintenance. In return, BPS Asset Management would provide the companies with a perpetual license of the software for in­-house use after a one-­time fee. The BPS Asset Management and Monitoring Software has been developed for PV asset managers and owners with diverse portfolios who require a single system of reference to operate effectively and efficiently.

Some of the current features of the BPS Asset Management software include financial and performance reporting, workorder and outage tracking, warranty management, daily verification reports and asset tracking.

“As we push forward into our next stage of business development, we see it as a necessity to partner with companies that are in need of asset management software and want to help define the future of the solar industry,” said Ben Hall, owner of BPS Asset Management. “As a software company, we could decide on and develop the features that we think are most important for our product, but the users may not see those as the most important features. So by partnering with multiple companies and using their input and feedback we will be able to continue to develop the best and most useful asset management software.”

BPS Asset Management provides solar asset management software that strives to span the entire solar project lifecycle, from project development, design, and construction to financing, operations, monitoring and maintenance all in one platform. The BPS Asset Management and Monitoring Software reduces operational risk and helps asset managers to manage their solar portfolios more effectively and efficiently. The software has been in use since November 2012 managing over 70 MW of operational solar assets distributed over 86 solar sites. For more information, please visit www.bpsassetmanagement.com.

Solar Power World

Essex Capital Partners, a Massachusetts-based developer of utility scale solar projects, and Sunpreme Inc., a U.S.-based solar photovoltaic company that designs and manufactures its own cells and panels, are pleased to announce the completion of 90-day post commissioning of the 2.6-MW ground-mount solar system developed by Essex Capital (through its subsidiary, Barton Solar), located in Barton, Vermont. The system is one of the largest commercial solar PV installations in Vermont and will generate 3,400,000 kWh of clean, emission free electricity annually – enough energy to serve over 1,500 homes, while providing a centerpiece to the holistic approach to environmental stewardship.

Solar Power World

In May 2014, Judah Moseson with Infigen Energy provided insight into why a monitored solar system needs to include more than just energy production and dollars saved (http://www.solarpowerworldonline.com/2014/09/command-control-247-solar-monitoring-matters). As a follow-up to that article, I’d like to make the case for why much more than a revenue grade meter is required on all PV sites.

This article was authored by Keith Davis, Director of Solar Services at
Affinity Automation

As Moseson concluded, solar PV has indeed become a mainstream energy generation system. With the growth of large-scale systems across the country and the acceptance that solar is a clean and truly renewable resource, more and more savvy investors, landowners and EPC firms are supporting solar as never before. This indeed is a good thing.

But mainstream does not mean care-free. As solar generation continues to grow, command and control systems must continue to evolve. It is my belief that as solar energy production continues to increase at an exponential rate, the solar PV system command and control model will be required to match very closely the reliable protocols and standards that regulate and monitor large conventional electrical energy power generation systems. No one doubts a nuclear plant’s systems are far different and much more reliable and sophisticated in 2014 than they were even 25 years ago, so why isn’t control system evolution for PV just as important? I am confident the solar PV industry will soon adopt the same data reliability standards and high-performance requirements that the conventional generation industry has. It’s the next logical step in the evolution of solar energy production systems.

In some ways the solar PV industry is a victim of its own success. In the early years of solar, the connecting utilities could not foresee how much solar costs would decline, therefore increasing customer demand for solar energy systems. As such, early connection standards were somewhat simple and did not take into account the impact of a large amount of energy flowing “backward” on the grid. Nor was the impact of large energy fluctuations considered and the effect calculated on voltage and frequency regulation. But those days are past and solar is indeed making a huge impact on the grid and the utilities that take delivery of that energy and distribute it through their existing one-way infrastructure.

The manufacturers of balance of system (BOS) components take this challenge seriously. More and more inverters now can be regulated and controlled remotely to support the grid’s need for voltage and frequency regulation. Power factor adjustment is now becoming a necessity, and having the ability for the PV system to deliver apparent power and VARs adds more grid support functionality. Solar combiners now offer ground and arc fault detection and rapid shutdown features. All of these systems will require two-way redundant communications protocols that allow the utility to not only determine the amount of energy delivered, but also the ability to set and regulate the operational parameters to match real-world grid conditions. Systems could also respond quickly to a site emergency like a massive ground fault or fire, should one occur. I do not believe we, as an industry in 2015, are providing that level of in-depth capacity for system safety and control, but soon we must.

From a system operator’s viewpoint, command and control systems are excellent tools to determine how well (or how poorly) a system is performing so repairs and adjustments can be made quickly. The amount of system performance and operating data that will be accumulated will grow exponentially as well, and data mining software systems will be required to be in place to seek out performance anomalies in that vast data stream to alert the system operator there is a potential problem. The typical system in place today only looks at a few basic parameters and leaves the balance unmonitored, allowing a potential fault to occur, possibly shutting down the system or causing extensive damage that will cost time, effort and money to repair. No one wants that.

Today’s technology has the capability to perform these tasks and much more. In future articles, we’ll look at the points mentioned above in some detail, and we’ll discuss some of the performance parameters requiring monitoring and how control systems can maximize system performance and efficiency, increasing owner revenue and profits. Come join the conversation!

Solar Power World

NRG Home Solar, one of the country’s leading residential solar companies, announced it has expanded its U.S. operations into North Carolina. The company is offering fully integrated solar solutions in the state, providing homeowners with the opportunity to install solar through financing options that require zero-money down.

“North Carolina is an ideal market for solar and specifically for residential solar where we see significant untapped market potential throughout the state,” said Kelcy Pegler Jr., President of NRG Home Solar. “Homeowners are already making the decision to go solar with us in North Carolina – a state that offers abundant sunshine and encourages residents to adopt the benefits of home solar.”

NRG Home Solar expects to fill numerous new positions in a variety of different levels within the first year as it formally opens its Charlotte, NC office in the coming weeks and continues expanding in the state.

NRG Home Solar

www.nrghomesolar.com

Solar Power World

REC Group and Sunrun announced the expansion of their supply agreement signed in August 2014. Under the terms of the deal, Sunrun will purchase 100 MW of REC’s high-quality, high-performing Peak Energy solar panels, with deliveries scheduled throughout 2015.

“Our original panel supply contract with Sunrun called for a minimum of 50 MW, with an option for up to 100 MW, so this doubling of volume underscores the solid relationship between the two companies and our position in the U.S. residential market,” said Arndt E. Lutz, senior vice president of REC Group and managing director of its North American business. “Customers like Sunrun understand the value of REC’s high standards of quality, reliability and integrity inherent in our products and the way we do business.”

“REC is committed to consistently delivering volume quantities of its high quality panels,” said Paul Winnowski, chief operating officer of Sunrun. “This enables Sunrun to provide consumers with the best and most reliable solar panels on the market for their home solar system. Our decision to strengthen our partnership reflects the confidence we have and that our qualified installers have in REC’s high-performance rooftop solar products today and in the future.”

The amended Sunrun agreement is the latest in REC’s string of major panel supply agreements and installations in the U.S. market. REC has signed 703 MW of long-term supply agreements for the residential, commercial, and utility segments in the U.S. market since May 2014. The Norway-based company is expanding its production capacity to 1.3 GW at its state-of-the-art, vertically integrated Singapore manufacturing facility.

Solar Power World

SunEdison announced an ambitious plan to electrify 20 million people in underserved communities around the world. The initiative will be led by SunEdison Social Innovations, a global group focused on developing new business models and new technologies which make renewable energy in rural communities economically sustainable over the long term, while also contributing to social and environmental benefits to the community.

The SunEdison Outdoor Microstation stands outside the SunEdison Eradication of Darkness Summit 2015, Tuesday, Feb. 24, 2015, in New York. The Microstation is a stand-alone power generation unit that provides renewable and reliable electricity for a variety of off-grid applications. (John Minchillo/AP Images for SunEdison)

“Billions of people worldwide don’t have access to electricity,” said Ahmad Chatila, President and Chief Executive Officer at SunEdison. “Without electricity they can’t access many of the things we take for granted – health clinics with vaccines, or schools with computers and fans. But by applying a mix of new business models, new technology, and charitable donations, we are tackling the issue head on. We are committing to bringing electricity to one million people by the end of 2015, and are targeting to help 20 million people gain access to electricity by 2020.”

The Social Innovations team has already started working toward its goal and has helped more than 250,000 people worldwide through strategic partnerships focused on three key areas: new business models, new technology, and charitable donations.

New business models
SunEdison is developing new ways to bring electricity to the people who need it most through a series of partnerships and innovative business models.

In India, SunEdison and Omnigrid Micropower Company (OMC) are electrifying rural villages by pairing commercial solar customers with local villagers. Telecom companies need their cellular towers powered. Villagers need electricity. A solar electric mini grid providing electricity for both of them is the answer. The mini grid is first built to power the tower – the tower becomes the anchor for the project. With this in place, SunEdison and OMC develop additional mini grid capacity that can be sold to the local villagers. By pairing high credit telecom companies with low to no credit villagers the entire project becomes bankable. It is a mutually beneficial relationship – the telecom companies save money by powering their telecom towers with cost effective solar energy, while the hundreds of families that live around each tower get access to electricity that can be used for lights, fans and mobile phone chargers. With a target of 5,000 solar power plants to be developed over the next 5 years, the SunEdison-OMC partnership expects to help more than 10 million people.

In Nepal, SunEdison is partnering with SunFarmer to amplify the benefits of electricity by providing solar systems to remote hospitals, health clinics, and schools. Their latest innovation is a five to seven year rent-to-own loan. The loan was designed to fit the needs of less affluent organizations by spreading the cost of the solar system over a longer term than is typically available. Financed in this way, solar delivers lower cost energy than diesel generators and brings with it the certainty that the energy prices are not going to fluctuate.

To date, SunFarmer and SunEdison have positively impacted 250,000 people to date through this program and are set to expand to geographic regions beyond Nepal, with the goal of bringing electricity to 7 million people by 2020.

New Technology
The new Outdoor Microstation is now available for deployment. The Outdoor Microstation is a stand-alone power generation unit that provides renewable and reliable electricity for a variety of off-grid applications in hard-to-service remote areas.

It can be used to quickly and cost effectively power households and small businesses, illuminate public places, supply energy to clinics and health centers, power water pumps or irrigation systems, or provide electricity to telecommunications systems. These systems can be deployed quickly – in less than a day, a village that was dark the night before can experience electricity by sundown As an added benefit, the Outdoor Microstation protects against rising and fluctuating diesel fuel costs.

The Outdoor Microstation comes in two versions: a 3,500 volt-amperes version and a 650 volt-amperes version. The Outdoor Microstation 3500 unit can provide power for a rural community of up to 25 households, including street lighting, for 5 hours each night. The 650 volt-amperes unit can provide electricity for up to 10 households for five hours each night. Both models are equipped with high capacity batteries that can provide three days of autonomy under any weather condition. The system is low maintenance and is designed to ensure steady operation under almost any conditions, thanks to its quality components and its rugged weatherproof design.

Charitable Donations
SunEdison and the SunEdison Foundation are engaged in a variety of charitable initiatives dedicated to empowering people and improving lives. To maximize the benefits of electrification in the local community, the SunEdison Foundation focuses on providing clean energy solutions for health clinics and schools.

“We have donated and installed 344 kilowatts of solar systems for 28 schools and clinics to date, which has positively impacted more than 16,000 people,” said Alakesh Chetia, President of Social Innovations at SunEdison. “Our latest donation is a 5.2 kilowatt system installed at a school on the off-grid island of Gilutongan, in the Philippines. This system is the largest system ever donated to an island in the Philippines. The school had no access to electricity during the day to power the 11 computers owned by the school. By donating a solar system to the school, we have given these children a means to learn with computers. This will improve computer literacy for the area, which will have a powerful economic impact further down the road as the children enter the job market.”

Recently, the SunEdison Foundation made a charitable donation to the Self Employed Women’s Association (SEWA) to help salt farmers in the Little Rann of Kutch in Gujarat purchase solar water pumps. The pilot phase of the program has been very successful; the donation has enabled the purchase of 200 solar water pumps. SunEdison hopes to move all 17,000 SEWA members from diesel to solar water pumps over the next 5 years by bringing in additional funding from finance partners.

Mr. Chetia concluded: “Bringing electricity to 20 million people by 2020 will require not only new business models, new technologies, and charitable work, but also partnerships. We all benefit when we work together. At SunEdison we’re committed and engaged, and we want to magnify our efforts by connecting with others who are equally engaged.”

Solar Power World

The new 176-kilowatt (kW) solar system at Tiao Peng Trading, Inc. in Hayward, CA will eliminate the company’s steep electric bills and yield approximately $2 million in savings over the life of the system. More benefits include:

• Cash purchase with a 2.9 year payback
• Offsets over 99.5% of electricity usage
• Generates 285,874 kWh annually
• Offsets over 200 tons of carbon emissions yearly, the equivalent of powering 27 homes each year.

Designed and installed by Vista Solar, the ballasted rooftop array took about three weeks to complete, and covers 40% of the 65,000 square foot rooftop. The equipment used includes high-efficiency Suniva 325 watt modules, SMA Tripower inverters and a Unirac mounting system.

“Food companies are often ideal candidates for solar,” says Vista Solar project developer Spencer Wells. “Their large rooftops, high energy consumption and ability to take advantage of solar tax credits enable them to cut operating costs and free up capital to expand business operations.”

The system, which is cash flow positive from the start, will pay back in just under 3 years.

“We are very excited to eliminate our energy bills and increase our bottom line,” says Danai Kietikul, owner of Tiao Peng.

Vista Solar

http://www.vista-solar.com/projects/tiao-peng-trading/

Solar Power World

High-density polyethylene (HDPE)-based solar mounting systems were all the rage a few years back. Not only were they the lightest ballasted mounts on the market, many of them could be stacked and easily moved, making them cheaper to ship and quicker to install. But as fire safety became more of a concern, it became clear that plastic, which can melt, probably wasn’t the best base for a solar system.

Here are how non-metallic mounting manufacturers—Sollega, Ecolibrium, Renusol America, DynoRaxx, Patriot Solar—are changing their business plans with the enforcement of new fire ratings.

Sollega FastRack

Sollega
Sollega manufactures the InstaRack (a one-piece mounting unit made of HDPE) and the FastRack 510 (its new mount made of Ultramid glass-reinforced nylon from BASF). Elie Rothschild, sales manager, said the company is phasing out the InstaRack because of its HDPE skeleton, but it can still be used on ground-mounts and rooftop projects outside of California—until other states take on fire safety standards.

Chemical producer BASF approached Sollega two years ago in anticipation of the new UL fire requirements. The Ultramid material was introduced to the company as a replacement for HDPE and has a substantially higher relative thermal index (RTI) rating, meaning it’s much stronger and less vulnerable to high temperatures. The FR510 has less parts and is more cost-effective than the InstaRack since the company has turned to injection molding. Sollega expects the FastRack to ultimately replace the InstaRack, and demand has already turned in favor of the new product.

Sollega is scheduled for UL 2703 and UL 1703 flame spread testing just after press time.

“We have a high safety factor with everything we do,” Rothschild said. “We don’t want to meet the requirements, we want to exceed them.”

Ecolibrium EcoFoot2+

Ecolibrium Solar
Ecolibrium‘s EcoFoot2+ is a step up from the original EcoFoot made of HMWPE (high molecular weight polyethylene). The new version is made of chemical supplier Styrolution’s Luran S acrylonitrile styrene acrylate (ASA) polymer, which is modified with acrylic ester rubber that increases strength and performance when exposed to heat. Just prior to Solar Power International 2014, the EcoFoot2+ received a Class A fire rating.

Renusol GS

Renusol America
In 2011, Renusol America introduced the Renusol CS60—the first one-piece mounting system made from 100% recycled HMWPE. President and CEO Bart Leusink said the company began exploring other mounting options after seeing a trend for larger modules. Manufacturing a 72-cell version of the product required the mount to be larger and thicker to support the heavier modules, and the high cost of oil at the time made it cost-prohibitive to continue with plastic. So Renusol went the aluminum route, and introduced the Renusol EW system (a rail-less, ballasted system for east-west module orientation) at Solar Power International 2014 and launched this February.

The Renusol CS60 has morphed into a ground-mount product for landfills and other challenging terrain. Since it won’t be used on roofs in the future, there is no need for fire safety testing. The Renusol CS60 has also influenced Renusol’s new Renusol GS system for ballasted ground-mounts.

“We came up with a custom-designed ground-mount system based on the CS60 product, the GS system,” Leusink said. “We’re expanding the plastic product line but it’s for ground-mount applications.”

DynoRaxx

DynoRaxx
The DynoRaxx Evolution flat roof system is not HDPE-based, but it is unique to the mounting market. Made of fiberglass reinforced plastic, the Evolution FR and the Evolution FR Generation 2.0 are non-conductive and fire resistant. The fiberglass mounts will not expand or contract through heat cycling. DynoRaxx will undergo fire testing soon, and founder Nathan Rizzo said he expects no difficulties with receiving a positive fire rating.

Patriot Solar Spider ST

Patriot Solar Group
Patriot Solar, mostly a manufacturer of metallic ground-mounts, also has a ballasted roof-mount—the Spider ST. Made of injection molded HDPE, the product was a Department of Energy 2012 Sunshot Award winner. Dylan Pugh, sales and marketing associate, said Patriot Solar planned for the fire rating requirements and designed the Spider ST to meet the tests, which it has passed. While most polymer-based roof-mounts use a HDPE compound that isn’t the strongest, Patriot went with a polypropylene injection molding process that allows the Spider ST to pass all certifications. SPW

Solar Power World

Nationally recognized engineering, procurement and construction (EPC) firm Swinerton Renewable Energy has contracted with Albuquerque-based Array Technologies, Inc. (ATI) to procure 104 MW of its DuraTrack HZ single-axis tracking system for the 630-acre Utah Red Hills Renewable Park. Scatec Solar, the project’s developer and a long-term owner, hired Swinerton Renewable Energy to construct the plant and procure the appropriate technologies.

Once construction completes, the trackers are commissioned and final electrical connections have been made, the project will be the largest solar power plant in Utah.

“Working with such experienced partners is a tremendous asset,” said ATI Founder & CEO, Ron Corio. “Swinerton Renewable Energy time and again exceeds our expectations and we could not be more excited to partner with them on Utah’s largest solar facility.”

“Swinerton is excited to continue our successful partnership with Array Technologies and Scatec Solar—both innovative leaders in renewable energy—to bring jobs and years of clean power to Utah residents,” said George Hershman, Vice President and Division Manager of Swinerton Renewable Energy.

“The Utah Red Hills Renewable Park will provide the residents of Utah access to the superb solar power potential available in their state,” said Luigi Resta, Managing Director of Scatec Solar North America. “After several years of developing this project, Scatec Solar is proud to bring on experienced partners like Array Technologies and Swinerton Renewable Energy to help us build the first utility-scale PV project in Utah.”

The Utah Red Hills Renewable Park is expected to generate around 210 million kilowatt hours (kWh) of electricity per year. Based on EPA estimates, it will power approximately 18,500 homes and prevent nearly 145 thousand tons of carbon dioxide emissions annually.

The energy will be fed into the grid under a twenty-year Power Purchase Agreement (PPA) with PacifiCorp’s Rocky Mountain Power according to the utility’s obligation under the federal Public Utility Regulatory Policies Act.

Solar Power World

Washington D.C.’s Parkside Campus of Cesar Chavez Public Charter Schools for Public Policy is now host to an interactive learning solar power system. Completed at the end of last year, the 170-kilowatt rooftop system will provide nearly 12 percent of the school’s annual electricity use while providing hands-on learning for students, staff and visitors. Standard Solar Inc., a leader in the full-service development, construction, integration, financing and installation of solar electric systems, developed and installed the ballasted rooftop solar system.

Solar Power World

Swinerton Renewable Energy, a leading engineering, procurement and construction (EPC) company based in San Diego, California, has completed a 6-MW solar power plant using NEXTracker technology.  The solar power system, located in Lancaster, California, will supply 12 million kilowatt hours of clean electricity annually through a long term power purchase agreement.

“This is our second solar project deploying NEXTracker technology,” said George Hershman, Vice President, Division Manager of Swinerton Renewable Energy.  “We were very impressed with NEXTracker’s product features on our first project using their technology, and suggested opportunities to improve NEXTracker’s design for even more installation flexibility.  NEXTracker’s engineers listened to our feedback and evolved the product to satisfy our needs very rapidly. We saw a 30% improvement in construction speed with the enhanced version of the product.”

“We are very focused on customer guidance,” NEXTracker CEO Dan Shugar said. “Swinerton gave us valuable input last year that led to product improvements for foundation and site slope tolerance.  Site grading and foundation placement are among the most time consuming and expensive steps in a tracker installation, and with NEXTracker’s independent rows, enhanced tolerances, and high slope compatibility, builders can complete these steps with less time and rework.  We validated those improvements and labor savings on Lancaster and other recent projects.”

Through proven and field tested product innovations, NEXTracker is focused on helping customers like Swinerton achieve the lowest total cost of ownership (TCO) over the lives of their projects. NEXTracker’s numerous construction-minded features enable rapid, repeatable installation outcomes.  Certified to stringent UL2703 requirements, NEXTracker eliminates separate grounding materials and associated installation costs.  Its independently-driven rows with wide tracking range enable maximum site flexibility, energy production and power capacity, while simultaneously reducing operating costs.

Solar Power World

SolarCity has created a fund expected to finance $750 million in residential solar projects [1] with an investment from Google. The new fund will cover the upfront cost of solar panel installations for thousands of homeowners in 14 states and the District of Columbia, and make it possible for them to pay less for solar power than they pay for electricity generated by fossil fuels.

“We’re happy to support SolarCity’s mission to help families reduce their carbon footprint and energy costs,” said Sidd Mundra, Renewable Energy Principal at Google. “It’s good for the environment, good for families and also makes good business sense.”

Google has committed $300 million to the new fund—its largest renewable energy investment to date. The new fund is the largest of its kind ever created for residential solar power, and the second such collaboration between the two companies.

SolarCity provided additional detail about the collaboration on its company blog: http://blog.solarcity.com/google-and-solarcity-2.0.

This release contains forward-looking statements including, but not limited to, statements regarding residential solar project funds, future savings and statements relating to the foregoing. Forward-looking statements should not be read as a guarantee of future performance or results, and will not necessarily be accurate indications of the times at, or by, which such performance or results will be achieved, if at all. Forward-looking statements are subject to risks and uncertainties that could cause actual performance or results to differ materially from those expressed in or suggested by the forward looking statements. You should read the section entitled “Risk Factors” in SolarCity’s quarterly report on Form 10-Q, which has been filed with the Securities and Exchange Commission and identifies certain of these and additional risks and uncertainties. We do not undertake any obligation to publicly update or revise any forward-looking statement, whether as a result of new information, future developments or otherwise.

[1] The new fund is reflected in SolarCity’s undeployed tax equity financing capacity of 592 MW as of Feb. 17, 2015, reported in SolarCity’s announcement of financial results last week.

Solar Power World

ViZn Energy Systems, a provider of energy storage systems for commercial & industrial, microgrid and utility applications, and LFC Capital, an equipment leasing and financial services company, have teamed up to make property owners’ acquisition of solar PV and energy storage affordable. The availability of as much as $5 million per project is expected to accelerate the deployment of ViZn’s Z20 Energy Storage System, a zinc/iron redox flow battery. LFC Capital’s program uses a traditional operating lease with attractive ownership options after six and seven years, plus tax efficiency to provide companies with a low-cost path to ownership. LFC also encourages the use of a follow-on loan as a way to conserve cash and maintain low monthly payments throughout an extended investment period.

The ideal project size is a 50 kW to 1,000 kW solar PV installation requiring 80 kWh to 500 kWh of energy storage. LFC’s program, available to qualified companies in all 50 states, appeals to companies that cannot directly benefit from a federal tax credit, or simply want energy savings and off-balance sheet accounting without a long-term commitment to a power purchase agreement.

David Mintzer, ViZn’s Vice President of Business Development, said, “We’re excited to partner with LFC Capital. LFC’s program will make the combination of our energy storage system with solar PV affordable to a wider group of commercial and industrial property owners installing microgrids and give ViZn a greater presence in this important market.”

“We’re very happy to be partnering with ViZn to provide their customers with a low-cost way to acquire a battery-enhanced solar PV system,” said Stanley S. Fishbein, JD, LLM (Tax), Managing Director of LFC Capital. “Our program is fast becoming the most popular way for companies to derive more value from a variety of incentives when undertaking a solar PV project.”

ViZn’s Z20 product is safe, non-toxic and can be located in populated areas close to hospitals or schools. The Z20 offers a number of benefits over competing battery storage products, including one of the fastest charge and discharge responses on the market, a design that will withstand significant temperature fluctuations and facilitate multiple discharge cycles each day. It is the most cost-effective flow battery system on the market today.

Solar Power World

Oakland Unified School District (OUSD) in California reported that SunPower solar power systems at 16 schools are expected to significantly reduce the district’s annual electricity costs over the next 25 years or more.

Solar Power World

Roy Allen is a technical sales engineer and trainer at ABB Solar Inverters.

Sarah Ozga is a product manager at ABB Solar Inverters.

Knowing common installation mistakes can save contractors time and money and ensure a better solar PV system. The following tips can help make your installations safe and efficient.

1. Read the manual. To ensure the proper operation of solar inverters, electricians installing them must make sure the installation meets the requirements of the authority having jurisdiction and the manufacturer.
2. Understand the local utility’s interconnection requirements. Hundreds of independent utilities operate in the U.S., and each has its own interconnection requirements. As the demand for PV systems increases, negative effects such as temporary over-voltage can be expected on the grid feeders. This can cause dangerous conditions and instability on the grid. Know what is expected from the utility and work to meet all the requirements set forth in the interconnection agreement prior to installation.
3. Beware of “direct sunlight.” Every solar inverter manufacturer has warnings against the installation of inverters in “direct sunlight.” Most manuals do not define clearly what is meant by this term; however, it is generally interpreted to mean the inverter should only be mounted where direct sunlight on the inverter chassis/heatsink is minimized, such as on a north-facing wall or under a shade structure.
4. Don’t confuse the GEC and EGC. Transformerless inverters do not require a grounding electrode conductor (GEC). A GEC is required only when a DC bonding jumper is present. Because transformerless inverters operate from floating arrays, neither side (positive or negative) of the array is bonded to ground, hence, no internal bonding jumpers exist.

Don’t confuse the GEC and equipment-grounding conductor (EGC)! An EGC is always required in a circuit with electrical contact to metal, in wet locations or operating over 150 V to ground. See sections 250.110 and 690.43 in the National Electrical Code for more information on EGCs in PV systems.

5. Use care when modifying the chassis. When it is necessary to cut additional KOs or enlarge existing KOs in the inverter chassis, the installer must be very conscious of “chip control.” The inverter is full of electronics, and introducing metallic chips or shavings into the inverter circuitry can cause failure of the inverter and potentially dangerous conditions, such as shock or fire. Manufacturers may also void the warranty if the chassis is modified.

When extra KOs are needed, it is recommended a suitable conduit (KO) punch be used for any additional holes placed in the chassis. The ABB TRIO chassis is equipped with removable KO plates, which can be removed with screws, modified as required and reinstalled, eliminating the safety risk.

6. Note the NEMA rating of the solar inverter. Some inverter chassis are rated NEMA 4, which are sealed to forced water sprays, like from a hose. Installers must always look at the connected raceway and ensure appropriate gaskets are used between box connectors and the inverter chassis. Further, ensure that the other end of the conduit is not oriented in such a way as to act as a water pipe during rain or wash operations, as any liquid entering the conduit will be routed to the inverter chassis. Most NEMA 4 chassis are not equipped with weep holes and water entering the chassis may build up, which can cause direct failure or other issues due to high humidity.

By Roy Allen and Sarah Ozga of ABB. 

Solar Power World

Vivint Solar, a provider of residential solar systems, announced that its Solmetric team will be fully integrated into the Vivint Solar operating structure and be known as Vivint Solar Labs. The new research and development team will focus on proprietary photovoltaic installation instruments and software.

Having reached the end of the product lifecycle, the Solmetric SunEye 210 and its line of products – including PV Designer, Solmetric Shade Training and the SunEye Extension Platform – will no longer be available. PV Analyzer will continue to be available.

“We are pleased with the integration of the Solmetric team of engineers and staff into Vivint Solar Labs,” said Greg Butterfield, CEO of Vivint Solar. “We look forward to further development of advanced photovoltaic installation technology that will significantly reduce our cost per watt and expedite solar installations for our customers.”

Vivint Solar acquired Solmetric Corporation in January 2014. Vivint Solar is the second largest installer of solar energy systems to the U.S. residential market with approximately 16 percent market share in the third quarter of 2014, according to GTM Research. In 2014, the company established 23 new sales and installation offices to its 16 previously existing offices. The company plans to expand further in 2015.

Solar Power World

Without true standards, the accuracy of PID-free products must be proven.

Potential induced degradation (PID) of solar modules has been known in the industry for more than a decade, but it hasn’t been a huge concern in the United States. That will soon change, as new products and installation techniques enter the market.

But first, let’s start with a definition—what is PID? As Jenya Meydbray, section head of module and inverter testing at DNV GL, explained, PID happens when different components in the same system are at different voltage potentials. Solar cells are usually sandwiched between glass and a metal frame. A potential voltage difference can build between the cell and the glass and frame. This allows electrical current to leak and the module loses its peak performance.

“The solar cells in the panel are physically very close to the frame,” he said. “Typical glass is low-ion sodium glass, a standard piece of glass. Sodium ions in the glass can drift in one direction or another. If you have a voltage potential, those ions will slowly drift out. The problem with PID is that those sodium ions penetrate into the cell surface and can damage certain cells.”

These sodium ions move around depending on how a system is grounded. The United States almost always negatively-grounds its systems, while Europe has been installing ungrounded or “floated” systems. Negatively-grounded systems haven’t had PID concerns because that grounding pulls the sodium away from the solar cells and toward the frame, avoiding damage.

“The sodium will either be driven toward the cell or away from the cell,” Meydbray said. “You can get accumulation of salt around the frame when it’s driven away from the cell. If you have a negatively grounded system, the sodium goes away from the cell and you have no degradation concern.”

PID issues have been more apparent in Europe because their ungrounded systems allow salt to build up on the cells. Solar modules promised to perform for 20-plus years were degrading much more quickly than expected.

Meydbray said the concern for PID in the United States has risen because of transformerless inverters. By definition, systems using transformerless inverters are ungrounded and therefore more susceptible to PID—acting more like systems in Europe. Transformerless inverters are more efficient and cheaper, so the trend of installing them is unlikely to reverse. Contractors should therefore be conscious of how different pieces of the solar power system work together.

“Testing is highly doable in a short time frame,” Meydbray said. “For large buyers of PV equipment, they should test their equipment. If there’s a PID issue with a module, then they shouldn’t mate that module with a transformerless inverter. They should do the necessary homework to find modules to work with that inverter.”

While the inverter alone doesn’t contribute to PID, its relationship to the project as a whole opens the door to degradation. Steve Reed, product manager for U.S. Technology at SMA America, said PID concern is exceedingly rare among its inverter customers, and the SMA America Service Center has received zero calls about PID-related production losses.

“Integrators should work with their module suppliers to ensure they select readily available, PID-free solutions,” he said. “Transformerless inverters are not compatible with modules that require grounding. In the case that an integrator is concerned about PID, SMA offers a PV-Offset box, which is a voltage bias device that can be paired with select inverters. However, given the relative absence of PID among a massive European installation base, this unit has rarely been requested by our customers.”

Reed suggested the best action plan is to be diligent with yearly maintenance.

“[Crystalline-silicon] PID degradation is generally reversible and actions can be taken post-operation,” he said. “It usually makes more economic sense to use yearly maintenance measurements to detect the existence or absence of PID and then take action only if necessary.”

But what if a module claims to be PID-free? Will that solve the problem before it even exists? Many module manufacturers have gone through harsh testing conditions to confidently proclaim their modules PID-free. But this testing is merely suggested right now, and nothing is standard.

“There’s not a real certification against this, it’s just that we follow this protocol,” said George McClellan, technical sales manager at REC Group. “I think as an industry, we need to have a definition around what truly is PID-free. It’s kind of like the salt spray or blowing sand test—all of it is kind of subjective, but there is certification around them.”

McClellan said you can ultimately get any panel to fail if you beat them up enough in the worst conditions. But under the conditions you typically see in the field, many modules (including REC’s) are showing to be PID-free in various testings. DNV GL has one of the most intense testing protocols for PID.

“We simulate very harsh potential conditions—putting the module in a hot, humid chamber and placing high voltage on the module. We let it sit for a number of hours, then we observe how the performance drops off,” Meydbray said. “If we see that a module does not degrade in PID, we’ll write a report, and the manufacturer will make a sticker.

“The gap in that labeling is that it is really a marketing-driven thing,” he added. “There are no regulatory hoops to jump through to get permission to put that sticker on. It’s not a regulated claim.”

Standards move extremely slowly in this industry, and while we probably won’t see a concrete U.S. PID certification any time soon, module companies are planning ahead and solar customers are being cautious.

“We’re being proactive as a manufacturer and trying to identify new ways to eliminate this,” REC’s McClellan said. “The projects and the banks are requesting PID testing, and we need to be certified before they’ll purchase modules.”
This often means going back to the very beginning. REC Group found the PID problem lay in its bill of materials. Although REC’s final, completed module was being tested for PID as a whole, REC had to do its own testing on each material that was being assembled into the final product.

“Making sure your bill of materials is PID-free and the processes associated with module assembly—there’s been no real magic silver bullet over the last year,” McClellan said. “It’s really testing different bills of material and ensuring that they’re all PID-free.”

For example, various anti-reflective coatings have been found to contribute to PID. Module companies have started looking at each piece of the finished module and weaning out disruptive materials for better-produced components. This may mean a cost increase on the solar panel, but at least that PID-free claim can be supported.

As new module configurations enter the market, installers are still cautioned to be aware of PID issues. Meydbray said although frameless and glass-glass modules claim to be 100% PID free (since there’s no metal frame to disrupt voltages), depending on the mounting materials, the full system could be PID-compromised.

“Frameless modules are usually still mounted with metal clips. The metal clips still serve as a grounding point,” he said. “It doesn’t cover the whole module, so the risk is probably lower. Risk is reduced, not removed.”

So while there is some truth behind module manufacturers’ PID-free labeling, until there is a standard everyone has to follow, do your homework and make sure components have been tested.

“PID is going to remain a concern until we change overall architecture—either the encapsulants and backsheets or cell architecture,” McClellan said. “I think this module architecture is susceptible to PID moving forward. This is not going to go away. It’s going to become more important.” SPW

Solar Power World

ILSCO is pleased to announce an exciting enhancement to its NIMBUS 4FLEX line of pre-insulated connectors. NIMBUS 2X has a unique wire stop feature built into the connector. This allows an installer to use flex or code conductor on either side with no need to stagger the inputs and outputs, which optimizes space because 2X requires half the space as conventional connectors.

Another distinctive feature of the offering is the ability to mix any class of copper and/or aluminum conductor without concern for expansion, contraction, and galvanic corrosion.

ILSCO’s patented screw design improves vibration resistance, compresses conductor without damage, and eliminates the need for ferrules making it reusable. The entire line of NIMBUS connectors are UL Listed, CSA Certified, RoHS Compliant and dual rated for copper or aluminum conductor.

Solar Power World

German born solar enthusiasts Josef Kessen and Georg Veit discovered they had common dreams after meeting at a convention in 2011, and formed Geenex a year later. After working a couple smaller projects, they searched for a place to build a larger project that could also include a solar educational center.  They found a winning site in the former 220-acre Halifax County airport, which had been vacated when a new airport opened in 2009.

Construction on the site in Roanoke Rapids began in June of 2014. Workers installer more than 100,000 ET Solar and Chint Power Systems panels. The project also uses 866 Advanced Energy 3TL string inverters, each with 23.2 kW of AC capacity. The installation, known as the HXOap Solar Project, can produce enough electricity to power approximately 3,500 homes.

The solar farm also includes a 5,000-square-feet learning center where professionals can come study for solar jobs, and students can learn about solar power.

“We are proud of the solar farm we built, but even more exciting is the partnership with the community,” said Georg Veit, CEO of Geenex. “In a unique economic development agreement with the county, we have broken ground on our Solar Center of Excellence, which will provide education about solar power and work in partnership with the schools in the region and Halifax Community College to train solar energy technicians.”

The project reached commissioning in December of 2014 and includes a 15-year power purchase agreement with Dominion North Carolina Power.

Project Details
Location: Roanoke Rapids, N.C. (Halifax County)
Size: 20 MW AC
Panels: ET Solar, Chint Power Systems
Inverters: 866 AE 3TL string inverters
Racking: RBI Solar
Developer: Geenex and ET Capital
Designer/Installer: Alpha Energy
Monitoring: AlsoEnergy

Solar Power World

Nicole Loepp is a marketing coordinator at WTWH Media, the publisher of Solar Power World.

When envisioning a kiosk, one of those stands in the shopping mall may come to mind—selling everything from cell phone cases and sunglasses to calendars and bathtub installations.

If puzzles and airbrushed T-shirts can sell in these stands, why not solar? The solar industry is taking to the kiosk trend in an effort to educate and market to a residential audience. Some companies are following tradition, strategically positioning booths in malls, while others are setting up in airports and universities.

Matt Case, marketing and sales manager at Phoenix Kiosk—a designer, manufacturer and distributor of kiosks—said he’s seeing more solar companies request kiosk services. “Solar companies are using kiosks as interactive marketing tools to better communicate the benefits of their solar program to customers and stakeholders,” he said. “These kiosks often receive praise for educating consumers regarding their impact on the environment and pay-back. Not only can solar companies efficiently engage their audience, but they can educate the public in the process to achieve a truly sustainable program.”

Last year, Sunrun introduced its BrightPath Station, an interactive kiosk that allows consumers to pinpoint their home on a map and quickly receive an assessment if they are suited for solar and get a quote. The kiosk uses Sunrun’s BrightPath software, which was developed with help from DOE SunShot 8 funding. After placing kiosks in four Hawaiian retail locations such as Costco, Sunrun saw same-store sales increased 10 times over the previous year. Andrew Pontti, corporate communications manager at Sunrun, believes that existing retail solar approaches are relatively unsophisticated and that kiosks can greatly improve engagement. “Shoppers seek a non-threatening experience to play, learn and ask questions,” he said. “They can do so in the highly engaging environment we’ve created.”

By answering a few simple questions, consumers can use the station to understand their energy needs and receive multiple home solar system design options that provide the best energy production and savings for their needs. Sunrun has also placed kiosks at retail locations across California and New York. The company plans to expand kiosk distribution with additional retail partners this year. “Consumers want to learn about and buy solar where they feel comfortable,” Pontti said. “We think retail environments offer a significant opportunity for increasing solar adoption through a quality experience.”

Sunrun and others using kiosk technology believe that this “new” way to look at solar will ultimately lead more American families to adopt solar. Why not take a look at this and other unconventional, creative ways to market your brand?

Solar Power World