ForeFront Power develops solar carport, storage system for University of California, Santa Cruz

Forefront power

The University of California, Santa Cruz (UCSC) has partnered with ForeFront Power to develop a 2-MW solar parking canopy structure plus energy storage system that will provide clean, reliable electricity to the campus over a 20-year term. UCSC procured renewable energy with ForeFront Power through a streamlined procurement process via School Project for Utility Rate Reduction (SPURR). By utilizing a Power Purchase Agreement (PPA) framework with no upfront cost through ForeFront Power and SPURR, the University will benefit from $6 million in electricity savings during the project term.

“We considered a number of options and the partnership for this project was determined to be the most expedient and the best and the cleanest solution,” said Traci Ferdolage, Associate Vice Chancellor of UCSC. “ForeFront Power and SPURR have been very responsive and supportive of the University’s renewable goals.”

The solar parking canopy project will contribute to the University’s Campus Sustainability Plan, which includes the goal of installing 4 MW of solar photovoltaic technology on the main campus. Moreover, this project is part of the campus’ strategy to meet the UC’s Carbon Neutrality Initiative, and partnerships like this project, will be a key component to meet this 2025 goal.1 Over 3 million kilowatt-hours (kWh) of electricity from the project will result in more than 2,500 tons of carbon dioxide equivalent avoided from the grid.

In addition to the benefits of on-site solar energy, the project will include 1.2 MW of energy storage to reduce peak demand and shift load to times of day when electricity is cheaper. The intelligent use of energy from the storage units combined with on-site solar energy generation helps maximize clean energy generation and enhance on-site sustainability.

“The inclusion of energy storage increases the value of the on-site solar project to the University,” said Go Mizoguchi, Co-CEO of ForeFront Power. “The University is able to save even more money while incurring no upfront cost.”

Since 2015, the SPURR Renewable Energy Aggregated Procurement (REAP) program and the ForeFront Power team have helped over 20 school districts, colleges, and municipalities procure more than 50 MW of clean solar power across more than 100 sites.

“It is exciting to see our program extended to the UC System at Santa Cruz so that more public organizations can benefit from the saved time, effort, and money by using our procurement process,” said Michael Rochman, Managing Director of SPURR. “SPURR strives to offer clear, fair, and competitively-sourced terms and conditions that allow for easy sourcing.”

ForeFront Power will be working with local Santa Cruz based companies to complete the installation. Together, ForeFront Power and UC Santa Cruz will engage in a phased construction approach to minimize impact on students and faculty. Engineers have already begun working closely with UCSC staff to ensure a safe connection to a complex campus grid that includes a natural gas fueled cogeneration plant.

The schools will also receive free post-secondary level lesson plans from Schools Power, a leading national education organization that provides schools and colleges with standards-based renewable energy curriculum packages. ForeFront Power and Schools Power announced their partnership in July 2017.

— Solar Builder magazine

Solar Builder 2017-06-19 16:15:39

Historic funeral business leaps into 21st century with rooftop solar arrays on seven locations

freedom solar installation

Freedom Solar recently installed more than 530 kilowatts of solar power on seven locations of Mission Park Funeral Chapels and Cemeteries, the largest and oldest privately owned funeral company in San Antonio.

Powered by 1,634 high-efficiency solar panels, the new solar projects will offset more than 55 percent of Mission Park’s electricity needs at the seven locations: two mortuaries (Oak Hill and Palm Heights), its corporate office, three funeral chapels and cemeteries (North, South, and Dominion), and its funeral home (Brookehill).

The entire system is expected to pay for itself in less than four and a half years. A generous local utility rebate covered roughly 46 percent of total system costs. Mission Park will also receive the Federal Investment Tax Credit (ITC) for 30 percent of the project’s total cost, saving the company a total of 76 percent.

Annually, Mission Park’s solar arrays will produce 778,735 kilowatt-hours of electricity, which will offset more than 547 metric tons of carbon dioxide equivalents. Because funeral homes operate 24 hours a day seven days a week, electric bills are a large portion of their operating costs. Mission Park’s project features SunPower 327-watt solar panels, which are the most efficient available today, with unmatched reliability and an expected life of more than 40 years. Freedom Solar Power is a SunPower Master Dealer, the only company with that distinction in Texas.

Once the first phase (the initial seven locations) of Mission Park’s solar project has paid for itself, Tips will begin phase two and have Freedom Solar design and install solar arrays on another set of its locations.

Austin Independent School District adds 600 kW rooftop system

PCI Solar is installing a 600 kilowatt portfolio of rooftop solar for Austin Independent School District (AISD), as well as providing classroom instruction to Austin High School engineering students interested in careers in solar. Austin High is one of the AISD schools receiving a solar energy system, and invited PCI to speak with interested students, some of whom have solar on their homes. PCI Solar staff provided an overview of how solar energy works, the economic case for solar, and the various types of careers in solar energy.

PV in schools: Education sector is one of solar’s best opportunities

“We were really impressed at the knowledge level of these students regarding energy in general and solar specifically,” said Mark Hilpert with PCI. “They asked good questions and had a knowledge far beyond what I had at their age. If these sorts of kids join our industry, we will be fortunate.”

PCI staff and the students discussed a variety of issues including the differences between ground mount, rooftop and carport solar, and the different market opportunities between residential, commercial, and utility scale solar. An informal poll of the students indicated that at least 25 percent of them were actively considering a career in renewable energy.

PCI is nearing completion on the AISD portfolio, which was won through a public competitive bid process. AISD valued PCI’s experience building solar for other school districts, including Alamo Heights Independent School District in San Antonio, TX and Petaluma City Schools in California.

 

ReVision Energy, Quest Renewables design solar canopy atop Portland, Maine garage

revision parking canopy

ReVision Energy, in partnership with Quest Renewables, recently completed the installation of a 193.63-kW QuadPod solar canopy system atop Portland, Maine’s Fore Street Garage. The system has been producing power since late May. Fore Street Garage is owned by ReVision Energy’s customer, East Brown Cow Management Company.

The installation marks the first commercial solar parking garage canopy in the state of Maine. The solar parking garage canopy on the top level of the Fore Street Garage provides shaded parking and cover from the elements for vehicles and provides clean, local, renewable energy to the Hyatt Place. The 193.63kW solar array consists of 578 individual panels wired to seven grid tied inverters and mounted to an advanced long span solar canopy structure.

Park-onomics: Best practices for constructing cost-effective carport projects

The system was designed by Quest Renewables and features seven of their QuadPod solar canopies. To accommodate the addition of the system atop the parking garage, engineers designed it to integrate into the garage with minimal disruption during construction. 90% of QuadPod’s construction activity, including assembly, wiring and lighting, takes place on the ground. After assembly, wiring and lighting, the solar canopies are lifted by crane for final installation, minimizing overhead work and optimizing worksite safety. Worksites are safer and more efficient with construction crews working on the ground.

The power generated by the system will offset energy used by the garage and the Hyatt Place, also owned by East Brown Cow Management Company. The 578 solar panels atop the system will produce an estimated 232,235 kWh of clean, renewable energy each year for decades to come, offsetting over 23 percentof the hotel’s historical electrical consumption. Over its lifetime, this system will eliminate 7 million pounds of CO2 pollution. The array is grid-tied, and feeds into the utility grid anytime it’s making more energy than is being consumed on site. Solar energy is eligible for a federal tax credit, worth 30% of the total project cost.

How Temple Beth Elohim Wellesley financed solar energy for its synagogue

Temple Beth Elohim, a Wellesley-based Reform congregation, has joined with Solect Energy and PowerOptions of Boston, to install a 37-kW solar energy system on the roof of its synagogue. The solar array is a significant addition to the congregation’s efforts toward
sustainability.

As a nonprofit that is unable to benefit from renewable energy federal and state tax incentives, the Temple faced a number of options for financing and installing the solar array. After comparing rooftop solar opportunities from different vendors, a team of congregants, staff and clergy at Temple Beth Elohim selected Solect’s small systems solar program with PowerOptions.

Under the program, Solect installs, owns, and operates the solar arrays on the Temple’s roof, and sells the power generated under a Power Purchase Agreement (PPA) at a fixed rate for a period of 20 years. However, completing the transaction was not as straightforward as in many other towns. Solar generation works differently under municipal utilities than it does in an investor-owned territory with utilities like Eversource and National Grid. Wellesley is one of 41 towns in Massachusetts that purchase power from the electric utility owned by the municipality, in this case, the Wellesley Municipal Light Plant (“WMLP”).

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Massachusetts laws require the utility to be the reseller of power to its customers within the town boundaries. Making the array a reality required a PPA with the WMLP. Under the agreement, the power generated from the array is purchased by the WMLP, who then sells it to the Temple.

“Creating the contractual arrangement with the municipal electric utility requires an understanding of Massachusetts laws and maintaining a focus on value for the customer,” said Kevin Sullivan, Assistant Superintendent for the WMLP. “It required hard work and collaboration from a number of different parties to develop this innovative solution, and I’m thrilled we made it work for the congregation.”

Nexamp Powers Up Community Solar  in Massachusetts

Nexamp logo

Nexamp sent word that it completed a 700-kW facility located in Fitchburg, Mass., that is the first community solar project to serve Unitil customers in Massachusetts and will provide local residents and small businesses with access to the benefits of solar energy for the first time.

Through Nexamp’s innovative Solarize My Bill community solar program, participating Unitil customers, many of whom were previously unable to install solar panels on their own property, are now seeing reduced electricity charges through their subscription to the Fitchburg Solar project. In addition, the neighboring Town of Lunenburg will realize substantial energy cost savings through a long-term agreement to purchase discounted energy credits generated by the project. Together, the Town of Lunenburg and Nexamp’s Solarize My Bill customers are expected to save hundreds of thousands of dollars through their participation in the project.

“Lunenburg has enjoyed a very beneficial relationship with Nexamp,” said Phyllis Luck, Board of Selectman, Town of Lunenburg. “In addition to the Town’s net metering agreement, which is expected to generate over $600,000 in utility cost savings over the next 20 years, Nexamp has extended the partnership to include our Town’s residents, who remain keenly interested in community solar. In fact, Nexamp enrolled nearly 40 Lunenburg households in two weeks’ time to theirSolarize My Bill community solar program and these residents should save over $275,000 in electricity costs over the term of their subscriptions with Nexamp.”

The project is situated on land towards the rear of an active apple orchard in Fitchburg, providing the landowners with a reliable source of ground lease income that will help keep the orchard operational and enable it to offset nearly all of its energy needs from local renewable resources.

Fitchburg Solar is one of 17 community solar facilities that Nexamp has constructed and expects to achieve operations in the coming months.

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— Solar Builder magazine

Technical school in Massachusetts adds 663-kW solar canopy via Solect Energy

Ribbon-Cutting-UCT

Upper Cape Cod Regional Technical High School (UCT), a public vocational-technical high school in Bourne, Mass., partnered with Solect Energy and Green Seal Environmental to develop and install a 663 kW solar canopy in the school’s existing parking lot. In addition to powering the school, the Bourne Rec Authority will also be drawing power from the solar array, which will provide meaningful savings over their current costs. The array became a reality thanks to a 20-year Power Purchase Agreement (PPA) with Solect Energy.

“We are thrilled about the addition of the new solar canopy to our school,” said Bob Dutch, Superintendent at UCT. “The solar array marks a new venture for Upper Cape Cod Tech’s students and staff, who will be able to utilize the technology as part of their curriculum. We are especially thankful to Solect for enabling our school to experience significant savings on our energy costs.”

RELATED: Park-onomics: Best practices for constructing cost-effective carport projects 

Financing

Upper Cape Cod Regional Tech worked with Green Seal Environmental to develop, design and permit the array, in collaboration with Solect who financed and constructed the system through a Power Purchase Agreement (PPA), Solect owns and operates the solar array, and sells the power generated back to UCT at a reduced, fixed rate for the duration of the agreement. The entire project was completed and commissioned at zero cost to UCT and the clean energy provided to them and the Bourne Rec Authority will reduce their current energy costs.

“It was a pleasure partnering with Upper Cape Cod Tech on this project,” said Ken Driscoll, CEO at Solect Energy. “It is a wonderful thing to provide schools with solar energy, as the benefits are plentiful to the school, its students and staff, and the environment—even more so with UCT, as the array is helping to power Bourne’s Recreation Authority as well.”

 

— Solar Builder magazine

SunPower constructs 4.8-MW carport on two California campuses

sunpower helix carport

California State University, Long Beach (CSULB) and SunPower Corp. (Nasdaq: SPWR) are constructing a 4.8-megawatt SunPower Helix Carport solar power system at two university parking areas. CSULB will purchase the solar power generated by the system under a power purchase agreement that offers competitive rates, enabling the university to offset approximately 15 percent of campus electrical load with clean, renewable solar power.

The SunPower Helix platform is a fully-integrated solar solution for commercial customers. Available for installation as a carport, on the roof, or as a ground-mounted technology, Helix is a pre-engineered, modular solution designed to deliver more energy and greater reliability than conventional solar products. The elegant design of the Helix carport can also enhance the aesthetics on campus. Since launching the product late last year, SunPower has contracted a total of 40 megawatts of Helix Carport to deliver to customers in the commercial and public sectors.

In addition to generating power, the solar carports at CSULB will provide to the campus community needed shade and electric vehicle chargers with the capacity to charge 50 cars. All of the systems are expected to be operational by the end of next year. CSULB will own the renewable energy credits associated with the systems.

RELATED: Solar carports will spread across the country as costs decline 

SunPower estimates that one year of solar energy produced by the CSULB system, once it is operational, could power more than 2,200 electric vehicles for 30 years. According to estimates provided by the Solar Energy Industries Association, the annual power production of the system will be equivalent to the power required by 1,200 average California homes.

CSULB has three operating solar power systems on campus today, but this new SunPower project will be the largest solar power system on campus and within the 23 campus CSU system to date.

As part of its commitment to sustainability, the university’s Sustainability Task Force oversees a range of activities to reduce campus environmental impact, including energy efficiency, water conservation, sustainable food service, and waste reduction and recycling.

— Solar Builder magazine

WATCH: PCI Solar constructs carport in Woodland, Calif.

PCI Solar carport

PCI Solar completed a solar carport array for the City of Woodland, Calif. The solar project, part of a 2.5-MW portfolio that PCI Solar is building for Woodland, was part of an RFP hosted by Terra Verde Renewable Partners.

The system will help power the City of Woodland’s police headquarters. The carport is unique because it spans the entire parking lot, using an East/West racking design to maximize usable space and shade for the parking lot. The array consists of 1,462 Hanwha Q Cells 310 watt modules, SolarEdge and Solectria inverters and AlsoEnergy monitoring. SolarEdge inverters were used to minimize the shading effects of a cell phone tower in the parking lot.

And here is its full construction in a one-minute video:

City of Woodland Meter Police Station Solar build, timelapse from David Ezrailson on Vimeo.

Commissioning is scheduled next month, and once online, the system will provide clean solar energy for at least 25 years. The project is expected to generate approximately 636,012 kwh per year.

PCI Solar has constructed multiple solar arrays for cities across the western United States, including Bizbee and Douglas in Arizona and Bishop in Callifornia, . Solar energy’s extremely low water use compared to conventional energy generation also provides a compelling rationale to go solar in an arid, water-constrained environment.

For more about PCI Solar, visit their website.

— Solar Builder magazine