When it comes to installing photovoltaic (PV) systems on commercial roofs, and across parking lots for that matter, who would argue the benefits these solar electric systems provide? Clean, renewable energy has never been more popular and given the meteoric rise in energy prices, that trend will likely continue.

While these systems require capital expenditure up front, their long-term cost savings are indisputable. Even if the price for a kilowatt-hour (kWh) were by some miracle to remain constant for the next 30 years, an appropriately sized commercial system could eventually pay for itself. No two ways about it, lowering electrical expenses looks good on a company’s financials.

An array of photovoltaic panels form a banded design on PG&E’s Harrison Street Service Center.  The panels are attached through the faux concrete to the building’s metal frame beneath.

Moreover, who could argue the good PR these systems afford their owners? What’s not to like? Well, not that it would argue these points, it wouldn’t but for California’s largest public utility with one of the nation’s largest portfolios of clean energy projects, Pacific Gas & Electric Co. (PG&E) has a different row to hoe when it comes to installing a PV system on one of its buildings. The clean renewable energy is important, but PG&E, in this case, is not looking at financial payback.

For PG&E, owning and operating a rooftop PV system is akin to investing in an electrical power plant. Granted the scale is different but the concept is the same. The electricity generated at its Harrison Street Service Center in San Francisco goes directly into the grid. However, the PV system’s purpose is two-fold; it supplies power to the grid, and it is a visible demonstration of the utility’s commitment to renewable energy.

“We are always looking for innovative new ways to provide clean power to our customers. Now, obviously this system is a drop in the bucket compared to other contracts PG&E has signed, but it is a great visible demonstration of our commitment,” said Katie Romans, environmental news representative for PG&E. “Whether it is measured in kilowatts or megawatts, every watt of renewable energy that goes into the grid has a positive impact on our energy future.”

Premier Power Renewable Energy engineers designed and installed custom racking, enabling the façade photovoltaic array to attach to the building’s frame yet hang the first row of panels over the parapet wall.

But wait, most commercial rooftops are flat. How could a commercial rooftop PV system be visible except from above? After all, the point here is visibly demonstrating PG&E’s commitment – customers need to see it.

To this end, when PG&E brought five of California’s largest solar installation and integration companies to its Harrison Street building, its plan was simple. Show them the roof, point to the parking lot and find out what kind of a photovoltaic system each would recommend. Four came back with basic plans, flat system on the roof, carport systems in the parking lot; one came back with “solar bling.”

“On the ride back to the office, we were discussing the project, and no offence to our competitors, but we just knew they would all come back with the biggest system they could install and then compete on price,” said Kevin Logue, senior solar analyst for Premier Power Renewable Energy. “I knew we could do better. We envisioned raising the system up and having it ‘flow’ over the parapet and down the front façade in a ‘waterfall’ effect. We wanted to make it productive, visible and pretty.”

The raising and tilting of the rooftop PV array would not only make the system visible to the public, it would increase system productivity by about 15 percent (71,385 kWh/yr) over a similarly sized vertically mounted flat roof system (62,021 kWh/yr) and by more than 85 percent over original plans (38,577 kWh/yr).

Premier Power Renewable Energy engineers designed and installed custom racking, enabling the façade photovoltaic array to attach to the building’s frame yet hang the first row of panels over the parapet wall.

However, PPRE still needed to flow the PV panels over onto the façade, which by itself, could not support the panels and meet the city’s seismic code. In addition, the parking lot had its own set of challenges, ranging from the seismic stability of the land itself to whether PG&E’s own trucks would clear the structures.

“This installation was not a typical photovoltaic job. The project consisted of three separate systems types. There is a building façade system, a rooftop system and a ground mounted single access tracking system for the employee parking lot down the street. The latter was Kevin’s idea as well and the first time I had heard the term ‘solar bling,’” said Don Peek, chief electrician at PPRE. “While the original plan called for covering the lot in front of the building with a PV system, the possibility of one of the service trucks clipping a panel seemed too great. That’s when Kevin suggested the employee parking lot and the tracking system. PG&E agreed, giving the utility three highly functional and visible PV systems.”

The Façade Challenge
The Harrison Street Service Center building uses a banded-window design encased above and below by banded-panels of concrete attached to the building’s frame. Due to the lightweight construction, it would not be possible to attach the solar panels directly to the concrete. PPRE’s engineers designed custom attachment devices that allowed it to drill through the lightweight concrete, attach to the steel frame beneath and seal the penetration with a weatherproof, flexible compound. Not only did this technique assure the façade panels would stay in place, it satisfied all seismic requirements.

Additionally, the transition from the roof-mounted system to the façade array required a custom-designed mount and racking system that literally hung the first row of panels over the parapet while assuring their seismic integrity via ballasted mounting points secured directly to the flat roof. The result is a 49kW roof array that blends seamlessly with a 31.5kW façade array.

Premier Power Renewable Energy engineers designed and installed custom racking, enabling the façade photovoltaic array to attach to the building’s frame yet hang the first row of panels over the parapet wall.

The Final Bit of “Solar Bling”
PG&E’s site for the solar tracking system was once a wetland area. Now being mostly backfill, the city of San Francisco required PPRE’s engineering team to design and construct foundations measuring seven feet, by seven feet by four feet deep. Each of these foundations, totaling 30 in all required a full truck of concrete to fill.

The PG&E tracking system uses 588 flat mounted solar modules on single tracking systems that move with the path of the sun from east to west. Electric motors drive the trackers as electronic sensors set the optimum position.  This system not only shows off PG&E’s innovative approach for creating and delivering renewable energy to the grid, it increases the overall productivity of the panels from approximately 133,560 kWhs per year to an expected output of more than 190,800 kWhs per year, an increase of 43 percent.

“At the end of the day, it was not PG&E’s goal to have a “utility-looking” solar system that would just get noticed; it wanted a system that would blend in with the building. PPRE embraced this challenge and delivered some highly functional, highly visible solar bling in the form of a solar ‘waterfall’ and highly productive tracking system,” added Peek. “Combined, the three systems are expected to send enough electricity into grid to power about 100 homes each year.”