Developing and adopting cost-efficient and renewable energy sources are important tasks on the minds of many Americans. With every year, more homes and businesses are utilizing innovative forms of energy generators, particularly solar panels using photo-voltaic technology, to help the environment and their wallets.
However, as with all technology, innovation can come at a price. When a fire emergency situation erupts in a solar-powered structure, firefighters and first responders face a new and unique set of threats.
A study funded by the Department of Homeland Security and the Federal Emergency Management Agency (FEMA) outlined several additional hazards for firefighters when encountering the emerging technology. These concerns are multiplied for firefighters when they come across a large structure that utilizes industrial-sized solar power systems.
AccuWeather.com spoke with Casey Grant, research director for the Fire Protection Research Foundation, who prepared the aforementioned study Fire Fighter Safety and Emergency Response for Solar Power Systems.
"I don't want to cause undue alarm to the hazards [of solar panels], but on the other hand, we do want to be aware when we push forward with this type of technology, that we are sensitive and understanding of the potential hazards that new technology presents," Grant said.
Solar panels on the roof of one of Rockefeller Center's buildings are unveiled on Tuesday, Nov. 20, 2007, in New York. Tishman Speyer, the manager and co-owner of Rockefeller Center, says the panels will help to power the lights on the center's Christmas tree this holiday season. (AP Photo/Mark Lennihan)
One of the essential tasks firefighters perform when first arriving on the scene of an emergency is to cut electrical power to remove the electric shock hazard.
Traditionally, this task is accomplished by instructing the utility company to cut power to the portion of the electric grid the structure runs off. With solar panels independently generating their own power, this task is difficult and sometimes impossible.
"The bottom line is that with solar panels with photo-voltaic technology, when the sun is out and they are receiving that energy from sunlight or artificial sources [such as moonlight or emergency responder's lights], they are generating power," Grant explained.
The systems may also be equipped with battery storage that continues to provide power even when the system isn't receiving light. This poses the added threat of electric shock hazard for firefighters when entering the building to contain the fire.
This challenge is perhaps the most dangerous aspect of solar technology, as every system should be considered "live" and dangerous. This threat significantly impedes firefighters' tactical operations to contain fires and lessen the structural damage.
Another physical danger for fire services is slipping or tripping on rooftop solar panels.
Firefighters often perform ventilation tasks in structure fires which regularly require personnel to walk on rooftops to complete. Factoring in the emergency situation, possible inclement weather or low visibility at night, firefighters can be prone to slipping or tripping on solar panels installed on roofs.
Firefighters must always be aware of the physical dangers the solar panels present in order to complete their job safely.
The materials used to create solar panels may also present respiratory hazards in a fire. Caution should be exercised around all burning materials, especially since synthetic materials generally pose a concern when they are damaged in a fire.
"With the photo-voltaic panels being a part of those fires, it's producing materials in the products of combustion that are not good for respiratory and dermal exposure," Grant said. The foundation recommends that firefighters wear full respiratory protection with self-regulating breathing apparatuses to avoid unnecessary exposure.
Since solar panels are constantly exposed to the elements, they need to be made of durable materials that can withstand all types of weather.
Unfortunately, the materials that perform well in this regard (like certain types of plastics) are not especially fire-resistant. Homes with solar panels are in particular danger from spreading wild land fires. The study notes that, "The components [of the solar panels] do not necessarily have good fire-resistant characteristics."
While there have been no studies conducted that confirm solar panels have contributed to an increased spread of wild fires, it is a concern that should be monitored and addressed as necessary.
Although a residential building may employ only a few solar power modules, the electricity it generates can be lethal to anyone who comes into contact with it. This risk is exponentially more dangerous with large warehouses or commercial buildings that have hundreds of panels installed.
Firefighters approaching solar energy systems of this magnitude should exercise the same caution as they would approach a burning power plant or transformer yard.
Grant mentioned that, "These commercial systems, they can be enormous and the level of energy they are generating is significant and note-worthy. So, it needs to be addressed wisely and with the proper pre-planning on the fire service side."
Although there are no recorded injuries or fatalities directly related to fires concerning solar power systems, the threat for fire personnel will continue to become more common as more consumers adopt this technology. Grant said, "It is a neverending task to continue to bring information and update the U.S. fire service."
The research being conducted by the Fire Protection Research Foundation aims to stay on the forefront of the solar panel technology, in order to anticipate possible threats for fire responders.
The benefits of renewable energy are tremendous and can mitigate the potential risks, with the pre-emptive measures being enacted and tactical operations for firefighters being amended. "Photo-voltaic power and solar panel systems are a great form of alternative energy in today's world. And the fire service in U.S. and elsewhere, they are big users of this technology as much as anyone else," Grant said.
He further explained, "With any new technology, there are often additional risks and the fire service is trying to stay ahead of those hazards. So as they perform their job functions, they do so in a safe and effective manner as much as possible to accomplish the task they need to do."
As July draws to a close, a storm system swinging up from the Deep South will bring downpours that will break the back of the heat wave in much of the northeastern United States.
A renewed risk of severe weather will threaten portions of the north-central United States into midweek.
Heavy downpours will raise the concern for flash flooding along the Gulf Coast and lower Mississippi Valley through midweek.
A stifling heat wave will remain entrenched across the Northeast much of this week, despite a brief reprieve in humidity for some.
Dangerous heat will surge northward and send temperatures rising across the northwestern United States this week.
Severe thunderstorms rumbled through the Northeast on Monday, lashing the region with damaging winds while also unleashing heavy downpours that triggered flash flooding.
Newark, NJ (1989)
99 degrees -- tied 1940 record.
Cold morning: 39 degrees at Ironwood and Marquette.
Pueblo, CO (1993)
A double record: 52 degrees in the morning and 101 degrees in the afternoon.