• Fighting fires in California hobbled by hobby drones

    A spokesman for the U.S. Forest Service said last Thursday that private drone flights in restricted airspace around forest fires have impeded the efforts of firefighting crews to deal with a blaze in the San Bernardino Mountains. The incident has increased the fears of fire and aviation officials that the growing national use of hobby drones could seriously disrupt traditional air traffic and put lives at risk.

  • Robots on reins to be the “eyes” of firefighters in dark, smoke-filled buildings

    Currently, even when they have a map of the building, firefighters have to grope their way forward if smoke has badly affected visibility, feeling their way along a wall or following ropes laid by the first firefighter on the scene. But with only twenty minutes of oxygen per firefighter, there is a real need for any innovation that can help them move more quickly and easily. Now, firefighters moving through smoke-filled buildings will save vital seconds and find it easier to identify objects and obstacles, thanks to revolutionary reins that enable robots to act like guide dogs.

  • Green concrete is more fire-resistant

    Selecting materials with high fire endurance is particularly important when constructing tunnels and high-rise buildings, and when storing hazardous materials. Concrete made using an industrial by-product has shown better fire endurance than traditional concrete when exposed to fires of nearly 1,000 degrees Celsius.

  • Interconnected technologies to make firefighters safer

    When responding to the more than 1.2 million blazes reported annually, the nation’s firefighters usually start with a dangerous disadvantage: They often lack critical information — even something as basic as a floor plan — that could be vitally important in mounting the most effective and safest attack. That information gap could be erased with today’s communication, computing, sensor and networking technologies.

  • Firefighting humanoid robot shows its skills

    In fall 2014 in Mobile Bay, Alabama, Virginia Tech engineering students made history during a five-minute demo that placed an adult-sized humanoid robot with a hose in front of a live fire aboard a U.S. Navy ship. The robot located the fire and sprayed water from the hose. Water blasted the flames. The demo, four years in the making, is part of a new effort by the U.S. Navy to better assist sailors in fighting fires, controlling damage, and carrying out inspections aboard ships via user-controlled unmanned craft or humanoid robots.

     

  • Forest managers hampered in efforts to control costly wildfires by using prescribed burns

    Fighting wildfires is costly. The U.S. government now spends about $2 billion a year just to stop them, according to the National Interagency Fire Center. This is up from $239 million in 1985. Forest managers would prefer to use prescribed burns every few years to help prevent costly wildfires and rebuild unhealthy ecosystems, but hurdles like staffing, budget, liability, and new development hinder them.

  • Improved structure firefighting glove commercially available

    When responding to structural fires, firefighters wear protective gloves known as “structure gloves” to shield their hands from burns and other injuries. Because structure gloves can be bulky and limit dexterity, firefighters often need to remove the gloves to complete routine tasks, such as handling operating tools or using communications equipment. Without gloves, firefighters’ hands are at a higher risk of injury. DHS S&T partnered with two companies to construct a new, improved structure glove that will provide the full range of protection firefighters need. This next-generation glove provides firefighters with enhanced dexterity, water repellency and fire resistance. The glove is now commercially available.

  • Researchers make “bio-inspired” flame retardants in a jiffy

    Furniture fires are the leading cause of casualties in house fires. In 2013, they accounted for about 30 percent of more than 2,700 deaths in residential fires. After devising several new and promising “green” flame retardants for furniture padding, NIST researchers took a trip to the grocery store and cooked up their best fire-resistant coatings yet.

  • Fighting fires with low-frequency sound waves

    A thumping bass may do more than light up a party — it could flat out extinguish it, thanks to a new sound-blasting fire extinguisher by George Mason University undergrads. The fire extinguisher uses low-frequency sound waves to douse a blaze. Their sound-wave device is free of toxic chemicals and eliminates collateral damage from sprinkler systems. If mounted on drones, it could improve safety for firefighters confronting large forest fires or urban blazes.

  • Tethered robots to be the “eyes” of firefighters in “blind” conditions

    Researchers have developed revolutionary reins which enable robots to act like guide dogs, which could enable that firefighters moving through smoke-filled buildings could save vital seconds and find it easier to identify objects and obstacles. The small mobile robot — equipped with tactile sensors — would lead the way, with the firefighter following a meter or so behind holding a rein. The robot would help the firefighter move swiftly in “blind” conditions, while vibrations sent back through the rein would provide data about the size, shape and even the stiffness of any object the robot finds.

  • Redesigning wild-land fire fighter uniforms

    The most common cause of injuries to wild-land firefighters is not burns. When leaders at the California Department of Forestry and Fire Protection (CAL FIRE) noticed their wild-land firefighters were experiencing more heat stress injuries — like heat exhaustion and heat stroke — than burn injuries, they wanted to know why and how to prevent them. They soon realized their uniforms were part of the problem. Working with a team at the University of California, Davis, they developed technical and design specifications for a new uniform aimed at increasing the comfort and breathability while maintaining the current level of protection against flames. In 2011, CAL FIRE approached the Department of Homeland Security Science and Technology Directorate’s (S&T) First Responders Group (FRG) requesting assistance in developing prototype garments.

  • Improved fire detection with new ultra-sensitive, ultraviolet light sensor

    Currently, photoelectric smoke sensors detect larger smoke particles found in dense smoke, but are not as sensitive to small particles of smoke from rapidly burning fires. Researchers have discovered that a material traditionally used in ceramics, glass and paint can be manipulated to produce an ultra-sensitive UV light sensor, paving the way for improved fire and gas detection.

  • Understanding the ingredients, conditions that cause spot fire ignition

    Hot metal fragments can be created from power lines, overheated brakes, railway tracks, or any other manner of metal-on-metal action in our industrialized society. The particles can reach more than 5,000 degrees Fahrenheit, around the boiling point of most metals. Although these bits cool as they fall to the ground, they can ignite a flame that quickly spreads if they land on a prime fuel source like pine needles or dry grass. At least 28,000 fires occur each year in the United States due to hot metal hazards, according to a 2013 U.S. Department of Agriculture report.

  • A first: Engineering students design firefighting humanoid robot

    In fall 2014 in Mobile Bay, Alabama, Virginia Tech engineering students made history during a five-minute demo that placed an adult-sized humanoid robot with a hose in front of a live fire aboard a U.S. Navy ship. The robot located the fire and sprayed water from the hose. Water blasted the flames. The demo, four years in the making, is part of a new effort by the U.S. Navy better to assist sailors in fighting fires, controlling damage, and carrying out inspections aboard ships via user-controlled unmanned craft or humanoid robots.

  • Modeling study reveals the lethal dynamics of a San Francisco house fire

    A new computer-based fire-dynamics study by researchers at the National Institute of Standards and Technology (NIST) has helped to clarify the circumstances and violent fire behavior of a lethal 2011 blaze in a San Francisco hillside home. The fire in the multi-story, single-family dwelling claimed the lives of two firefighters.