Spark arresters play a critical role in the prevention of wildland fire and ignition of explosive atmospheres. Consequently, their use is required by law in many jurisdictions worldwide.
Applications
Engines
Steam
Spark arresters for steam locomotives may be internal (in the form of wire mesh inside the smokebox) or external. The earliest platforms for spark arresters in the United States were steam locomotives. Wood- and coal-burning locomotives produce embers which are readily transported by the wind. One popular design was the Radley–Hunter spark arrester, which used a spiral-shaped cone to separate embers from the exhaust flow by centrifugal force.[1]
The problem of equipment-started fires continued into the 20th century. University of California, Berkeley researchers J.P. Fairbank and Roy Bainer provided the first known academic research on the subject.[2] Their experiments demonstrated that hot particulate matter larger than 0.023 inches (0.584 mm) in diameter was capable of igniting wildland fuels.
SAE J335 – Multiposition Small Engine Exhaust System Fire Ignition Suppression
SAE J342 – Spark Arrester Test Procedure for Large Size Engines
SAE J350 – Spark Arrester Test Procedure for Medium Size Engines
Modern technologies have largely eliminated the production of large particulate matter from internal combustion engines. However, as engines wear, carbon deposits can build up on the internal walls of the engine. When these deposits break free, they exit through the exhaust system and present a potential fire hazard. Vehicles without properly functioning spark arresters have been suspected of starting numerous wildfires, including the devastating track fire near Raton, New Mexico in June 2011.[4]
Spark arresters are also fitted to the top of a flue (or a chimney pot) to prevent floating embers from a fire (particularly one burning wood) setting light to a flammable roofing surface (shingle, thatch, or bitumen-felt) or falling onto combustible material on the ground. Such a spark arrester typically consists of a double layer of metal mesh, which catches the ember and allows the flue gas to escape.
Centrifugal type spark arresters employ stationary vanes, baffles, or other devices to trap large particles by centrifugal force. These spark arresters are typically found on heavy agricultural and construction equipment (tractors, combines, bulldozers, etc.), but some have been developed for motorcycles and other all-terrain vehicles.
Screen
Screen type spark arresters use a physical mesh to prevent large particles from leaving the exhaust system. This is the simplest and most common type of spark arrester. Screen type devices are used on most motorcycles, ATVs, and small engines.
Laws governing spark arrester use in the United States depend on the jurisdiction. Internal combustion engines operating on USDA Forest Service and most other federally managed lands must meet the requirements of the Code of Federal Regulations 36 CFR 261.52.[5] This mandate requires the operator to have a certified and properly maintained spark arrester installed at all times. Many state and local land management agencies defer to the federal requirement.
Exemptions exist for automobiles legally registered with their state's department of motor vehicles. During periods of extreme fire danger, land managers may prevent the use of all motorized equipment, even if a properly functioning spark arrester is installed. Spark arrester inspections are performed by trained agency law enforcement or fire prevention personnel. They may occur on an individual basis, or as part of an inspection checkpoint during busy recreation weekends. Operators caught using unqualified or modified devices could be cited. Penalties for violating spark arrester laws depend on the issuing agency. If it is determined a noncompliant vehicle was responsible for starting a fire, the operator could be held liable in civil or even criminal court.
Certification testing of spark arresters is performed by the USDA Forest Service Technology and Development Center in San Dimas, CA. The technical requirements are outlined in Forest Service Specification FS5100-1. All spark arresters meeting the requirements of 36 CFR 261.52 must be certified and listed in the USDA Forest Service Spark Arrester Guide. This guide is a comprehensive directory of all qualified products available in the United States, and is published biannually. The Spark Arrester Guide is used by field inspectors and consumers to verify product certification status. Manufacturers pursuing spark arrester qualification in the United States should consult the USDA Forest Service's "Manufacturer's Submission Procedure" for both general purpose[6] and small engine[7] spark arresters.
^US patent 7040, James Radley and John W. Hunter, "Spark Arrester", issued 1850-01-22
^Fairbank, J.P. and Bainer, R. Spark Arresters for Motorized Equipment. Bulletin 577, University of California Agricultural Experiment Station (1934)
^USDA Forest Service Technology & Development Program An Introduction to Spark Arresters - Spark Arresters and the Prevention of Wildland Fire (2003) [1]
^USDA Forest Service Technology & Development Program Manufacturer Submission Procedure for the Qualification Testing of General-purpose, Screen, and Locomotive Spark Arrester Exhaust Systems (2005)[2]
^USDA Forest Service Technology & Development Program Manufacturer Submission Procedure for the Qualification of Multiposition Small Engine Spark Arrester Exhaust Systems (2001)[3]