Oxygen

Shooting my AR-15 and a full oxygen bottle need I say more!

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For more information, go to http://www.va.gov/ncps/SafetyTopics/O2Cylinder.html
This is clipped from the FDA and NIOSH 2001video Hidden Danger: Oxygen Regulator Fires available at http://www.fda.gov/cdrh/ocer/dcm/html/gallery.html .

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Eliminating hazards by substituting safer equipment or materials is the best method to control workplace hazards. After NIOSH identified the possible risk of fire from the use of aluminum regulators with oxygen cylinders used by firefighters, EMA and in healthcare. Using a regulator constructed of bronze, brass, or other materials with comparable heat-resistant properties is a key safety step because these materials, unlike aluminum, are not likely to promote burning from particle ignition during oxygen flow. NIOSH suggested that users consult with the manufacturer to determine if a regulator is made of aluminum. For more, go to http://www.cdc.gov/niosh/updates/oxyrgl.html . This is clipped from the FDA and NIOSH 2001video Hidden Danger: Oxygen Regulator Fires available at http://www.fda.gov/cdrh/ocer/dcm/html/gallery.html .

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It took chris a few shots but the wait was worth it. The tank half melted from the heat flew about 55 feet and was buried in the hill to the right.

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The Wag’N O2 Fur Life Program provides Pet Oxygen Masks to first responders and pet parents throughout North America. The following video talks about the program, what’s included in each kit and how to properly use the masks.

To sponsor you department today visit
http://www.wagn4u.com/O2furlife

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In 1999, NIOSH warned fire departments and other emergency care and health care employers and workers about an occupational risk from aluminum attachments or regulators that controls the flow of oxygen from pressurized oxygen tanks or cylinders often used by fire departments and emergency medical services, and in health care settings. A number of factors contribute to the generation of a fire flash from these aluminum devices during equipment checks or routine use when the valve on the attached cylinder is opened, releasing a flow of oxygen to the regulator. NIOSH determined that a particle of aluminum from the oxygen cylinder entered the oxygen regulator when the cylinder valve was opened during an equipment check. The particle struck a filter component and ignited with the impact during the oxygen flow. In turn, a fire flash was triggered when aluminum in the regulator’s high-pressure section ignited; this is the part of the regulator that high-pressure oxygen enters from the cylinder. A similar hazard can be created from the impact of other types of particles in the oxygen flow, such as dirt or other contaminants. Using a regulator constructed of bronze, brass, or other materials with comparable heat-resistant properties is a key safety step because these materials, unlike aluminum, are not likely to promote burning from particle ignition during oxygen flow. NIOSH suggested that users consult with the manufacturer to determine if a regulator is made of aluminum. For more information, go to the NIOSH Alert at http://www.cdc.gov/niosh/updates/oxyrgl.html . This is clipped from the FDA and NIOSH 2001video Hidden Danger: Oxygen Regulator Fires available at http://www.fda.gov/cdrh/ocer/dcm/html/gallery.html .

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man killed when cigarette ignites oxygen tank

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Which one wins?

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oxygen generator fire, Chemical oxygen generators are used in aircraft, so people can have oxygen when needed.

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