Laboratory flips the mercury 'off' switch

Contact: Kevin Roark, knroark@lanl.gov, (505) 665-0582

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LOS ALAMOS, N.M., March 21, 2003 -- Mercury, that silvery liquid metal ubiquitous in switches, pressure gauges and thermometers, is an environmental bad-boy and toxic to humans through inhalation, skin contact and ingestion. It is easily spilled and can go unnoticed in aging lab equipment.

However, with new technology, mercury can be practically erased from the typical laboratory setting, reducing and even eliminating the environmental and health hazards, according to researchers at Los Alamos National Laboratory who present their findings Monday at the annual meeting of the American Chemical Society.

"We make the case," said Michael Cournoyer of the Laboratory's Nuclear Materials Technology Division, "that aside from certain high-accuracy pressure-testing and calibration devices, there is no reason to buy new lab equipment that contains mercury."

Cournoyer's talk will take place at 2 p.m. in room 222 of the Morial Convention Center, 900 Convention Center Boulevard, New Orleans, La.

This is a lesson learned, according to Cournoyer, from a clean up of the Chemistry and Metallurgy Research facility at Los Alamos. During a 2000 waste disposal program, two separate small mercury spills took place at CMR as a result of removing old electrical equipment. Although no direct evidence was uncovered, it was assumed that the mercury came from broken switches or other electrical devices. The spills were fully cleaned, but the events showed that more needed to be done to avoid or prevent mercury contamination.

"The Laboratory needed to better characterize old equipment before its removal, to make sure what possible hazards were present, mercury-specific spill kits needed to be on hand for 100 milliliter or smaller spills, and a waste avoidance program needed to be implemented to reduce or eliminate mercury-laden mixed wastes," said Cournoyer.

After the experiences of 2000, the Laboratory began an aggressive mercury waste avoidance program, according to Cournoyer. Mercury-free alternatives for pressure gauges, electronic relays, switches and thermometers were identified and used to replace mercury-containing devices with an eye toward environmentally preferable products.

"There are several mercury-free barometers and vacuum gauges, liquid-filled bourdon gauges and electronic thermometers and pressure gauges available," said Cournoyer. "The overall reduction in mercury-dependent instruments is significant, there are fewer risks of spills and compared to the costs associated with mercury disposal and clean-up the use of alternatives is also less expensive."

In addition to alternative instruments, the Laboratory's mercury waste avoidance program considers disposal options such as manufacturer take-back and recycling policies, the use of specialized mercury vacuums and amalgamating kits to quickly, safely and cost-effectively respond to mercury spills, and clearly defined disposal pathways that could include a system of mercury distillation to remove the metal from certain mixed wastes.

Pollution prevention issues continue to be at the forefront of planning and design as the Laboratory seeks to build new or replacement nuclear facilities, with a focus on worker safety, use of environmentally friendly materials and future clean-up requirements, according to Cournoyer. "Pollution prevention and waste minimization initiatives are a major part of our risk management strategy with the goal of contributing to the scientific and operational excellence of the Laboratory by decreasing the hazards, risks and waste volume across the board, not just for mercury."

Los Alamos National Laboratory is operated by the University of California for the National Nuclear Security Administration (NNSA) of the U.S. Department of Energy and works in partnership with NNSA's Sandia and Lawrence Livermore national laboratories to support NNSA in its mission.

Los Alamos enhances global security by ensuring the safety and reliability of the U.S. nuclear stockpile, developing technologies to reduce threats from weapons of mass destruction, and solving problems related to energy, environment, infrastructure, health and national security concerns.

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