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Landfills, chemical weapon debris possibly a good match, computer model suggests
June 28, 2006Putting building debris contaminated by chemical weapons into municipal landfills likely would pose only a minimal risk to nearby communities and the surrounding environment, according to a study scheduled for publication in the July 1 issue of the American Chemical Society journal Environmental Science & Technology. The study's computer model, developed by environmental engineers at the Technical University of Denmark and North Carolina State University, could help policymakers and waste management officials determine what to do with these harmful materials if another terrorist attack occurs.
"The results indicate that burial in a landfill will not result in a massive release of toxic chemicals," says Morton A. Barlaz, Ph.D., the study's corresponding author. "Our work can now be used by scientists who specialize in health effects to confirm that landfill disposal is acceptable. All indications are this is the case."
The new study, supported by the Environmental Protection Agency, will need to be verified by laboratory research, Barlaz cautions. But, he adds, the finding is an important first step toward clarifying whether these potentially lethal compounds, including sarin, mustard gas and VX, could be safely contained in a municipal landfill.
Concerns about contaminated building debris arose following the Sept. 11, 2001, terrorist attacks on the World Trade Center and the Pentagon as well as the later discovery of anthrax in a U.S. Senate office building, postal facilities in Washington, D.C., and Trenton, N.J., and several buildings owned by media corporations.
For this study, a team of landfill experts used a computer model that combined what is known about organic material in the nation's 2,000 lined solid waste landfills with information available about the behavior of chemical warfare agents to predict how these highly toxic compounds would behave under typical landfill conditions. The researchers included several key factors in their model including the chemical properties of the contaminants, the amount of water entering the landfill, landfill gas production and a description of the protective liner and cover.
The computer model predicted that virtually all of the compounds would bind themselves to organic waste in the landfill. In addition, most chemical warfare agents are rapidly transformed into less toxic forms when they come into contact with water in the landfill. The computer simulation also allowed the researchers to analyze the potential for contaminated gas emissions from a landfill as well as the potential for chemical agent movement through the landfill liner into groundwater.
"There were no chemical warfare agents in the gas. That's significant because of the potential for fugitive gas emissions from landfills." Barlaz says. "Similarly, there was no movement of contaminants through the liner, thus eliminating concerns of groundwater contamination."
To validate the model's findings, Barlaz and his colleagues are conducting laboratory experiments using surrogates, such as malathion, that mimic the behavior of chemical agents but are safer to handle. "This is an important area of research. But like other work on emergency preparedness, I really hope that we never have to apply the results of this work," Barlaz says.
American Chemical Society
Concerns about contaminated building debris arose following the Sept. 11, 2001, terrorist attacks on the World Trade Center and the Pentagon as well as the later discovery of anthrax in a U.S. Senate office building, postal facilities in Washington, D.C., and Trenton, N.J., and several buildings owned by media corporations.
For this study, a team of landfill experts used a computer model that combined what is known about organic material in the nation's 2,000 lined solid waste landfills with information available about the behavior of chemical warfare agents to predict how these highly toxic compounds would behave under typical landfill conditions. The researchers included several key factors in their model including the chemical properties of the contaminants, the amount of water entering the landfill, landfill gas production and a description of the protective liner and cover.
The computer model predicted that virtually all of the compounds would bind themselves to organic waste in the landfill. In addition, most chemical warfare agents are rapidly transformed into less toxic forms when they come into contact with water in the landfill. The computer simulation also allowed the researchers to analyze the potential for contaminated gas emissions from a landfill as well as the potential for chemical agent movement through the landfill liner into groundwater.
"There were no chemical warfare agents in the gas. That's significant because of the potential for fugitive gas emissions from landfills." Barlaz says. "Similarly, there was no movement of contaminants through the liner, thus eliminating concerns of groundwater contamination."
To validate the model's findings, Barlaz and his colleagues are conducting laboratory experiments using surrogates, such as malathion, that mimic the behavior of chemical agents but are safer to handle. "This is an important area of research. But like other work on emergency preparedness, I really hope that we never have to apply the results of this work," Barlaz says.
American Chemical Society
Landfill Current Events and Landfill News RSSEnvironmental effects of cold-climate strawberry farming
Strawberries are America's fifth-favorite fruit, according to consumption rates. California and Florida grow more than 95% of the nation's strawberries; an additional 12,000 acres are planted in other states.
Less trouble at mill, thanks to earthworms
Waste from the textiles industry could with the assistance of earthworms and some animal manure become a rich compost for agriculture, according to a report in the International Journal of Environment and Pollution.
Landfill Cover Soil Methane Oxidation Underestimated
Landfilled waste decomposes in the absence of oxygen and results in the production of methane. Landfills are classified as the second-largest human-made source of CH4 in the U.S. Additionally, landfill gas contains numerous non-methane hydrocarbons that are either volatilized directly from waste materials or produced through biochemical reactions during waste degradation.
Scientists solve puzzle of arsenic-poisoning crisis in Asia
Every day, more than 140 million people in southern Asia drink groundwater contaminated with arsenic. Thousands of people in Bangladesh, Cambodia, India, Myanmar and Vietnam die of cancer each year from chronic exposure to arsenic, according to the World Health Organization. Some health experts call it the biggest mass poisoning in history.
Cleansing toxic waste -- with vinegar
Engineers and environmental scientists at the University of Leeds are developing methods of helping contaminated water to clean itself by adding simple organic chemicals such as vinegar.
Organic plant waste proves effective weed control for citrus trees
Interest in organic crop production is increasing around the world. Organics are healthy for consumers while adding environmental benefits and decreasing the amount of synthetic herbicides in foods, soil, and water.
Putting a green cap on garbage dumps
andfill sites produce the greenhouse gases, methane and carbon dioxide, as putrescible waste decays. Growing plants and trees on top of a landfill, a process known as 'Phytocapping', could reduce the production and release of these gases, according to Australian scientists writing in a forthcoming issue of International Journal of Environmental Technology and Management.
Scientists simulate gut reaction to arsenic exposure
A simulated gastrointestinal system is helping scientists test contaminated soil for its potential to harm humans. The method is likely to save time and money for people hoping to repurpose land with an industrial past.
Fuel from food waste: bacteria provide power
Researchers have combined the efforts of two kinds of bacteria to produce hydrogen in a bioreactor, with the product from one providing food for the other.
Low-carbon living takes off in the US
Cohousing offers a low-carbon lifestyle, and developers are poised for a market that could soon burgeon in the US, according to a new study. Until now, cohousing has occupied a niche market in the US, but the paper by Dr Jo Williams at UCL (University College London) suggests the situation is changing.
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