In the six weeks that have passed since September 11, Americans have stopped taking many things for granted. Among other worries, we no longer assume that our airports are safe from hijackers or our mail from bioterrorists. Federal agencies are moving quickly to put new, stricter security measures in place. But when it comes to protecting water reservoirs, researchers at the Department of Energy's Sandia National Laboratory are already one step ahead. For the past few years they have worked on sophisticated means to identify vulnerabilities in the nation's water infrastructure, as well as technologies to detect in real time contamination of the water supply.
"We started exploring the possibility of working together [with the Environmental Protection Agency (EPA) and the American Water Works Association Research Foundation (AwwaRF)] to enhance the security of America's water infrastructure¿supply, treatment and distribution¿well before the September 11 attacks on the World Trade Center and the Pentagon," Sandia scientist Jeffrey Danneels says. His efforts, which have taken on a new urgency since the recent terrorist attacks, have focused on establishing a program to target problem areas on-site at utilities and train the personnel to minimize any risks. He held a workshop for AwwaRF and the American Water Works Association (AWWA) this past November and has more scheduled to begin this month.
Danneels modeled his program after one Sandia initially created to support the U.S. nuclear security mission and that has since been adapted to assess the threat of terrorist attacks on government buildings, air force bases, nuclear power plants, nuclear processing facilities, prisons and federal dams. The EPA is most interested in analyzing the water distribution systems that serve the country's 340 largest cities. Because many of these systems are more than 60 years old, they have different structures and therefore different security concerns. Danneels says utilities must follow three basic steps to evaluate their own individual vulnerabilities: They must assess how well their system detects a problem, how well it can delay the spread of the problem and how well it can ultimately respond to the problem.
Where at least the first step is concerned¿detection¿some of Danneel's colleagues at Sandia may soon provide real help. Cliff Ho and Bob Hughes have created a novel real-time gas- and water-quality monitoring system, made up of a tiny sensor array and weatherproof casing. Whereas traditional monitoring involves collecting samples of water, gas or soil and sending them for laboratory analysis, which can cost from $100 to $1,000, the new device performs its testing in situ and sends its results¿via a computer at a collection station¿to an interactive Web site.
"The electronic sniffer is a unique monitor that can be put directly underground¿in groundwater or soils where the humidity reaches nearly 100 percent¿and detect toxic chemicals at the site without taking samples to the lab," Ho explains. "It has the capability of detecting in real time undesirable chemicals being pumped into the water supply accidentally or intentionally. It will be able to monitor sites containing toxic chemical spills, leaking underground storage tanks and chemical waste dumps, potentially saving millions of dollars a year in the process."