Utilizing Routine Water Quality Instruments for Monitoring Distribution System Security

Abstract

Drinking water system security concerns have been a considerable issue in the United States in recent years, but in the last two years this issue has risen to new levels of urgency. The tragic events of September 11th highlighted America's vulnerability to terrorism and spurred a domestic security response unprecedented since World War II. Currently, significant purposeful contamination of a water system won't be properly characterized until post-symptomatic epidemiological events are manifested in the affected community. One approach to mitigating this potential disaster includes on-line monitoring of drinking water distribution systems. Four credible threat chemical drinking water contaminants (aldicarb, sodium arsenate, sodium cyanide, and sodium fluoroacetate) were analyzed at different concentrations to determine their detectability in a drinking water distribution system using commonly measured parameters. On-line monitoring that measured conductivity, pH, chlorine residual, turbidity, and total organic carbon was completed to determine baseline water quality indicators. The contaminants were then mixed with tap water and analyzed in beakers to determine their contaminant- instrument response at various concentrations with bench top instruments. This data was then used to determine dosing into a bench scale distribution system. The contaminants were then added at the specified concentrations to determine detectability using the on-line monitoring equipment. Results indicate that the four chemical contaminants can be detected at relatively low concentrations with routine monitoring.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 2004

Accession Number

ADA425560

Entities

Tags