6 research outputs found
A District Sectorization for Water Network Protection from Intentional Contamination
The introduction of cyanide with a backflow attack into a water system was studied. The recent development of techniques for
water network sectorization, aimed to improve the management of water systems, represents also an efficient way to protect
networks from intentional contamination. The possibility of closing gate valves by a remote control system to create an i-DMA
(isolated District Meter Area) can reduce the risk of contamination and thus the extent of damage of a terroristic attack. The
study proposes a novel technique for designing i-DMAs compatible with hydraulic performance and optimized for water
network protection
"Dual-use value of network partitioning for water system management and protection from malicious contamination"
This paper considers the introduction of a contaminant into a water supply system using a backflow attack. The recent development of techniques for water network sectorization, aimed at improving the management of water systems, is also an efficient way to protect networks from intentional contamination and to reduce the risk of the dangerous effects of network contamination. Users can be significantly protected by isolated district meter areas (i-DMAs) in the water network and the closing of the gate valves by a remote control system to implement such i-DMAs in cases of malicious attacks. This study investigates the effects of different approaches for water network partitioning and sectorization to protect networks using a technique for designing i-DMAs that is compatible with hydraulic performance and that is based on graph theory and heuristic optimization. For this analysis, the introduction of cyanide through a backflow attack was assumed. The methodology was tested on a large water network in Mexico and displayed good protection from a malicious attack