TY - JOUR
T1 - Integrated hydraulic and organophosphate pesticide injection simulations for enhancing event detection in water distribution systems
AU - Schwartz, Rafi
AU - Lahav, Ori
AU - Ostfeld, Avi
N1 - Funding Information:
This study was supported by the joint Israeli Office of the Chief Scientist (OCS) Ministry of Industry , Trade and Labor (MOITAL) , and by the Germany Federal Ministry of Education and Research (BMBF) , under project number GR_2443. Funds were also received for this project from the Technion Grand Water Research Institute, the Technion Funds for Security research, and the Israeli Water Authority.
PY - 2014/10/15
Y1 - 2014/10/15
N2 - As a complementary step towards solving the general event detection problem of water distribution systems, injection of the organophosphate pesticides, chlorpyrifos (CP) and parathion (PA), were simulated at various locations within example networks and hydraulic parameters were calculated over 24-h duration. The uniqueness of this study is that the chemical reactions and byproducts of the contaminants' oxidation were also simulated, as well as other indicative water quality parameters such as alkalinity, acidity, pH and the total concentration of free chlorine species. The information on the change in water quality parameters induced by the contaminant injection may facilitate on-line detection of an actual event involving this specific substance and pave the way to development of a generic methodology for detecting events involving introduction of pesticides into water distribution systems. Simulation of the contaminant injection was performed at several nodes within two different networks. For each injection, concentrations of the relevant contaminants' mother and daughter species, free chlorine species and water quality parameters, were simulated at nodes downstream of the injection location. The results indicate that injection of these substances can be detected at certain conditions by a very rapid drop in Cl2, functioning as the indicative parameter, as well as a drop in alkalinity concentration and a small decrease in pH, both functioning as supporting parameters, whose usage may reduce false positive alarms.
AB - As a complementary step towards solving the general event detection problem of water distribution systems, injection of the organophosphate pesticides, chlorpyrifos (CP) and parathion (PA), were simulated at various locations within example networks and hydraulic parameters were calculated over 24-h duration. The uniqueness of this study is that the chemical reactions and byproducts of the contaminants' oxidation were also simulated, as well as other indicative water quality parameters such as alkalinity, acidity, pH and the total concentration of free chlorine species. The information on the change in water quality parameters induced by the contaminant injection may facilitate on-line detection of an actual event involving this specific substance and pave the way to development of a generic methodology for detecting events involving introduction of pesticides into water distribution systems. Simulation of the contaminant injection was performed at several nodes within two different networks. For each injection, concentrations of the relevant contaminants' mother and daughter species, free chlorine species and water quality parameters, were simulated at nodes downstream of the injection location. The results indicate that injection of these substances can be detected at certain conditions by a very rapid drop in Cl2, functioning as the indicative parameter, as well as a drop in alkalinity concentration and a small decrease in pH, both functioning as supporting parameters, whose usage may reduce false positive alarms.
KW - Chlorpyrifos
KW - Contamination events
KW - EPANET-MSX
KW - Event detection
KW - Parathion
KW - Water distribution systems
UR - http://www.scopus.com/inward/record.url?scp=84904041988&partnerID=8YFLogxK
U2 - 10.1016/j.watres.2014.06.030
DO - 10.1016/j.watres.2014.06.030
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C2 - 25016300
AN - SCOPUS:84904041988
SN - 0043-1354
VL - 63
SP - 271
EP - 284
JO - Water Research
JF - Water Research
ER -