MODELING OF REQUIRED TIME TO REACH THE MAXIMUM PHOSGENE OXIME POLLUTION IN RUNOFF (CASE STUDY: THE ADJACENT AREAS OF KAN RIVER AND NORTH FLOOD RETURN OF WEST TEHRAN)

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KAZEMI M.J.; KHAZAEI S.

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Journal: Advanced Defense Science and Technology Year:2016 | Volume:7 | Issue:1 Page(s): 9-18

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Title

MODELING OF REQUIRED TIME TO REACH THE MAXIMUM PHOSGENE OXIME POLLUTION IN RUNOFF (CASE STUDY: THE ADJACENT AREAS OF KAN RIVER AND NORTH FLOOD RETURN OF WEST TEHRAN)

Author(s)

KAZEMI M.J. | KHAZAEI S. | Issue Writer Certificate

Keywords

CHEMICAL POLLUTIONQ2

WATER RESOURCESQ2

DIFFUSION OF POLLUTIONQ2

GISQ2

SWMMQ2

Abstract

Water pollution caused by chemical materials in different forms such as chemical bombs, terrorist attacks, and reluctant events is one of the main concerns of human societies. CHEMICAL POLLUTIONs can permeate into surface waters because of the release of pollutions on the ground or rainfall in the time of air pollution. The main objective of this study is to model the surface water pollution reaching its maximum level after entering the CHEMICAL POLLUTION. In this study, diffusion of CHEMICAL POLLUTION caused by phosgene oxime (blister agent) in all areas alongside to Kan River and the reverse flood area of the west of Tehran is modeled using ArcGIS and SWMM softwares. Based on the results, the maximum density of pollution depends on the return period of rainfall, the pollution density, and type and slope of the ground. Also, the time to reach the maximum pollution is almost constant between 3 to 4 hours.

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APA: Copy

KAZEMI, M.J., & KHAZAEI, S.. (2016). MODELING OF REQUIRED TIME TO REACH THE MAXIMUM PHOSGENE OXIME POLLUTION IN RUNOFF (CASE STUDY: THE ADJACENT AREAS OF KAN RIVER AND NORTH FLOOD RETURN OF WEST TEHRAN). (JOURNAL OF ADVANCED DEFENCE SCIENCE AND TECHNOLOGY) JOURNAL OF PASSIVE DEFENCE SCIENCE AND TECHNOLOGY, 7(1), 9-18. SID. https://sid.ir/paper/167408/en

Vancouver: Copy

KAZEMI M.J., KHAZAEI S.. MODELING OF REQUIRED TIME TO REACH THE MAXIMUM PHOSGENE OXIME POLLUTION IN RUNOFF (CASE STUDY: THE ADJACENT AREAS OF KAN RIVER AND NORTH FLOOD RETURN OF WEST TEHRAN). (JOURNAL OF ADVANCED DEFENCE SCIENCE AND TECHNOLOGY) JOURNAL OF PASSIVE DEFENCE SCIENCE AND TECHNOLOGY[Internet]. 2016;7(1):9-18. Available from: https://sid.ir/paper/167408/en

IEEE: Copy

M.J. KAZEMI, and S. KHAZAEI, “MODELING OF REQUIRED TIME TO REACH THE MAXIMUM PHOSGENE OXIME POLLUTION IN RUNOFF (CASE STUDY: THE ADJACENT AREAS OF KAN RIVER AND NORTH FLOOD RETURN OF WEST TEHRAN),” (JOURNAL OF ADVANCED DEFENCE SCIENCE AND TECHNOLOGY) JOURNAL OF PASSIVE DEFENCE SCIENCE AND TECHNOLOGY, vol. 7, no. 1, pp. 9–18, 2016, [Online]. Available: https://sid.ir/paper/167408/en

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