Azam Minabi scite author profile

Azam Minabi

2Publications

0Citation Statements Received

73Citation Statements Given

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Islamic Azad University, Science and Research Branch

Publications

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Prediction of No2 Concentrations in a Gas Refinery Using Air Dispersion Modeling

Minabi¹

2017

Appl. Ecol. Env. Res.

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Nitrogen dioxide (NO 2 ) is considered as one of the most important ambient air pollutants in gas refineries. In this study, AERMOD dispersion model was applied for prediction of NO 2 ambient concentrations and dispersion patterns from point sources, including 13 stacks and six flares in a gas refinery located in Asaluyeh, Iran. For this purpose, the NO 2 concentrations exhausted from the stacks were measured by a portable emission analyzer and the NO 2 concentrations resulted from the flares were estimated using the emission factors. Moreover, the amounts of ambient NO 2 concentrations in 10 monitoring stations were measured in four seasons. Then, the ambient NO 2 concentrations and dispersion patterns were predicted using the AERMOD model within a domain of 10 × 10 km 2 , in 1-hr and 12 months averages and the unhealthy zones in the study area were defined. The results revealed that for both annual observed and predicted values, ambient NO 2 concentrations were higher than WHO standard limits but they did not exceed the US EPA standard limits. However, the hourly observed and predicted concentrations were lower than the standard levels. Statistical methods were used for comparing the predicted and observed NO 2 concentrations. Simulation results indicated that the predicted concentrations were underestimated by a factor of 20 % in comparison to the measured ones which revealed the estimated contribution of other sources including mobile sources and neighbor sources located in the vicinity of the gas refinery.

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Simulating Ambient SO2 Dispersion Patterns and Assessing their Health Risk in a Gas Refinery

Minabi¹,

Atabi²,

Moattar³

et al. 2018

Pol. J. Environ. Stud.

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The emission of pollutants in a gas refinery depends on some factors, including refinery age, location, capacity, specifications of the feedstock, types of products, and the complexity of the operating units. Air quality management strategy is of great importance in minimizing the effects of air pollution, especially in places with multiple pollution sources [1]. In general, refineries emit more than 100 types of atmospheric pollutants. These pollutants include dust, metals, carbon monoxide, sulfur dioxide, nitrogen oxides, methane, dioxin, hydrogen fluoride, chloride, benzene, and other harmful gasses [2].

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Azam Minabi

Prediction of No2 Concentrations in a Gas Refinery Using Air Dispersion Modeling

Simulating Ambient SO2 Dispersion Patterns and Assessing their Health Risk in a Gas Refinery

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