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Showing 2 results for Health Impact Assessment
Investigation of the ambient particulate matter concentration changes and assessing its health impacts in Tabriz
A Gholampour, R Nabizadeh, M. S. Hassanvand, H Taghipour, S Faridi, A.h. Mahvi,
Volume 7, Issue 4 (1-2015)
Abstract

Background & Objectives: Determining the impacts of air pollution in cities is facing two major challenges first, the limited data on the health effects of pollutants, and secondly, the lack of information on exposure to air pollutants and their concentration. This is an applied-observational carried out to determine the concentration, seasonal changes, and to estimate the health impacts attributed to the particulate matters in Tabriz during September 2012 to July 2013. Materials and Methods: The particulate matters were sampled using high volume sampler and were analyzed using portable HAZ-DUST EPAM-5000. The health impacts of particulate matterswere estimated using AirQ software developed by W.H.O. Results: The annual mean concentration of TSP, PM10, PM2.5, and PM1 in the urban sampling site were 139, 83, 38, and 27 µg/m3 respectively. In addition, these concentrations were 178, 110, 40, and 27µg/m3 in industrial area. The average of PM10/TSP, PM2.5/PM10, PM1/PM10, and PM1/PM2.5 ratio level was 0.6, 0.48, 0.33, and 0.7 in the urban areas and 0.61, 0.37, 0.28, and 0.77 in the industrial areas respectively. The total mortalities associated with the TSP, PM10, and PM2.5 concentrations were estimated as 327, 363, and 360 respectively. Nevertheless, the calculated cardiovascular mortality for TSP and PM10 were estimated to be 202 and 227 respectively. Conclusion: This research found that the concentrations of PM10 and PM2.5 were 73 and 69% more than National Standard and 8 and 5% more than USEPA Standards respectively. In Tabriz, especially industrial area, the soils of surrounding ground and re-suspension of particles fromcontaminated soils have a significant contribution to particulate emissions.


Designing a tool to identify and prioritize the effects of construction and operation phases of combined cycle power plants on physical health
Hamid Karyab, Reza Ghanbari, Mehdi Ranjbaran, Amir Masood Taherkhani,
Volume 13, Issue 3 (11-2020)
Abstract
Background and Objective: Given the nature of many development projects, it is necessary to evaluate their effects on human health. Due to the lack of a specific model, the purpose of this study was to provide a tool to prioritize the effects of construction and operation (C&O) of a combined cycle power plants (CCPPs) on physical health.
Materials and Methods: By reviewing the documents and interviewing 15 experts, the variables affecting physical health in the C&O of the CCPPs were identified. Then, the content validity of the variables was assessed and the enumerated questionnaire was provided to the experts to determine the range, duration, probability, magnitude and extent of health effects using a multiple-choice Likert scale. Finally, with an innovative method, high priority variables were determined to evaluate the physical health effects on individuals.
Results: According to expert’s comments, 480 variables affecting physical health in the C&O of the CCPPs were selected and 41 variables were rejected based on the content validity index. The obtained results showed that diseases attributed to particulate matter (PM2.5 and PM10), SO2 and nitrogen oxide, under normal and emergency conditions, highly contributed to the physical health problems during the construction of CCPPs.
Conclusion:  The method presented in this study is applicable to (1) identifies the factors affecting physical health, (2) determines the range of each physical health- associated factor and (3) prioritizes influencing criteria that might affect human health status during the construction and operation of a combined cycle power plant.

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