Your search keyword '"Luca Pozzoli"' showing total 2 results

1. Simulation of 137Cs transport and deposition after the Chernobyl Nuclear Power Plant accident and radiological doses over the Anatolian Peninsula

Author

Tayfun Kindap, Mehmet Karaca, V. Simsek, Alper Unal, and Luca Pozzoli

Subjects

geography, Radionuclide, education.field_of_study, Environmental Engineering, geography.geographical_feature_category, Population, Environmental engineering, Atmospheric sciences, Pollution, law.invention, Atmosphere, Deposition (aerosol physics), Peninsula, law, Caesium-137, Radiological weapon, Nuclear power plant, Environmental Chemistry, Environmental science, education, Waste Management and Disposal

Abstract

The Chernobyl Nuclear Power Plant (CNPP) accident occurred on April 26 of 1986, it is still an episode of interest, due to the large amount of radionuclides dispersed in the atmosphere. Caesium-137 ((137)Cs) is one of the main radionuclides emitted during the Chernobyl accident, with a half-life of 30years, which can be accumulated in humans and animals, and for this reason the impacts on population are still monitored today. One of the main parameters in order to estimate the exposure of population to (137)Cs is the concentration in the air, during the days after the accident, and the deposition at surface. The transport and deposition of (137)Cs over Europe occurred after the CNPP accident has been simulated using the WRF-HYSPLIT modeling system. Four different vertical and temporal emission rate profiles have been simulated, as well as two different dry deposition velocities. The model simulations could reproduce fairly well the observations of (137)Cs concentrations and deposition, which were used to generate the 'Atlas of Caesium deposition on Europe after the Chernobyl accident' and published in 1998. An additional focus was given on (137)Cs deposition and air concentrations over Turkey, which was one of the main affected countries, but not included in the results of the Atlas. We estimated a total deposition of 2-3.5 PBq over Turkey, with 2 main regions affected, East Turkey and Central Black Sea coast until Central Anatolia, with values between 10 kBq m(-2) and 100 kBq m(-2). Mean radiological effective doses from simulated air concentrations and deposition has been estimated for Turkey reaching 0.15 mSv/year in the North Eastern part of Turkey, even if the contribution from ingestion of contaminated food and water is not considered, the estimated levels are largely below the 1 mSv limit indicated by the International Commission on Radiological Protection.

Published

2014

2. Spatial and temporal analysis of black carbon aerosols in Istanbul megacity

Author

Alper Unal, Ulas Im, Goksel Demir, Nikos Mihalopoulos, Huseyin Ozdemir, C. Theodosi, Bulent Mertoglu, Luca Pozzoli, Maria Kanakidou, and Tayfun Kindap

Subjects

Aerosols, Air Pollutants, Environmental Engineering, Turkey, Correlation coefficient, Meteorology, Fine particulate, Annual average, Carbon black, Particulates, Atmospheric sciences, Pollution, Human health, Megacity, Soot, Air Pollution, Environmental Chemistry, Environmental science, Cities, Waste Management and Disposal, Environmental Monitoring

Abstract

Black carbon (BC) is an important component of particulate matter due to its effects on human health and climate. In this study, we present the first BC concentrations measured in the Istanbul megacity (similar to 15 million inhabitants). Two measurement campaigns have been conducted to measure BC and fine particulate matter (PM2.5) concentrations at four locations, characterized by different traffic densities. In the first campaign, BC daily mean concentrations have been found to be between 4 mu g/m(3) and 10 mu g/m(3). In the second campaign, BC and PM2.5 have been measured at the site with the highest traffic density for an entire year. Annually averaged BC contributes by 38 +/- 14% to the PM2.5 levels (annual average BC: 13 mu g/m(3) and PM2.5: 36 mu g/m(3)). Diurnal variations of BC concentrations followed those of traffic density (correlation coefficient of 0.87). These measurements are essential to identify the sources of BC and PM2.5 concentrations in Istanbul and develop mitigation measures. (C) 2013 Elsevier B.V. All rights reserved.

Published

2014