Pb-210 and Po-210 atmospheric releases via fly ash from oil shale fired power plants

摘要

During high temperature processes in the furnace volatile and semi-volatile elements and radionuclides are partially emitted to the environment, depending on their chemical form in the original fuel, the technological set-up of the combustion system, and the prevailing combustion conditions. Two of the world's largest oil shale-fired power plants (PPs) have been operational in Estonia from the 1960s, during which time creation of significant environmental emissions and waste containing naturally occurring radionuclides has occurred. Pb-210 and Po-210 are considered natural radionuclides with the highest emission rates from PPs and possess elevated potential radiation exposure risks to humans and the environment. These radionuclides have the highest activity concentration values in fine ash fractions, especially in fractions remaining below 2.5 gm. To determine the activity concentrations of Pb-210 and Po-210 in the PPs' outlet, sampling was conducted from boilers operating on pulverized fuel (PF) technology with novel integrated desulphurization (NID) system and bag filters as well as with electrostatic precipitators (ESPs). The Pb-210 and Po-210 activity concentrations remained around 300 Bq kg(-1) for the NID system compared to 60-80 Bq kg(-1) in the ESP system. The dominant ash fraction in both systems was PM2.5, constituting over 50% of the fly ash mass collected from the outlet. The authors estimate that the total atmospherically emitted activity for the modernized PPs remains dominantly below 1% of the activity that is inserted via fuel. The implementation of higher efficiency purifications systems has significantly reduced the negative effect of these PPs. Based on annually emitted fly ash and boilers' working hours, the Pb-210 and Po-210 activity released relative to energy production were up to 68.3 kBq GWh(el)(-1) for Pb-210 and 64.6 kBq GWh(el)(-1) for Po-210. These values are 1 to 2 orders of magnitude lower compared to the situation in the 1980s. These findings represent the first publicly available quantitative results estimating the Po-210 emissions from large oil shale-fired PPs. (C) 2016 Elsevier Ltd. All rights reserved.