Analysis of carbon‐14 discharges from Korean nuclear power plants

The routine practice accompanying the operation of nuclear facilities involves the discharge of radioactive effluents from nuclear power plants (NPPs). Regulation of this discharge to the environment hinges on three criteria: radioactivity concentration, public dose, and radioactivity. Among these,...

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Bibliographic Details
Published in:Energy science & engineering 2024-09, Vol.12 (9), p.3576-3588
Main Authors: Kim, Hwapyoung, Kong, Tae Young, Kim, Seongjun, Son, Jinho, Song, Changju, Kim, Jiung, Kim, Hee Geun
Format: Article
Language:English
Subjects:
Annual reports
Carbon
Carbon dioxide
carbon‐14
Effluents
Emission analysis
Emissions
Enforcement
Environmental impact
Heavy water
Heavy water reactors
Industrial plant emissions
Monitoring
monitoring of discharge
Nuclear accidents & safety
Nuclear facilities
Nuclear power plants
Nuclear reactors
PHWR
Pressurized water reactors
Radiation
Radiation dosage
Radioactive effluents
Radioactivity
Reactors
Wastewater discharges
Water discharge
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Summary:The routine practice accompanying the operation of nuclear facilities involves the discharge of radioactive effluents from nuclear power plants (NPPs). Regulation of this discharge to the environment hinges on three criteria: radioactivity concentration, public dose, and radioactivity. Among these, radioactive carbon‐14 holds particular significance as it possesses an extensive half‐life of 5730 years, making it a primary source of radiation dose to communities residing around NPPs. In Korea, the monitoring of carbon‐14 discharges from pressurized water reactors (PWRs) in gaseous effluents has been ongoing since 2012, whereas before 2012, monitoring exclusively focused on carbon‐14 discharges from pressurized heavy water reactors (PHWRs). Analysis of carbon‐14 discharges from Korean PHWRs indicates that their emission constituted less than 1% of total radioactive effluents over the past two decades. In the context of Korean PWRs, carbon‐14 discharge monitoring was absent from 2002 to 2011, resulting in an absence of data regarding such discharges during that period. After introducing carbon‐14 discharge monitoring in gaseous effluents from Korean PWRs, emissions from 2012 to 2021 contributed 3% of the total gaseous effluents. These findings indicate that despite being the primary contributor to public dose, carbon‐14 discharges from NPPs constitute a minor portion of the radioactive effluent discharge. Comparison of radioactive effluent discharges from Korean nuclear power plants before and after carbon‐14 discharge monitoring in Korean pressurized water reactors.
ISSN:2050-0505
2050-0505
DOI:10.1002/ese3.1849