PUBLIC DOSES ESTIMATION BASED ON EFFLUENTS DATA AND DIRECT MEASUREMENTS OF TRITIUM IN ENVIRONMENTAL SAMPLES AT CERNAVODA E. Bobric, I. Popescu, V. Simionov.

Slides:

Advertisements

Similar presentations

Carbon 14 Gaseous Effluent Dose The importance of Human Performance Ron Chrzanowski Corporate Chemistry Manager Exelon Nuclear June 27, 2011.

Advertisements

Sejkora: What is RETS-REMP?

The Changing Faces in Effluent and Environmental Monitoring Douglas Wahl Exelon.

Nuclear Graphite Research Group University of Manchester, UK

RPS Actions Instruct staff to put hands on all routine air monitors and report equipment status Contact sampling partners to give notice of possible.

1 Radiological protection, dosimetry & environmental monitoring National Training Course on Radiopharmacy, Radiochemistry and Radioisotope Production Site.

14th Annual RETS/REMP Workshop June 28-30, 2004 U.S. Nuclear Power Sister Plant Radiological Effluent Release Comparisons J.T. Harris 1,3, D.W. Miller.

Modeling Atmospheric Releases of Molecular Tritium 2005 RETS/REMP Workshop Jim Key Key Solutions, Inc.

Further Site Investigation Sutton Walls Former Landfill

Tritium Management at Fermilab Stuart Henderson Associate Laboratory Director for Accelerators Community Advisory Board Meeting August 23, 2012.

RADIOACTIVE DISCHARGES CONTROL JE Jan Horyna State Office for Nuclear Safety Czech Republic September 2009 Vienna.

16 th Annual RETS-REMP Workshop Mashantucket, CT June 26-28, 2006 North American Technical Center Public Radiation Safety Research Program REMP Study Jason.

Climate Change What do you know? and what are you going to do about it?

1 INTERNAL EXPOSURE AT CERNAVODA NPP Vasile Simionov, Catalina Chitu “CNE Cernavoda” NPP, Romania 2008 ISOE INTERNATIONAL SYMPOSIUM TSURUGA, JAPAN, NOVEMBER.

National Institute of Cryogenics and Isotope Technologies

Fusion Power Plant Licensing and Waste Management by Antonio Natalizio for Presentation at the 9 th Course on Technology of Fusion Reactors at Erice (Monastero.

Nuclear Research Activities NATIONAL INSTITUTE OF RESEARCH AND DEVELOPMENT FOR CRYOGENICS AND ISOTOPE TECHNOLOGIES RM VALCEA May, 2006.

Environmental Health XIV. Standards and Monitoring Shu-Chi Chang, Ph.D., P.E., P.A. Assistant Professor 1 and Division Chief 2 1 Department of Environmental.

Jed Harrison Office of Radiation & Indoor Air.  Review the Incident – What Happened  Describe the EPA Response  Review EPA’s RadNet Monitoring System.

Survey of Environmental Monitoring Programmes in the CBSS Anne Liv Rudjord Topcal Day on Monitoring of Radioactivity in the Environment Oslo.

A STUDY ON THE TRITIUM DISTRIBUTION CHARACTERISTICS IN THE ENVIRONMENT Goung-Jin Lee, Hee-Geun Kim 2006 RETS.

Environmental Protection Waste Safety Section, Division of Radiation, Transport and Waste Safety Department of Nuclear Safety and Security.

Radiological Monitoring of Air and Drinking Water in British Columbia Following the Fukushima Nuclear Incident Environmental Health Services (EHS) British.

TECHNICAL ASSOCIATION OF THE EUROPEAN NATURAL GAS INDUSTRY Development of a Eurogas-Marcogaz Methodology for Estimation of Methane Emissions Angelo Riva.

HPT Rev. 0 Page 1 of 52 TP-1 TVAN Technical Training Health Physics (RADCON) Initial Training Program ACADs (08-006) Covered Keywords Pathways,

Assement of radionuclide concentration in various samples by gamma spectrometry and LSC J. Berzins, D.Riekstina, O. Veveris Institute of Solid State Physics.

The political aspects of monitoring radioactive materials in the environment of our region E. Wirth, M Zähringer Federal Office for Radiation Protection,

Radiation in Your Environment. Radiation Around You Nature –Cosmic (direct and cosmic-produced radioactivity –Terrestrial (including radon) Medical Consumer.

Radioactive pollution of food chain - Α Air - soil pathways of radioactive pollution Source Inhalation ( External radiation ) Direct pollution Food Air.

Workshop on Tritium and Carbon - EMRASBucharest May 2007 TRITIUM MODEL IN RODOS SYSTEM Dan Slavnicu D.Galeriu, D.Gheorghiu, A.Melintescu National Institute.

Tritium’s health hazards: why we should be concerned Dr Ian Fairlie Consultant on Radiation in the Environment London United Kingdom.

Ronald Warren Ecological & Environmental Monitoring National Security Technologies, LLC Community Environmental Monitoring Program Workshop July 26, 2011.

PENNSYLVANIA’S ENVIRONMENTAL MONITORING PROGRAM AROUND NUCLEAR FACILITIES Tonda Lewis.

Greenhouse Effect.  The greenhouse effect is the warming of the surface and lower atmosphere of Earth that occurs when carbon dioxide, water vapor, and.

THE GEOGRAPHY OF POLLUTION. GROUNDING INDUSTRY AND POLLUTION As a country develops, it industrializes, and industrial waste products are major polluters.

1 RG-1.21 & RG-4.1 Steve Garry and Richard Conatser Presented at the RETS-REMP Workshop South Bend, IN 22-Jun-2009.

Idaho National Engineering and Environmental Laboratory Tritium Release Limits for Fusion Facilities David Petti INEEL Fusion Safety Program APEX/ITER.

Intervention for Chronic and Emergency Exposure Situations Assessment and Response during Radiological Emergency Dose Assessment Overview Lecture IAEA.

Dale Holden Duke Energy.  Programs established in 1970’s and 1980’s  Required for licensee  Preoperational and Operational  “check” on effluent releases.

Isotopic and Nuclear Analytical Techniques for Health and Environment

Regulation of Discharges of Nuclear Facilities in Ukraine Iurii Bonchuk Radiation Protection Institute Kiev, Ukraine EMRAS II - Reference.

HPT Rev. 0 Page 1 of 52 TP-1 TVAN Technical Training Health Physics (RADCON) Initial Training Program Radiological Environmental Monitoring Programs.

Isotope Technologies Garching GmbHCERN 2010 Radiation Protection Aspects Related to Lutetium-177 Use in Hospitals R. Henkelmann, A. Hey, O. Buck, K. Zhernosekov,

HELCOM MORS-PRO Radioactivity in the Baltic Sea Erkki Ilus STUK - Radiation and Nuclear Safety Authority, Finland.

Concentrated Animal Feeding Operations Global Warming and Air Pollution.

Prentice Hall © PowerPoint Slides to accompany The Legal Environment of Business and Online Commerce 5E, by Henry R. Cheeseman Chapter 25 Environmental.

RADIOACTIVE WASTE MANAGEMENT. MATE-FIN participated in several projects focused on radioactive waste management:  Characterisation of Radioactive Waste.

A Brief Overview of the Radioprotection Activities in the Joint Research Centre Ispra - Italy Nina JUDGE * and Francesco D’ALBERTI ** * Medical Service.

CERNAVODA NPP ENVIRONMENTAL LABORATORY BUCUR CRISTINA CERNAVODA NPP-ROMANIA.

Characterisation of Low Level Radioactive Waste from Cernavoda NPP G. Teodorov, A. Sandru, L. Toro MATE-FIN Ltd. Bucuresti Department of.

1 BROOKHAVEN SCIENCE ASSOCIATES NSLS-II Shielding Workshop R. Casey Activation Issues for NSLS-II March 28, 2007.

Dan Galeriu, PhD “Horia Hulubei” National Institute for Physics and Nuclear Engineering, Bucharest – Magurele, ROMANIA Info Day CONCERT, BfS Munich, Germany,

Physical Connections Chapter 3. All life is possible on Earth because of 4 conditions: Constant, relatively mild temperature Constant, relatively mild.

Radiological impacts from nuclear industrial facilities on the public and the environment : Their magnitude and the next 50 years forecast Sylvain Saint-Pierre.

Radiation risk analysis of tritium in PWR nuclear power plant

C & R p Four greenhouse gases are: water vapor, carbon dioxide, methane, and nitrogen oxide 2. 3 outcomes of global warming might be violent storms,

Catalina Chitu, Vasile Simionov, “CNE-PROD Cernavoda” NPP, Romania

Environmental Monitoring at the Necsa Pelindaba site

Diet Makes a Difference

Steve PHILLIPS – Premium Analyse

Staffan Hennigor & Monica Eklöf Forsmark NPP Sweden

UNIT 4: GreenHouse Effect.

Representative Measurements – AQ-Workshop Bucharest, July 2008

Environmental problems

UNIT 4: GreenHouse Effect.

Greenhouse Effect.

Current Radiation Protection Legislation in Slovakia

Greenhouse Effect.

Responding to climate change

Environmental Priorities Environmental Impact Assessment

Presentation transcript:

PUBLIC DOSES ESTIMATION BASED ON EFFLUENTS DATA AND DIRECT MEASUREMENTS OF TRITIUM IN ENVIRONMENTAL SAMPLES AT CERNAVODA E. Bobric, I. Popescu, V. Simionov Health Physics Department, CNE Cernavoda, Romania EMRAS meeting, Bucharest, 2007

Introduction  The layout of the CANDU reactors and the design of its systems ensure that the radioactive waste quantities are minimized, but small amounts of radioisotopes are continuously discharged at very low concentrations through gaseous and liquid effluents.  As national regulations require CNE Cernavoda established the facilities necessary to carry out continuous monitoring of the level of radioactivity in the air, water and soil and to ensure compliance with the basic radiation protection standards.

More than 10 years of experience in CANDU operation at Cernavoda NPP have shown that tritium is mainly released as tritiated water in gaseous and liquid effluents and has the most important contribution to public and professional exposure.

The purpose of this paper is:  To present estimated tritium doses for a member of the critical group near Cernavoda NPP, and  to make a comparison between doses estimated from the results of effluent monitoring and from environmental monitoring results.

Effluent monitoring program  Continuous monitoring of liquid and gaseous effluents (LEM and GEM)  GEM performs continuous noble gases, radioiodine and particulate measurement as well as particulate, radioiodine, water vapours and carbon dioxide sampling.

Effluent monitoring program  The station radiation protection laboratory measures the samples and the results are stored in a database.  Doses to critical group members are evaluated and periodic reports are issued for authorities and public.

Effluent monitoring program  3 H is the most significant radionuclide released in gaseous and liquid effluents, (mostly as HTO)  3 H emissions represents more than 50% of the total radioactivity released.

Effluent monitoring program kBq

Critical Group dose estimation using emission data Individual doses for a critical group member have being evaluated using the compartment models recommended by: “CAN/CSA–N288.4–M87, Guidelines for Calculating Derived Release Limits for Radioactive Material in Airbone and Liquid Effluents for Normal Operation of Nuclear Facilities ”

Critical Group dose estimation using emission data CAN/CSA–N288.4–M87 uses Specific Activity Model for HTO. OBT is not considered in this standard.

Critical Group dose estimation using emission data Critical group: People from Cernavoda resident at 2 km far from plant. They are self sufficient, producing all their own fruits and vegetables in farms and backyard gardens, as well as most of their animal products. Tritium DEL for Cernavoda airborne emissions is 6.45E+05 GBq/week

Critical Group dose estimation using emission data

Air monitoring indicator stations TLDs locations Environmental monitoring program  Pre-Operational Program ( )  Operational program starting in 1996

Environmental monitoring program Sample types: Air: particulate, iodine, water vapors  Soil  Vegetation  Atmospheric deposition  Food samples (milk, fish, pork, beef, poultry, vegetables and fruits).

Environmental monitoring program  Tritium is the only radionuclide arising from Cernavoda NPP which can be measured in environmental samples.  An indicator location for air monitoring is placed in Cernavoda at about 2.5 km distance far from the plant.

Environmental monitoring program To increase tritium measuring sensitivity a ultra-low level scintillator Quantulus 1220 is used since 2001 for environmental measurements. Tritiated water in milk, meat, vegetables and fruits is extracted by azeotropic distillation in toluene and tritium is measured by liquid scintillation spectrometry.

Environmental monitoring program Airborne water vapors are collected by drawing air through molecular sieve. Sampling is continuous during one month, (4 - 6 m 3 of air are passed through the collector). The absorbed water is removed from the sieve by heating at 350ºC and the tritium content is measured by liquid scintillation counting

Environmental monitoring program Tritium concentration in air Cernavoda Station

Environmental monitoring program Tritium in food samples - mean values * these values represent the detection limit of the method ** Mean values between Danube water average values from two locations, upstream and downstream the release point and Danube – Black Sea Canal

Environmental monitoring program Tritium doses for Cernavoda people estimated using measured tritium activity in environmental samples

Conclusions  Tritium doses for critical group due to Cernavoda plant airborne emissions between 1996 and 2006 were less than 10  Sv/year.  Tritium doses for Cernavoda people estimated using measured tritium activity in environmental samples are one order of magnitude lower than dose values for critical group members.  An improvement of tritium models and measurement methods is necessary. Considering OBT could improve tritium dose estimations.