Modeling of Radionuclide Releases From the Geological Repository for RBMK-1500 Spent Nuclear Fuel in Crystalline Rocks in Lithuania

Poškas, Povilas; Brazauskaite, Asta

doi:10.1115/icem2007-7272

Cited by 4 publications

(10 citation statements)

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“…Based on the preliminary assessment, the reference canister would be of 1050 mm diameter and 4070 mm length. For Lithuanian SNF disposal purposes about 1400 canisters should be employed [13]. In this study the engineered barriers comprising the near field are being considered (SNF matrix itself, disposal canister, surrounding bentonite layer).…”

Section: Disposal Systemmentioning

confidence: 99%

“…Preliminary studies on the radionuclide transport through the engineered and natural barriers of the conceptual repository for RBMK-1500 SNF were performed and presented in [10], [11], [12]. Considering the mass flux and radionuclide radiotoxicity, it was observed that radionuclides 129 I and 226 Ra (in the long-term) are the dominant radionuclides in the release from the engineered barriers.…”

Section: Introductionmentioning

confidence: 99%

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Uncertainty and sensitivity analysis of radionuclide migration through the engineered barriers of deep geological repository: Case of RBMK-1500 SNF

Narkūnienė

Poškas

Kilda

et al. 2015

Reliability Engineering & System Safety

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Section: Disposal Systemmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Uncertainty and sensitivity analysis of radionuclide migration through the engineered barriers of deep geological repository: Case of RBMK-1500 SNF

Narkūnienė

Poškas

Kilda

et al. 2015

Reliability Engineering & System Safety

Self Cite

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“…Analizuojant PBK šalinimo Lietuvoje galimybes, atliktas giluminio atliekyno įrengimo kristalinėse uolienose išlaidų įvertinimas bei pradėtas bendrasis atliekyno saugos vertinimas [30]. Tęsdami saugos vertinimus, LEI Branduolinės inžinerijos problemų laboratorijos mokslininkai analizavo atliekyno evoliucijos scenarijus, atliekyno aplinkoje išliekant dabartinėms sąly-goms, joms keičiantis, esant nesandariam vienam iš šalinimo konteinerių, įvertinta įvairių veiksnių įtaka radionuklidų [31][32][33][34][35][36][37] ir dujų [38][39][40] sklaidai bei tarpusavyje susijusių šilumos mainų (T), fluidų (dujų ir vandens) pernašos (H) ir mechaninių procesų (M) įtaka atliekyno saugai [41][42][43][44]. Geologijos ir geografijos instituto tyrėjai vykdė požeminio vandens tekėjimo ir radionuklidų sklaidos iš PBK atliekyno kristalinėse uolienose pietrytinėje Lietuvos dalyje skaitinius vertinimus [45][46][47].…”

Section: Giluminis Atliekynasunclassified

“…Darbe [32] nagrinėta radionuklidų sklaida iš Lietuvos PBK atliekyno kristalinėse uolienose, esant vertikaliam ir horizontaliam konteinerio patalpinimo būdui. Gauti rezultatai parodė, kad abiem atvejais daugelis saugos požiūriu svarbių radionuklidų yra efektyviai sulaikomi inžineri-niuose barjeruose ir skirtumai dėl konteinerio patalpinimo būdo yra nežymūs.…”

Section: Vertikalus Patalpinimasunclassified

Pažanga įgyvendinant radioaktyviųjų atliekų atliekynus Lietuvoje ir jų saugos vertinimas

Poškas¹,

Grigaliuniene²,

Justinavičius³

et al. 2016

energetika

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Lietuvos energetikos institutas, Branduolinės inžinerijos problemų laboratorija, Breslaujos g. 3, LT-44403 Kaunas El. paštas Povilas.Poskas@lei.ltBranduolinė energetika, kaip ir kitos pramonės šakos, teikia ne tik ekonominę naudą, bet ir sukuria atliekas. Branduolinės atliekos, nors jų santykinis tūris ir yra žymiai mažesnis nei kitų pramonės šakų atliekų, yra radioaktyvios ir todėl ypač pavojingos aplinkai bei žmonėms. Radioaktyviosiomis atliekomis vadiname naudotas ir netinkamas naudoti radioaktyviąsias medžiagas, kurių aktyvumas viršija nustatytą lygį. Joms priskiriamas panaudotas branduolinis kuras ir kitos, pakartotinai naudoti neskirtos, radionuklidais užterštos ar turinčios jų savo sudėtyje, medžiagos, kurių radionuklidų savitasis aktyvumas viršija nebekontroliuojamuosius radioaktyvumo lygius. Ne visos radioaktyviosios atliekos yra vienodai pavojingos žmogui, todėl skirstomos į tipus ir klases. Atsižvelgiant į radioaktyviųjų atliekų tipą ir klasę taikomi skirtingi jų tvarkymo, saugojimo, talpinimo į atliekynus būdai, taip pat skiriasi ir pačių atliekynų tipai (paviršinis Landfill tipo, paviršinis su gelžbetonio rūsiais ar giluminis).Nuo 1994 m. Lietuvos energetikos instituto Branduolinės inži-nerijos problemų laboratorijos mokslininkai kaupia patirtį analizuodami ir spręsdami radioaktyviųjų atliekų tvarkymo problemas Lietuvoje ir užsienyje. Šiame straipsnyje aptariamas pastarojo de-

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“…Up to now, not much research has been done on RBMK type SNF behavior under deep geological repository (DGR) conditions, the potential for contaminant migration, and the subsequent impact on humans and the environment. Some deterministic assessment results were published in [17][18][19]. Radionuclides I-129 and Ra-226 (in the long-term perspective) were identified as dominating the mass flux and radiotoxicity flux from the engineered barrier system (EBS) of DGR under the canister defect scenario.…”

Section: Introductionmentioning

confidence: 99%

Uncertainty and Sensitivity Analysis at Low Value of Determination Coefficient of Regression Analysis: Case of I-129 Release from RBMK-1500 SNF under Disposal Conditions

2019

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As in other nuclear countries, the operation of the Ignalina nuclear power plant in Lithuania has led to the accumulation of around 22 thousand assemblies of spent nuclear fuel (SNF). The development of geological disposal program involves an iterative assessment of the system safety supported by scientific research on radionuclides migration and related processes. This study focused on the application of Contribution to the Sample Mean (CSM) and Contribution to Sample Variance (CSV) methods to complement the uncertainty and sensitivity analyses of the time-dependent flux of I-129 from the engineered barriers of a conceptual disposal facility for RBMK-1500 SNF (RBMK is abbreviation of "High Power Channel-type Reactor" (in Russian)). The analysis was performed using a MATLAB platform (8.0.0.783 (R2012b), MathWorks, MA, USA). The mean and variance ratios derived from CSM and CSV plots were applied to estimate the effect of reduced uncertainty range on mean flux and its variance, and the uncertainty analysis was also complimented. Increasing the lower bounding value of defect size enlargement time range to 4.6 × 10 4 years would lead to a lower mean flux until 5 × 10 4 years after repository closure. Later on (up to 1 million years after repository closure), the only reduction of the upper bounding value of the SNF dissolution rate range would affect a decreased mean flux.Keywords: RBMK-1500 spent nuclear fuel; deep geological repository; uncertainty and sensitivity; CSM; CSV; radionuclide migration 3 × 10 −12 (p = 0.15) 1 × 10 −11 (p = 0.7) 3 × 10 −11 (p = 0.15) Discrete 1 Probability density function. SNF: spent nuclear fuel.Minerals 2019, 9, 521 5 of 26 Characterization of Model BehaviorThe model realized using the computer code AMBER [34] assessed time-dependent radionuclide release from the SNF matrix, dissolution, radioactive decay, and contaminant transport by diffusion through engineered barriers. The uncertainty of the main transport-related parameters, including defect size enlargement time, was characterized by probability density function for each parameter. The model output was a large number of the time-dependent flux values over an extended period (10 3 -10 6 years after repository closure), which allowed for the evaluation of the mean flux, the quantiles, and the distribution of the peak flux, as illustrated in Figure 2.

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Modeling of Radionuclide Releases From the Geological Repository for RBMK-1500 Spent Nuclear Fuel in Crystalline Rocks in Lithuania

Cited by 4 publications

References 0 publications

Uncertainty and sensitivity analysis of radionuclide migration through the engineered barriers of deep geological repository: Case of RBMK-1500 SNF

Uncertainty and sensitivity analysis of radionuclide migration through the engineered barriers of deep geological repository: Case of RBMK-1500 SNF

Pažanga įgyvendinant radioaktyviųjų atliekų atliekynus Lietuvoje ir jų saugos vertinimas

Uncertainty and Sensitivity Analysis at Low Value of Determination Coefficient of Regression Analysis: Case of I-129 Release from RBMK-1500 SNF under Disposal Conditions

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