Hydrological dispersion module of JRODOS: development and pilot implementation – the vistula river basin

Zheleznyak, Mark; Potempski, S.; Boyko, Oleksiy; Ievdin, I.; Kadłubowski, Andrzej; Trybushnyi, D.

doi:10.1051/radiopro/2010044

Cited by 8 publications

(3 citation statements)

References 10 publications

(10 reference statements)

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“…Within the frame of the European research project PREPARE the box model POSEIDON-R (Lepicard et al, 2004) was improved and integrated in the Hydrological Dispersion Module of the JRODOS DSS (Zheleznyak et al, 2010). The dynamic food web model in POSEIDON-R was extended by a benthic food chain to describe migration of radionuclides from contaminated bottom sediments to marine organisms.…”

Section: Introductionmentioning

confidence: 99%

Integration of marine food chain model POSEIDON in JRODOS and testingversusFukushima data

et al. 2016

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-The marine box model POSEIDON-R was integrated into the JRODOS decision support system. The POSEIDON-R dynamic food web model was extended by a benthic food chain to describe the migration of radionuclides from contaminated bottom sediments to marine organisms. The model was validated using experimental data from the Fukushima accident. Simulated concentrations of 137 Cs in water, bottom sediments and marine organisms are in good agreement with measurements. An example of application of JRODOS was demonstrated for Acerinox incident (Spain, 1998).

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Section: Introductionmentioning

confidence: 99%

Integration of marine food chain model POSEIDON in JRODOS and testingversusFukushima data

et al. 2016

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“…The integration of the lake and river MOIRA models into the JRODOS Hydrological Dispersion Module (HDM) modelling framework -that originally was a tool for the prediction of shortterm radionuclide dispersion in river systems (Zheleznyak et al, 2010), was an objective of the PREPARE project, responding to suggestions made by users of both DSS.…”

Section: Introductionmentioning

confidence: 99%

Integration of long-term radionuclide transport models MOIRA-LAKE and MOIRA-RIVER into Hydrological Dispersion Module of JRODOS

et al. 2016

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-The integration of the lake and river MOIRA models into the JRODOS Hydrological Dispersion Module (HDM) modelling framework, that originally only predicted short-term radionuclide dispersion in river systems, was a key objective of the PREPARE project. Thanks to it, the capabilities of JRODOS-HDM have been increased with regard to modelling the long-term fate of radionuclides ( 137 Cs and 90 Sr) in freshwater systems and to predicting the radiation doses via aquatic exposure pathways, as well as the efficiency of countermeasures to improve the radiological impact. Validated models have been implemented and exhaustive verification tests have been performed for both lake and river scenarios.

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“…As one of the tasks of the EC PREPARE project of the Hydrological Dispersion Module (HDM) of the decision support system -JRODOS (Zheleznyak et al, 2010(Zheleznyak et al, , 2016Gallego et al, 2016;Maderich et al, 2016) was planned to be implemented and tested for the simulation of the radionuclide transport in the water bodies of the region of Japan contaminated by the atmospheric fallout from the Fukushima-Daiichi Nuclear Power Plant (FDNPP).…”

Section: Introductionmentioning

confidence: 99%

Implementation of Hydrological Dispersion Module of JRODOS for the assessment of¹³⁷Cs transport and fate in rivers, reservoirs and ponds of the Fukushima Prefecture

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-The Hydrological Dispersion Module of JRODOS was implemented for the predictions of the long term dynamics of radiocesium in the rivers and ponds of the Fukushima Prefecture and for the forecasting of radiocesium dynamics in the reservoirs under the influences of the extreme flush floods generated by the typhoons. The possibilities of HDM for the assessment of the efficiency of the potential remediation measures for the diminishing water contamination were tested for several water systems.

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Hydrological dispersion module of JRODOS: development and pilot implementation – the vistula river basin

Cited by 8 publications

References 10 publications

Integration of marine food chain model POSEIDON in JRODOS and testingversusFukushima data

Integration of marine food chain model POSEIDON in JRODOS and testingversusFukushima data

Integration of long-term radionuclide transport models MOIRA-LAKE and MOIRA-RIVER into Hydrological Dispersion Module of JRODOS

Implementation of Hydrological Dispersion Module of JRODOS for the assessment of¹³⁷Cs transport and fate in rivers, reservoirs and ponds of the Fukushima Prefecture

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Hydrological dispersion module of JRODOS: development and pilot implementation – the vistula river basin

Cited by 8 publications

References 10 publications

Integration of marine food chain model POSEIDON in JRODOS and testingversusFukushima data

Integration of marine food chain model POSEIDON in JRODOS and testingversusFukushima data

Integration of long-term radionuclide transport models MOIRA-LAKE and MOIRA-RIVER into Hydrological Dispersion Module of JRODOS

Implementation of Hydrological Dispersion Module of JRODOS for the assessment of137Cs transport and fate in rivers, reservoirs and ponds of the Fukushima Prefecture

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Implementation of Hydrological Dispersion Module of JRODOS for the assessment of¹³⁷Cs transport and fate in rivers, reservoirs and ponds of the Fukushima Prefecture