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个人简介
General:
V.G. Rumynin is the Head of Saint Petersburg Div., Institute of Environmental Geology of the Russian Academy of Sciences. He is a professor of Hydrogeology Department at Saint Petersburg State University. Prof. Rumynin began his scientific career at Leningrad (St. Petersburg) Mining Institute as a researcher, where he received Ph.D. (1981) and then Sc.D. (1987) degree in hydrogeology. In 2003 Dr. Rumynin was elected in the Russian Academy of Sciences as a corresponding member.
Specialization:
(i) Main field: environmental hydrogeology, derivation of the analytical models of the subsurface solute transport, development of site characterization techniques, site-scale modeling of groundwater flow and solute transport processes;
(ii) Current research interests: model development for flow and solute transport in stochastically generated fractured media, TTD assessment, impact assessment coursed by nonpoint spatially variable sources of contamination, predicting hazardous waste disposal in geological formations, and radionuclide transport with runoff.
National research projects: Supervised the research on groundwater protection from contamination for more than 20 mining enterprises across the country. Was a principal investigator of research projects dealing with studies of radionuclide transport processes at radioactively contaminated sites and sites of NPP’s potential impact. Under his supervision and guidance two national projects related to long-term safety assessment of the deep disposal of RadWaste in the clay (St. Petersburg area) and fractured gneiss formations (Krasnoyarsk region) have been carried out.
International projects and grants: Principal investigator of a EC Project RaCoS in the framework of Inco-Copernicus program (1997–2000); team leader of a Joint Research Project supported by the Swiss National Science Foundation (2000-2003); coordinator and team leader of several Research Projects supported by the International Science and Technology Center (ISTC) (2000-2011). Commercial and research projects related to oversees NPPs (Hungary, Egypt, Iran, Uzbekistan) (2015–2020).
Selected references (in English):
1. Rumynin V.G., Rozov K.B., Nikulenkov A.M., Sindalovskiy L.N., Aloy A.S, Karpovich N.F., Slastikhina P.V. (2022). Analytical models for predicting the behavior of the Fukushima fuel debris during laboratory tests and long-term storage. Journal of Nuclear Materials. V. 568, 153895. https://doi.org/10.1016/j.jnucmat.2022.153895.
2. Rumynin V.G., Vladimirov K.V., Nikulenkov A.M., Rozov K.B., Erzova V.A. (2021). The status and trends in radioactive contamination of groundwater at a LLW-ILW storage facility site near Sosnovy Bor (Leningrad region, Russia) Journal of Environmental Radioactivity. 237 106707. https://doi.org/10.1016/j.jenvrad.2021.106707.
3. Rumynin V.G., Sindalovskiy L.N., Nikulenkov A.M. (2021). Analytical solutions for flow and advective solute transport in unconfined watershed aquifers with depth-dependent hydraulic conductivity. Journal of Hydrology. V. 603, 2021, 127116. https://doi.org/10.1016/j.jhydrol.2021.127116.
4. Rumynin V.G., Leskova P.G., Sindalovskiy L.N., Nikulenkov A.M. (2019). Effect of depth-dependent hydraulic conductivity and anisotropy on transit time distributions. Journal of Hydrology. V. 579, 124161.
5. Rumynin V.G., Sindalovskiy L.N., Nikulenkova A.M., Leskova P.G. Effect of anisotropy and depth-dependent hydraulic conductivity on concentration curve response to nonpoint-source pollution. Journal of Hydrology. 2020, v. 591. https://doi.org/10.1016/j.jhydrol.2020.125319.
6. Rozov K.B., Rumynin V.G., Nikulenkov A.M., Leskova P.G. Sorption of 137Cs, 90Sr, Se, 99Tc, 152(154)Eu, 239(240)Pu on fractured rocks of the Yeniseysky site (Nizhne-Kansky massif, Krasnoyarsk region, Russia). (2018). Journal of Environmental Radioactivity. V. 192, p. 513–523.
7. Nikulenkov A.M., Dvornikov A.Y., Rumynin V.G., Ryabchenko V.A., Vereschagina E.A. (2017). Assessment of Allowable Thermal Load for a River Reservoir Subject to Multi-Source Thermal Discharge from Operating and Designed Beloyarsk NPP Units. Environmental Modeling and Assessment. V. 22, p. 609–623.
8. Rumynin V.G., Nikulenkov A.M. (2016). Geological and physicochemical controls of the spatial distribution of partition coefficients for radionuclides (Sr-90, Cs-137, Co-60, Pu-239,240 and Am-241) at a site of nuclear reactors and radioactive waste disposal . Journal of Environmental Radioactivity. V. 162–163, p. 205–218.
9. Rumynin V.G. (2015, monograph). Overland flow dynamics and solute transport. Springer, 287 p.
10. Rumynin V.G. (2011, monograph). Subsurface solute transport models and case histories with application to radionuclide migration. Springer, 860 p.
11. Rumynin V.G., Konosavsky P.K., Hoehn E. (2005). Experimental and modeling study of adsorption–desorption processes with application to a deep-well injection RW disposal site. Journal of Contaminant Hydrology. V. 76, No. 1–2, p. 19.
研究兴趣
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Journal of Environmental Radioactivity (2023): 107189-107189
Doklady Earth Sciencesno. Suppl 1 (2023): S207-S215
Геоэкология. Инженерная геология. Гидрогеология. Геокриологияpp.47-61, (2023)
Energiesno. 19 (2022): 7440-7440
Геоэкология. Инженерная геология. Гидрогеология. Геокриологияpp.53-66, (2021)
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作者统计
#Papers: 39
#Citation: 214
H-Index: 9
G-Index: 9
Sociability: 4
Diversity: 2
Activity: 18
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