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Chemistry / Physics / Krypton / Xenon / NAME / Chernobyl disaster / Atmosphere of Earth / Chemical elements / Noble gases / Matter


Scientific ReportIdentification of Noble Gases Sources using Atmospheric Trajectory Modelling Irina Petrova 1, Alexander Mahura 2, Sergey Smyshlayev 1, Yuri Dubasov 3, Sergey Pakhomov 3
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City

Petersburg / USSR / Chernobyl / Cherepovets / St. Petersburg / Vienna / /

Company

Hess / Suzuki / Air Resources Laboratory / /

Country

Germany / Sweden / France / Japan / Russia / Pakistan / Austria / United States / Canada / United Kingdom / China / India / Denmark / /

Event

Product Issues / Environmental Issue / /

Facility

Danish Meteorological Institute / V. G. Khlopin Radium Institute / Air Resources Laboratory / Russian State Hydrometeorological University / Khlopin Radium Institute / /

IndustryTerm

Noble gas / radioactive gas / measurement site / gas handbook / chemical compounds / physical and chemical characteristics / sector accounting / atmospheric chemical transport / noble gas xenon / chemical processes / chemical transformation / colourless gas / receptor site / gas purification operation system / chemical and biological agents / /

Organization

Radium Institute / National Oceanic and Atmospheric Administration / Russian State Hydrometeorological University / St. Petersburg / Khlopin Radium Institute / Comprehensive Nuclear-TestBan Treaty Organization / National Oceanographic and Atmospheric Administration / Danish Meteorological Institute / /

Person

Irina Petrova / Yuri Dubasov / Fontaine / Sergey Smyshlayev / Alexander Mahura / Sergey Pakhomov / /

Position

trajectory calculation author / General / Winger / /

Product

air mass transport / air transport / /

Region

South Ukraine / West Russia / Eastern Europe / /

Technology

radiation / sorption / SNP / simulation / /

URL

www.dmi.dk/dmi/sr10-03.pdf / http /

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