2017-3(24)

Nuclear, radiation and environmental safety

Article NameMetrological Сharacteristics for the NPP site in Jordan
AuthorsE.A. Alalem*1, A.P. Elokhin*2, A.I. Ksenofontov*3, P.I. Fedorov**4
Address

* National Research Nuclear University «MEPhI»,
Kashirskoye shosse, 31, Moscow, Russia 115409

1 ORCID: 0000-0002-7207-5939
WoS ResearcherID: G-9489-2017
e-mail: issaalem2@yahoo.com ;

2 ORCID: 0000-0002-7682-8504
WoS ResearcherID: G-9573-2017
e-mail: elokhin@yandex.ru ;

3 ORCID: 0000-0002-6864-9805
WoS ResearcherID: H-1833-2017
e-mail: AIKsenofontov@mephi.ru

**Scientific and Engineering Centre for Nuclear and Radiation Safety (SECNRS), Malaya Krasnoselskaya st. 2/8, bld. 5. Moscow, Russia, 107140
4 ORCID: 0000-0002-0529-690X
WoS ResearcherID: H-1625-2017
e-mail: fedorov@secnrs.ru

AbstractThis paper presents meteorological characteristics for the site of the NPP in Jordan, which are a measurement of wind speed and temperature at different heights on meteorological tower, for different seasons at different times of the day. The obtained characteristics allow calculations of meteorological parameters in the atmospheric surface layer - air velocity, temperature, coefficient of turbulent diffusion and energy of turbulent pulsations as functions of height, that allows to formulate and to estimate the atmospheric dispersion of Radioactive Materials in the environment in the framework of atmospheric boundary layer model in case of hypothetical accident at the nuclear power plant in Jordan, also to conduct studies to determine the necessary and sufficient amount of radiation detectors that has to be placed around the NPP. The presented model can be used in the future to estimate the atmospheric dispersion of Radioactive Materials in the environment.
Keywordsradiation accident, meteorological characteristics, ionizing radiation, dispersion of Radioactive Materials in the environment, ionization detectors
LanguageRussian
References

[1] Elokhin A.P., Ksenofontov A.I., Fedorov P.I., Alalem E.A. Analiz osnovnykh kharakteristik rajjona razmeshhenija proektiruemojj AEhS v Iordanii [Main Characteristics Analysis of the NPP Placement Area Designed in Jordan]. Globalnaja yadernaja bezopasnost [Global nuclear safety], 2016, №2(19), ISSN 2305-414Х, eISSN 2499-9733, pp. 7–15. (in Russian)

[2] Metody rascheta rasprostranenija radioaktivnykh veshhestv v okruzhajushhejj srede i doz obluchenija naselenija [Methods for Calculating the Spread of Radioactive Substances in the Environment and Doses to the Public]. М. Pub. МХО Интератомэнерго, 1992, 334 p. (in Russian)

[3] Elokhin A.P., Starodubcev I.A. Ocenka materialnykh zatrat pri likvidacii posledstvijj radioaktivnogo zagrjaznenija podstilajushhejj poverkhnosti pri radiacionnojj avarii na OIAEh [The Material Costs in the Aftermath of Radioactive Pollution as a Result of Radiation Accident at Nuclear Facilities]. Globalnaja yadernaja bezopasnost [Global nuclear safety], 2016, №3(20), ISSN 2305-414Х, eISSN 2499-9733, pp. 7–34. (in Russian)

[4] Elokhin A.P., Starodubcev I.A. Nekotorye ocenki materialnykh zatrat pri likvidacii posledstvijj radioaktivnogo zagrjaznenija okruzhajushhejj sredy v rezultate radiacionnojj avarii na OIAEh [Some Estimates of Material Costs during the Liquidation of the Consequences of Radioactive Contamination of the Environment as a Result of a Radiation Accident at the Nuclear Facilities]. Materials of the XIIth International Conference Science and Education. July, 1–2 2016. München, 2016. pp. 55–81. (in Russian)

[5] Elokhin A.P. Metody i sredstva sistem radiacionnogo kontrolja okruzhajushhejj sredy: monografija [Methods and Means of Radiation Monitoring Systems of the Environment: monograph]. M. Pub. NRNU MEPhI, 2014, 520 p. (in Russian)

[6] Elokhin A.P. Optimizacija metodov i sredstv avtomatizirovannykh sistem kontrolja radiacionnojj obstanovki okruzhajushhejj sredy. Dissertacija na soiskanie uchenojj stepeni doktora tekhnicheskikh nauk [Optimization of Methods and Means of the Automated Control Systems of Environment Radiation Situation. The thesis for the Doctor of Engineering degree]. M. Pub. MEPhI, 2001, 325 p. (in Russian)

[7] Lajjkhtman D.L. Fizika pogranichnogo sloja atmosfery [Physics of an Interface of the Atmosphere]. Leningrad. Pub. Gidrometeorologicheskoe izdatel'stvo, 1970, 340 p. (in Russian)

[8] Jordan Atomic Energy Commission. Meteorological data. Weather Station readings. 06.09.2014. (in English)

[9] Bobyleva M.M. Raschet kharakteristik turbulentnosti v planetarnom pogranichnom sloe atmosfery. Trudy Leningradskogo Gidrometeorologicheskogo instituta. Vol. 40 (Nekotorye voprosy fiziki pogranichnogo sloja v atmosfere i more) [Calculation of the Turbulence Characteristics in the Planetary Boundary Layer of the Atmosphere. Proceedings of the Leningrad Hydrometeorological Institute. Issue. 40 (Some issues of the Physics of the Boundary Layer in the Atmosphere and the Sea)]. Leningrad, 1970, pp. 64–73. (in Russian)

[10] Elokhin A.P., Zhilina M.V., Rau D.F., Ivanov E.A. Polozhenie o povyshenii tochnosti prognosticheskikh ocenok radiacionnykh kharakteristik radioaktivnogo zagrjaznenija okruzhajushhejj sredy i dozovykh nagruzok na personal i naselenie. Ministerstvo prirodnykh resursov i ehkologii Rossijjskojj Federacii, Federal'naja sluzhba po ehkologicheskomu, tekhnologicheskomu i atomnomu nadzoru RB – 053 – 09. Utverzhdeno prikazom Federal'nojj sluzhby po ehkologicheskomu, tekhnologicheskomu i atomnomu nadzoru ot  08.06.2010 goda №465 [Provision on Increase in Accuracy of Predictive Estimates of Radiation Characteristics of Radioactive Environmental Pollution and Dose Loads of Personnel and Population. The Ministry of Natural Resources and Environmental Protection of the Russian Federation, Federal Service for Environmental, Technological and Nuclear Supervision of RB – 053 – 09. Approved by the order of Federal Service for Environmental, Technological and Nuclear Supervision, 08.06.2010 №465], 79 p. (in Russian)

[11] Meteorologija i atomnaja ehnergija. Perevod s anglijjskogo. Pod redakciejj N.L. Byzovojj i K.P. Makhonko [Meteorology and Nuclear Energy. Trans. from English. Edited by N.L. Byzova and K.P. Mahonko]. Leningrad. Pub. Gidrometeoizdat, 1971. 618 p. (in Russian)

[12] Metod Monte-Karlo v probleme perenosa izluchenijj. Pod redakciejj G.I. Marchuka [The Monte Carlo Method in the Problem of Radiation Transfer. Edited by G.I. Marchuk]. M. Pub. Atomizdat, 1967. 256 p. (in Russian)

[13] Leimdorfer M. On the Use of Monte-Carlo Methods for Solving Gamma Radiation Transport Problems [Об использовании методов Монте-Карло для решения задач гамма-излучения]. Nukleonik, 1964, V.6, R.14. (in English)

[14] Zolotukhin V.G., Kimel L.R., Ksenofontov A.I. etc. Pole izluchenija tochechnogo mononapravlennogo istochnika gamma-kvantov [The Radiation Field of a Point Monodirectional Source of Gamma Quanta]. M. Pub. Atomizdat, 1974. 160 p. (in Russian)

[15] Sobolev I.M. Chislennye metody Monte-Karlo. [Numerical Monte Carlo Methods] M. Pub. Nauka, 1973, 311 p. (in Russian)

[16] Gusev N.G., Beljaev V.A. Radioaktivnye vybrosy v biosfere. Spravochnik [Radioactive Emissions in the Biosphere: a reference book]. M. Pub. Ehnergoatomizdat, 1986, 224 p. (in Russian)

[17] Elokhin A.P., Starodubcev I.A. K voprosu ob ispol'zovanii avtomatizirovannykh sistem kontrolja ehkologicheskojj obstanovki na territorijakh, prilegajushhikh k predprijatijam chernojj, cvetnojj metallurgicheskojj i atomnojj promyshlennosti [Use of Automated Systems for Environmental Monitoring in the Area Surrounding Ferrous, Nonferrous Metallurgical Enterprises and Nuclear Industry]. Globalnaja yadernaja bezopasnost [Global nuclear safety], 2015, №4(17), ISSN 2305-414Kh, eISSN 2499-9733, pp. 15–34. (in Russian)

[18] Alexander P. Elokhin and Ilia A. Starodubtcev. On the Ecological Situation at the Territories Adjacent to Chemical and Metallurgical Facilities. (Subtitle: Using Sensors and an Automated Control System to Monitor Environmental Conditions). Environmantal Quality Management. (USA) 2017. Vol. 26, №2, pp. 23–43. (in English)

[19] Sanitarnye pravila i normativy. SanPiN 2.6.1.2523-09 «Normy radiacionnojj bezopasnosti» [Sanitary Rules and Regulations. SanPiN 2.6.1.2523-09 "Norms of Radiation Safety"] (NRB-99/2009). (in Russian)

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