Safety of technogenic and natural systems

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1. Maslenskiy V. V., Bulygin Yu. I. Ustanovlenie klassa usloviy truda operatora liteynogo mostovogo krana za schet modelirovaniya poley teplovogo oblucheniya i temperatury [Determination of the class of working conditions of the operator of the casting bridge crane by modeling the fields of thermal irradiation and temperature]. Ekologiya i bezopasnost' v tekhnosfere: sovremennye problemy i puti resheniya: sb. tr. Vserossiiskoi nauch.-prakt. konf. molodykh uchenykh, aspirantov i studentov [Ecology and safety in the technosphere: modern problems and solutions: proceedings of the All-Russian Scientific and Practical Conference of Young Scientists, Postgraduates and Students]. Tomsk: TPU Publishing house, 2020, p. 176–179 (In Russ.).

2. Samykina E. V., Samykin S. V. Vliyanie nagrevayushchego mikroklimata kak prioritetnogo faktora riska razvitiya professional'noy patologii [The influence of the heating microclimate as a priority risk factor for the development of occupational pathology]. Bulletin of the Medical Institute "Reaviz" (Rehabilitation, Doctor and Health). 2017;5:144–147 (In Russ.).

3. Bulygin Yu. I., Shchekina E. V., Maslenskiy V. V. Razrabotka elementov sistemy normalizatsii mikroklimata v kabine zernouborochnogo kombaina TORUM [Development of microclimate normalization system elements in the cabin of TORUM grain harvester]. Safety of Technogenic and Natural Systems. 2019;2:2–12 (In Russ.). DOI : https://doi.org/10.23947/2541-9129-2019-2-2-12

4. Golubkin V. S., Menshchikov I. E. Raschet sistemy konditsionirovaniya vozdukha passazhirskogo samoleta [Calculation of the air conditioning system of a passenger aircraft]. Molodezhnyy nauchno-tekhnicheskiy vestnik. 2013;3:12 (In Russ.).

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6. Abramova I. A., Borisov D. N., Zhukov A. A. K voprosu o vypolnenii konechno-elementnogo analiza v CAE-sistemakh [On the issue of performing finite element analysis in CAE systems]. Nauka i voennaya bezopasnost'. 2016;3(6):59–65 (In Russ.).

7. Elshin V. V., Zhiltsov Yu. V. Modelirovanie protsessa sopryazhennogo teploobmena s ispol'zovaniem programmnogo kompleksa Ansys CFX [Simulation of the conjugate heat transfer process using the Ansys CFX software package]. Proceedings of Irkutsk State Technical University. 2011;10(57):186–189 (In Russ.).

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9. Moskvichev A. V. Primenimost' modeley turbulentnosti, realizovannykh v Ansys CFX, dlya issledovaniya gazodinamiki v shchelevom kanale TNA ZhRD [Applicability of the turbulence models implemented in Ansys CFX for the study of gas dynamics in the slit channel of the TNA LRE]. Proceedings of the Voronezh State University of Engineering Technologies. 2013;9(5–1):82–85 (In Russ.).

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1. Fedosov A. V., Badrtdinova I. I., Abdrakhmanova K. N., Valekzhanin D. Yu. Kolichestvennaya otsenka neopredelennosti rezul'tatov analiza riska tekhnogennykh avariy [Quantitative assessment of the uncertainty of the analysis results of the risk of man-made accidents]. Neftegazovoe delo. 2019;3:46–66 (In Russ.). DOI : http://doi.org/10.17122/ogbus-2019-3-46-66

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