Standard

Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit. / Gusev, B. A.; Efimov, A. A.; Aleshin, A. M.; Semenov, V. G.; Panchuk, V. V.; Martynov, V. V.; Maksimova, A. N.

в: Thermal Engineering, Том 69, № 3, 03.2022, стр. 227-233.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Gusev, BA, Efimov, AA, Aleshin, AM, Semenov, VG, Panchuk, VV, Martynov, VV & Maksimova, AN 2022, 'Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit', Thermal Engineering, Том. 69, № 3, стр. 227-233. https://doi.org/10.1134/s0040601522030053

APA

Gusev, B. A., Efimov, A. A., Aleshin, A. M., Semenov, V. G., Panchuk, V. V., Martynov, V. V., & Maksimova, A. N. (2022). Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit. Thermal Engineering, 69(3), 227-233. https://doi.org/10.1134/s0040601522030053

Vancouver

Gusev BA, Efimov AA, Aleshin AM, Semenov VG, Panchuk VV, Martynov VV и пр. Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit. Thermal Engineering. 2022 Март;69(3):227-233. https://doi.org/10.1134/s0040601522030053

Author

Gusev, B. A. ; Efimov, A. A. ; Aleshin, A. M. ; Semenov, V. G. ; Panchuk, V. V. ; Martynov, V. V. ; Maksimova, A. N. / Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit. в: Thermal Engineering. 2022 ; Том 69, № 3. стр. 227-233.

BibTeX

@article{6b7166832f5f401baa9e124e1c6cac7e,
title = "Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit",
abstract = "Abstract: The results of the investigation into the morphology and phase and chemical composition of protective films and corrosion products deposits that form spontaneously on the steel surface during operation of the heat-exchange equipment with the oxidizing water chemistry in the tertiary coolant circuit of a BN-800 reactor unit are reported. A comparison is made of the phase composition of protective oxide films on the working surfaces in the tertiary coolant circuit of steam generators at BN-600 and BN-800 reactor units operating with different water chemistries. It has been demonstrated that, unlike type PGV horizontal steam generators employed at power units with pressurized water power reactors, where oxide films and deposits of corrosion products in the secondary circuit are determined only by magnetite (Fe3O4), films and deposits in the N-272 steam generator contain three phases: magnetite (Fe3O4), hematite (α-Fe2O3), and lepidocrocite (γ-FeOOH). A protective oxide film of magnetite (100%) is formed directly on the metal. On the film surface are formed a layer of deposits tightly bound to it and consisting of 70% of magnetite, 25–30% of hematite, 1–5% of lepidocrocite, and loose surface corrosion products deposits of corrosion products. The phase compositions of the dense layer (hematite) and loose corrosion products' deposits (hematite + lepidocrocite) on the working surfaces of the heat-transfer tubes in the N-272 steam generator correspond to the weakly alkaline oxidizing water chemistry for the tertiary circuit of the BN-800 reactor unit. It has been established that, irrespective of the type of water chemistry (oxidizing for the BN-800 reactor or reducing for the BN-600 reactor), an oxide layer of magnetite with protective properties is formed spontaneously on the surface of pearlitic steel during operation.",
keywords = "corrosion products' deposits, morphology, oxidizing water chemistry, pearlitic steels, phase composition, protective oxide films, tertiary circuit, vertical steam generator",
author = "Gusev, {B. A.} and Efimov, {A. A.} and Aleshin, {A. M.} and Semenov, {V. G.} and Panchuk, {V. V.} and Martynov, {V. V.} and Maksimova, {A. N.}",
note = "Gusev, B.A., Efimov, A.A., Aleshin, A.M. et al. Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit. Therm. Eng. 69, 227–233 (2022). https://doi.org/10.1134/S0040601522030053",
year = "2022",
month = mar,
doi = "10.1134/s0040601522030053",
language = "English",
volume = "69",
pages = "227--233",
journal = "Thermal Engineering (English translation of Teploenergetika)",
issn = "0040-6015",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "3",

}

RIS

TY - JOUR

T1 - Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit

AU - Gusev, B. A.

AU - Efimov, A. A.

AU - Aleshin, A. M.

AU - Semenov, V. G.

AU - Panchuk, V. V.

AU - Martynov, V. V.

AU - Maksimova, A. N.

N1 - Gusev, B.A., Efimov, A.A., Aleshin, A.M. et al. Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit. Therm. Eng. 69, 227–233 (2022). https://doi.org/10.1134/S0040601522030053

PY - 2022/3

Y1 - 2022/3

N2 - Abstract: The results of the investigation into the morphology and phase and chemical composition of protective films and corrosion products deposits that form spontaneously on the steel surface during operation of the heat-exchange equipment with the oxidizing water chemistry in the tertiary coolant circuit of a BN-800 reactor unit are reported. A comparison is made of the phase composition of protective oxide films on the working surfaces in the tertiary coolant circuit of steam generators at BN-600 and BN-800 reactor units operating with different water chemistries. It has been demonstrated that, unlike type PGV horizontal steam generators employed at power units with pressurized water power reactors, where oxide films and deposits of corrosion products in the secondary circuit are determined only by magnetite (Fe3O4), films and deposits in the N-272 steam generator contain three phases: magnetite (Fe3O4), hematite (α-Fe2O3), and lepidocrocite (γ-FeOOH). A protective oxide film of magnetite (100%) is formed directly on the metal. On the film surface are formed a layer of deposits tightly bound to it and consisting of 70% of magnetite, 25–30% of hematite, 1–5% of lepidocrocite, and loose surface corrosion products deposits of corrosion products. The phase compositions of the dense layer (hematite) and loose corrosion products' deposits (hematite + lepidocrocite) on the working surfaces of the heat-transfer tubes in the N-272 steam generator correspond to the weakly alkaline oxidizing water chemistry for the tertiary circuit of the BN-800 reactor unit. It has been established that, irrespective of the type of water chemistry (oxidizing for the BN-800 reactor or reducing for the BN-600 reactor), an oxide layer of magnetite with protective properties is formed spontaneously on the surface of pearlitic steel during operation.

AB - Abstract: The results of the investigation into the morphology and phase and chemical composition of protective films and corrosion products deposits that form spontaneously on the steel surface during operation of the heat-exchange equipment with the oxidizing water chemistry in the tertiary coolant circuit of a BN-800 reactor unit are reported. A comparison is made of the phase composition of protective oxide films on the working surfaces in the tertiary coolant circuit of steam generators at BN-600 and BN-800 reactor units operating with different water chemistries. It has been demonstrated that, unlike type PGV horizontal steam generators employed at power units with pressurized water power reactors, where oxide films and deposits of corrosion products in the secondary circuit are determined only by magnetite (Fe3O4), films and deposits in the N-272 steam generator contain three phases: magnetite (Fe3O4), hematite (α-Fe2O3), and lepidocrocite (γ-FeOOH). A protective oxide film of magnetite (100%) is formed directly on the metal. On the film surface are formed a layer of deposits tightly bound to it and consisting of 70% of magnetite, 25–30% of hematite, 1–5% of lepidocrocite, and loose surface corrosion products deposits of corrosion products. The phase compositions of the dense layer (hematite) and loose corrosion products' deposits (hematite + lepidocrocite) on the working surfaces of the heat-transfer tubes in the N-272 steam generator correspond to the weakly alkaline oxidizing water chemistry for the tertiary circuit of the BN-800 reactor unit. It has been established that, irrespective of the type of water chemistry (oxidizing for the BN-800 reactor or reducing for the BN-600 reactor), an oxide layer of magnetite with protective properties is formed spontaneously on the surface of pearlitic steel during operation.

KW - corrosion products' deposits

KW - morphology

KW - oxidizing water chemistry

KW - pearlitic steels

KW - phase composition

KW - protective oxide films

KW - tertiary circuit

KW - vertical steam generator

UR - http://www.scopus.com/inward/record.url?scp=85128446640&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/01585e2d-6285-3d34-b36a-8c618b796b2a/

U2 - 10.1134/s0040601522030053

DO - 10.1134/s0040601522030053

M3 - Article

AN - SCOPUS:85128446640

VL - 69

SP - 227

EP - 233

JO - Thermal Engineering (English translation of Teploenergetika)

JF - Thermal Engineering (English translation of Teploenergetika)

SN - 0040-6015

IS - 3

ER -

ID: 100766349