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

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...

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Veröffentlicht in:	Thermal engineering 2022-03, Vol.69 (3), p.227-233
Hauptverfasser:	Gusev, B. A., Efimov, A. A., Aleshin, A. M., Semenov, V. G., Panchuk, V. V., Martynov, V. V., Maksimova, A. N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Boilers Casting Chemical composition Chemistry Circuits Coolants Corrosion Corrosion products Deposits Engineering Engineering Thermodynamics Generators Heat and Mass Transfer Heat exchange Heat exchangers Hematite Iron oxides Magnetic properties Magnetite Metals and Strength Analysis Morphology Oxidation Oxide coatings Phase composition Power reactors Pressurized water Steam electric power generation Tubes Water chemistry
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container_end_page	233
container_issue	3
container_start_page	227
container_title	Thermal engineering
container_volume	69
creator	Gusev, B. A. Efimov, A. A. Aleshin, A. M. Semenov, V. G. Panchuk, V. V. Martynov, V. V. Maksimova, A. N.
description	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 (Fe 3 O 4 ), films and deposits in the N-272 steam generator contain three phases: magnetite (Fe 3 O 4 ), hematite (α-Fe 2 O 3 ), 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.
doi_str_mv	10.1134/S0040601522030053
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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 (Fe 3 O 4 ), films and deposits in the N-272 steam generator contain three phases: magnetite (Fe 3 O 4 ), hematite (α-Fe 2 O 3 ), 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.</description><identifier>ISSN: 0040-6015</identifier><identifier>EISSN: 1555-6301</identifier><identifier>DOI: 10.1134/S0040601522030053</identifier><language>eng</language><publisher>Moscow: Pleiades Publishing</publisher><subject>Boilers ; Casting ; Chemical composition ; Chemistry ; Circuits ; Coolants ; Corrosion ; Corrosion products ; Deposits ; Engineering ; Engineering Thermodynamics ; Generators ; Heat and Mass Transfer ; Heat exchange ; Heat exchangers ; Hematite ; Iron oxides ; Magnetic properties ; Magnetite ; Metals and Strength Analysis ; Morphology ; Oxidation ; Oxide coatings ; Phase composition ; Power reactors ; Pressurized water ; Steam electric power generation ; Tubes ; Water chemistry</subject><ispartof>Thermal engineering, 2022-03, Vol.69 (3), p.227-233</ispartof><rights>Pleiades Publishing, Inc. 2022. 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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 (Fe 3 O 4 ), films and deposits in the N-272 steam generator contain three phases: magnetite (Fe 3 O 4 ), hematite (α-Fe 2 O 3 ), 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.</description><subject>Boilers</subject><subject>Casting</subject><subject>Chemical composition</subject><subject>Chemistry</subject><subject>Circuits</subject><subject>Coolants</subject><subject>Corrosion</subject><subject>Corrosion products</subject><subject>Deposits</subject><subject>Engineering</subject><subject>Engineering Thermodynamics</subject><subject>Generators</subject><subject>Heat and Mass Transfer</subject><subject>Heat exchange</subject><subject>Heat exchangers</subject><subject>Hematite</subject><subject>Iron oxides</subject><subject>Magnetic properties</subject><subject>Magnetite</subject><subject>Metals and Strength Analysis</subject><subject>Morphology</subject><subject>Oxidation</subject><subject>Oxide coatings</subject><subject>Phase composition</subject><subject>Power reactors</subject><subject>Pressurized water</subject><subject>Steam electric power generation</subject><subject>Tubes</subject><subject>Water chemistry</subject><issn>0040-6015</issn><issn>1555-6301</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><recordid>eNp1kE9PwkAQxTdGExH9AN428Vyd_Ut71CpogkJEzs2ynUIN7eJuSeTiZ7cFEw_G02Tm_d6bzBByyeCaMSFvZgASNDDFOQgAJY5IjymlIi2AHZNeJ0edfkrOQnhvWymZ6pGvZ-c3K7d2yx01dU6nKxOQpq7auFA2paupK-jks8yRDst1FfZQ6rxv5VacepdvbUPvcc8HWta0WSGdNWgqOsIavWmc70IMvXuJYgD6isZ2s3ldNufkpDDrgBc_tU_mw4e39DEaT0ZP6e04soLpJsrRFtzGqOPcWGlylDHXgEotEmYBBtaaQsXGYMwTk0ChZSIEXwCThhciyUWfXB1yN959bDE02bvb-rpdmXEttRrEMeiWYgfKtucFj0W28WVl_C5jkHVvzv68ufXwgye0bL1E_5v8v-kbbkZ-gA</recordid><startdate>20220301</startdate><enddate>20220301</enddate><creator>Gusev, B. A.</creator><creator>Efimov, A. A.</creator><creator>Aleshin, A. M.</creator><creator>Semenov, V. G.</creator><creator>Panchuk, V. V.</creator><creator>Martynov, V. V.</creator><creator>Maksimova, A. N.</creator><general>Pleiades Publishing</general><general>Springer Nature B.V</general><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20220301</creationdate><title>Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit</title><author>Gusev, B. A. ; Efimov, A. A. ; Aleshin, A. M. ; Semenov, V. G. ; Panchuk, V. V. ; Martynov, V. V. ; Maksimova, A. 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A.</creatorcontrib><creatorcontrib>Efimov, A. A.</creatorcontrib><creatorcontrib>Aleshin, A. M.</creatorcontrib><creatorcontrib>Semenov, V. G.</creatorcontrib><creatorcontrib>Panchuk, V. V.</creatorcontrib><creatorcontrib>Martynov, V. V.</creatorcontrib><creatorcontrib>Maksimova, A. N.</creatorcontrib><collection>CrossRef</collection><jtitle>Thermal engineering</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Gusev, B. A.</au><au>Efimov, A. A.</au><au>Aleshin, A. M.</au><au>Semenov, V. G.</au><au>Panchuk, V. V.</au><au>Martynov, V. V.</au><au>Maksimova, A. N.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit</atitle><jtitle>Thermal engineering</jtitle><stitle>Therm. Eng</stitle><date>2022-03-01</date><risdate>2022</risdate><volume>69</volume><issue>3</issue><spage>227</spage><epage>233</epage><pages>227-233</pages><issn>0040-6015</issn><eissn>1555-6301</eissn><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 (Fe 3 O 4 ), films and deposits in the N-272 steam generator contain three phases: magnetite (Fe 3 O 4 ), hematite (α-Fe 2 O 3 ), 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.</abstract><cop>Moscow</cop><pub>Pleiades Publishing</pub><doi>10.1134/S0040601522030053</doi><tpages>7</tpages></addata></record>
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subjects	Boilers Casting Chemical composition Chemistry Circuits Coolants Corrosion Corrosion products Deposits Engineering Engineering Thermodynamics Generators Heat and Mass Transfer Heat exchange Heat exchangers Hematite Iron oxides Magnetic properties Magnetite Metals and Strength Analysis Morphology Oxidation Oxide coatings Phase composition Power reactors Pressurized water Steam electric power generation Tubes Water chemistry
title	Morphology and Phase Composition of Oxide Films and Corrosion Product Deposits in the Steam Generator of a BN-800 Reactor Unit
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