ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ

ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ

One of the main problems of the modern world is the search for economy of energy resources that could compete with natural gas. High-temperature furnaces are one of the biggest consumers of fuel. The heat-technology installation (furnace unit) is a set of working space within which a high-temperatur...

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Date:2023
Main Authors: Petryk, O.A., Nazarenko, I.A.
Format: Article
Language:Ukrainian
Published: Institute of Engineering Thermophysics of NAS of Ukraine 2023
Online Access:https://ihe.nas.gov.ua/index.php/journal/article/view/535
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Journal Title:Thermophysics and Thermal Power Engineering

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Thermophysics and Thermal Power Engineering
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spelling oai:ojs2.ihenasgovua.s43.yourdomain.com.ua:article-5352023-12-05T15:00:58Z IMPROVEMENT OF THERMAL MODES OF WARMING UP HIGH-TEMPERATURE UNITS ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ Petryk, O.A. Nazarenko, I.A. One of the main problems of the modern world is the search for economy of energy resources that could compete with natural gas. High-temperature furnaces are one of the biggest consumers of fuel. The heat-technology installation (furnace unit) is a set of working space within which a high-temperature process is carried out, and the equipment that ensures its implementation. The upper part of the reactor enclosure (working space) is called the vault. The vault is an element that determines the stability of the unit in general and affects the technical and economic indicators of production. On furnaces with intensive blowing of the bath with oxygen, the stability of the vault is about 300 melts. In the course of the technological process, the furnace vault is affected by the following factors: uneven heating of the inner surface of the vault along the length and width due to the uneven temperature field of the torch when heating the unit; temperature fluctuations depending on technological periods; a change in the chemical and phase composition of the refractory vault material as a result of the influence of slag and metal splashes, smelting dust and the gas atmosphere of the working space of the furnace. The intensification of thermal and technological regimes contributes to strengthening and accelerating the action of the above-mentioned processes. Therefore, special attention should be paid to the issue of high-quality heating of the vault of the unit. The article presents the results of studies of factors affecting the stability of the vault of high-temperature aggregates. On the basis of calculations based on the heat balance equations of the high-temperature unit, as well as recommendations for heating refractory products. In this article has been developed a new rational heating mode. The new thermal mode of heating the vault of the furnace will ensure a uniform temperature gradient over the entire surface of the vault, as well as the space of the furnace: with exposure to 300°С and 800°С in the zones of increased linear expansion of directly bonded high-temperature products. And also increase the productivity of the unit due to faster entry into the working mode. The fuel reduction for the heating process is estimated about 10.7%. В статті наведено результати досліджень факторів, що впливають на стійкість склепіння високотемпературних агрегатів. Розраховано тепловий баланс, на основі якого розроблено новий раціональний режим розігрівання, що дозволить забезпечити рівномірний температурний градієнт по всій поверхні склепіння, а також простору печі. Оцінено зниження палива на процес розігрівання Institute of Engineering Thermophysics of NAS of Ukraine 2023-06-11 Article Article application/pdf https://ihe.nas.gov.ua/index.php/journal/article/view/535 10.31472/ttpe.2.2023.7 Thermophysics and Thermal Power Engineering; Vol 45 No 2 (2023): Thermophysics and Thermal Power Engineering; 63-68 Теплофизика и Теплоэнергетика; Vol 45 No 2 (2023): Thermophysics and Thermal Power Engineering; 63-68 Теплофізика та Теплоенергетика; Vol 45 No 2 (2023): Thermophysics and Thermal Power Engineering; 63-68 2663-7235 uk https://ihe.nas.gov.ua/index.php/journal/article/view/535/459 https://creativecommons.org/licenses/by/4.0
institution Thermophysics and Thermal Power Engineering
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datestamp_date 2023-12-05T15:00:58Z
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language Ukrainian
format Article
author Petryk, O.A.
Nazarenko, I.A.
spellingShingle Petryk, O.A.
Nazarenko, I.A.
ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ
author_facet Petryk, O.A.
Nazarenko, I.A.
author_sort Petryk, O.A.
title ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ
title_short ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ
title_full ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ
title_fullStr ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ
title_full_unstemmed ВДОСКОНАЛЕННЯ РЕЖИМІВ РОЗІГРІВАННЯ ВИСОКОТЕМПЕРАТУРНИХ АГРЕГАТІВ
title_sort вдосконалення режимів розігрівання високотемпературних агрегатів
title_alt IMPROVEMENT OF THERMAL MODES OF WARMING UP HIGH-TEMPERATURE UNITS
description One of the main problems of the modern world is the search for economy of energy resources that could compete with natural gas. High-temperature furnaces are one of the biggest consumers of fuel. The heat-technology installation (furnace unit) is a set of working space within which a high-temperature process is carried out, and the equipment that ensures its implementation. The upper part of the reactor enclosure (working space) is called the vault. The vault is an element that determines the stability of the unit in general and affects the technical and economic indicators of production. On furnaces with intensive blowing of the bath with oxygen, the stability of the vault is about 300 melts. In the course of the technological process, the furnace vault is affected by the following factors: uneven heating of the inner surface of the vault along the length and width due to the uneven temperature field of the torch when heating the unit; temperature fluctuations depending on technological periods; a change in the chemical and phase composition of the refractory vault material as a result of the influence of slag and metal splashes, smelting dust and the gas atmosphere of the working space of the furnace. The intensification of thermal and technological regimes contributes to strengthening and accelerating the action of the above-mentioned processes. Therefore, special attention should be paid to the issue of high-quality heating of the vault of the unit. The article presents the results of studies of factors affecting the stability of the vault of high-temperature aggregates. On the basis of calculations based on the heat balance equations of the high-temperature unit, as well as recommendations for heating refractory products. In this article has been developed a new rational heating mode. The new thermal mode of heating the vault of the furnace will ensure a uniform temperature gradient over the entire surface of the vault, as well as the space of the furnace: with exposure to 300°С and 800°С in the zones of increased linear expansion of directly bonded high-temperature products. And also increase the productivity of the unit due to faster entry into the working mode. The fuel reduction for the heating process is estimated about 10.7%.
publisher Institute of Engineering Thermophysics of NAS of Ukraine
publishDate 2023
url https://ihe.nas.gov.ua/index.php/journal/article/view/535
work_keys_str_mv AT petrykoa improvementofthermalmodesofwarminguphightemperatureunits
AT nazarenkoia improvementofthermalmodesofwarminguphightemperatureunits
AT petrykoa vdoskonalennârežimívrozígrívannâvisokotemperaturnihagregatív
AT nazarenkoia vdoskonalennârežimívrozígrívannâvisokotemperaturnihagregatív
first_indexed 2025-12-17T13:55:56Z
last_indexed 2025-12-17T13:55:56Z
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