Determination of the armor wear and tear of the drum ball mill
Електронний науковий архів Науково-технічної бібліотеки Національного університету "Львівська політехніка"
Переглянути архів Інформація| Поле | Співвідношення | |
| Title |
Determination of the armor wear and tear of the drum ball mill
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| Creator |
Mysak, Stepan
Kovalenko, Tetiana |
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| Contributor |
Lviv Polytechnic National University
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| Subject |
analytical method
steam boiler drum ball mill coal drum armor wear rate ball wear rate mill operation duration ball charge |
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| Description |
The object of the research to develop an analytical method for determining the armor wear rate of the drum ball mill was the boiler TP-100 (TP-100A) of the 200 MW power unit of Burshtyn TPP (Ukraine), equipped with two individual dust-preparation systems with drum ball mills KBM 370/850 (Sh -50A). An effective analytical method for determining one of the main performance indicators of a drum ball mill – the wear rate of the drum armor, grinding balls and the relationship between them in case of “G” grade coal combustion for TP- 100 boilers is proposed. Its essence is to reduce human labor costs, more accurately determine the wear rate of the drum armor and grinding balls. This method is characterized by the fact that the main estimation indicator is the drum armor wear rate depending on the manufacture quality of armored plates (manufacturer). |
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| Date |
2018-04-12T13:07:16Z
2018-04-12T13:07:16Z 2017-12-23 2017-12-23 |
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| Type |
Conference Abstract
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| Identifier |
Mysak S. Determination of the armor wear and tear of the drum ball mill / Stepan Mysak, Tetiana Kovalenko // Litteris et Artibus : proceedings, 23–25 November, 2017. — Lviv : Lviv Polytechnic Publishing House, 2017. — P. 190–191. — (7th International academic conference «Electric power engineering & control systems 2017» (EPECS-2017)).
978-966-941-108-2 http://ena.lp.edu.ua:8080/handle/ntb/40536 Mysak S. Determination of the armor wear and tear of the drum ball mill / Stepan Mysak, Tetiana Kovalenko // Litteris et Artibus : proceedings, 23–25 November, 2017. — Lviv : Lviv Polytechnic Publishing House, 2017. — P. 190–191. — (7th International academic conference «Electric power engineering & control systems 2017» (EPECS-2017)). |
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| Language |
en
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| Relation |
Litteris et Artibus : матеріали, 2017
Litteris et Artibus : proceedings, 2017 [1] Chernyavsky, N. V. (1998). Two-Stages Principle in Entrainec Flow Coal Gasification: Mechanisms, Experimental Results, Advantages and Disadvantages for IGCC Application. 3-rd Int. CUSTNET Conf. on Coal Utilis. Sci. and Techn. Bucharest, 44. [2] Directive 2010/75/EU of the European Parliament and of the Council of 24 November 2010 on industrial emissions (integrated poluttion prevention and control) (Recast) (2010). Eur-lex, L 334/17. [3] Jaasund, S. A. (1987). Electrostatic Precipitator: Better Wet than Dry. Chemical Engineering, 159–163. [4] Integrated Pollution Prevention and Control (IPPC) Reference Document on Best Available Techniques for Large Combustion Plants (2006). European Commission, 618. [5] Maysterenko, A. Yu., Chernyavskiy, N. V. (2011). Vliyanie kachestva uglya na efektivnost' ego pilevidnogo szhiganiya na TES Ukrainy. Energohazyaystvo za rubezhem, 5, 23–28. [6] Levit, G. T. (2015). Nekotorye rekomendacii po povysheniyu vzryvo bezopasnosti pylosistem. Energetik, 11, 66–67. [7] Holyshev, L. V., Kozemko, O. M., Mysak, Y. S. (2011). Pat. No. 99219 UA. Sposib vyznachennia produktyvnosti kulovoho barabannoho mlyna. MPK: G01F 3/00, B02C 25/00. No. a201106786; declareted: 30.05.2011; published: 25.07.2012, Bul. No. 14. [1] Chernyavsky, N. V. (1998). Two-Stages Principle in Entrainec Flow Coal Gasification: Mechanisms, Experimental Results, Advantages and Disadvantages for IGCC Application. 3-rd Int. CUSTNET Conf. on Coal Utilis. Sci. and Techn. Bucharest, 44. [2] Directive 2010/75/EU of the European Parliament and of the Council of 24 November 2010 on industrial emissions (integrated poluttion prevention and control) (Recast) (2010). Eur-lex, L 334/17. [3] Jaasund, S. A. (1987). Electrostatic Precipitator: Better Wet than Dry. Chemical Engineering, 159–163. [4] Integrated Pollution Prevention and Control (IPPC) Reference Document on Best Available Techniques for Large Combustion Plants (2006). European Commission, 618. [5] Maysterenko, A. Yu., Chernyavskiy, N. V. (2011). Vliyanie kachestva uglya na efektivnost' ego pilevidnogo szhiganiya na TES Ukrainy. Energohazyaystvo za rubezhem, 5, 23–28. [6] Levit, G. T. (2015). Nekotorye rekomendacii po povysheniyu vzryvo bezopasnosti pylosistem. Energetik, 11, 66–67. [7] Holyshev, L. V., Kozemko, O. M., Mysak, Y. S. (2011). Pat. No. 99219 UA. Sposib vyznachennia produktyvnosti kulovoho barabannoho mlyna. MPK: G01F 3/00, B02C 25/00. No. a201106786; declareted: 30.05.2011; published: 25.07.2012, Bul. No. 14. |
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| Rights |
© Національний університет “Львівська політехніка”, 2017
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| Format |
190-191
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| Coverage |
23–25 листопада 2017 року
23–25 November, 2017 Львів Lviv |
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| Publisher |
Видавництво Львівської політехніки
Lviv Polytechnic Publishing House |
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