The study of behavior of Y zeolite catalyst under the conditions of aerosol nanocatalysis

Authors

  • Олександр Сергійович Кащеєв Volodymyr Dahl East Ukrainian National University Soviet Ave, 59a, Severodonetsk, Luhansk region., 93400, Ukraine
  • Ірина Маратівна Глікіна Volodymyr Dahl East Ukrainian National University Soviet Ave, 59a, Severodonetsk, Luhansk region., 93400, Ukraine
  • Сергій Олександрович Кудрявцев Volodymyr Dahl East Ukrainian National University Soviet Ave, 59a, Severodonetsk, Luhansk region., 93400, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2013.12265

Keywords:

Catalytic cracking, vacuum gas-oil, aerosol nanocatalysis, vibroliquated layer, gasoline fraction, diesel fraction

Abstract

The article studies the possibility of catalytic cracking using the technology of aerosol nanocatalysis in vibroliquated layer of the catalyst (AnCVB). The article presents experimental data of operation of the domestic zeolite-containing catalyst of Y type and gives the comparative analysis with industrial factors. Based on this one can conclude that AnCVB technology is promising for a catalytic cracking process in terms of energy- and resource-saving. In comparison to the industrial organization of the process, it became possible to increase selectivity of light oil by 20.9% of the mass to improve the productivity of the reactor according to the amount of light oil by 396% from one m3 of the reactor that permitted to reduce the size of the industrial equipment. It should be noted that the catalytic cracking according to AnCVB permits to reduce the concentration of the catalyst. In the experiment it was 3g/m3,whereas in industrial conditions it was 700kg/m3. The process can be recommended for use along with the existing equipment, and independently at small refineries

Author Biographies

Олександр Сергійович Кащеєв, Volodymyr Dahl East Ukrainian National University Soviet Ave, 59a, Severodonetsk, Luhansk region., 93400

Applicants

Department of Technology of organic substances, fuels and polymers

Ірина Маратівна Глікіна, Volodymyr Dahl East Ukrainian National University Soviet Ave, 59a, Severodonetsk, Luhansk region., 93400

PhD, lecturer

Department of Technology of organic substances, fuels and polymers

Сергій Олександрович Кудрявцев, Volodymyr Dahl East Ukrainian National University Soviet Ave, 59a, Severodonetsk, Luhansk region., 93400

PhD

Department of Technology of organic substances, fuels and polymers

References

  1. Glikina, I. M. Specific control parameters in the technology of aerosol nanocatalysis [Текст] / I.M. Glikina, M.A. Glikin, S.A. Kudryavtsev // ANNALES Universitatis Mariae Curie-Sklodowska. sectio AA CHEMIA. – 2009. - vol. LXIV. - Р. 218-226.
  2. Aerosol nanocatalysis technology - the way of development of chemicals and petrochemical industry : тез. докл. V Международной конференции "Стратегия качества в промышленности и образовании" (июнь 2009) [Текст] / отв. ред. Ю.А. Ступак. - Варна (Болгария) : International Scientific Journal Acta Universitatis Pontica euxinus, 2009. - С. 154-157.
  3. Recovery of nitrogen oxides of flue gas by aerosol nanocatalysis : abstracts of XII Polish-Ukrainian Symposium "Theoretical and experimental studies of interfacial phenomena and their technological application" (аug. 2010) [Текст] / edited by
  4. Yu. Tarasevich, R. Leboda. – Kielce-Ameliowka, 2010. – Р. 79.
  5. Организация процесса каталитического крекинга по технологии аэрозольного нанокатализа : Материалы Международной научно-технической конференции "Ресурсо- и энергосберегающие технологии и оборудование, экологически безопасные технологии" (ноябрь 2010) [Текст] / гл. ред. Жарский И.Н. -Минск (Беларусь) : УО «Белорусский государственный технологический университет», 2010. - с. 98-102.
  6. Experimental investigation of methane steam reforming in NiO aerosol nanoparticles : тез. докл. VII Международной конференции "Стратегия качества в промышленности и образовании". (июнь 2011) [Текст] / отв. ред. Ю.А. Ступак. - Варна (Болгария) : International Scientific Journal Acta Universitatis Pontica euxinus, 2011. - С. 64-68.
  7. Glikin, M.A. Conversion of natural gas in the process of steam reforming via aerosol nanocatalysis technology [Текст] / M.A. Glikin, S. Mohammed A., S.A. Kudryavtsev // Chemical technology. Kaunas University of technology, (Litva). – 2012. - Vol. 59. - №1. - P. 5-12.
  8. Mathemathical description of processes in aerosol nanocatalysis technology : abstracts of XII Polish-Ukrainian Symposium "Theoretical and experimental studies of interfacial phenomena and their technological application" (aug. 2010) [Текст] / edited by R. Leboda. - Kielce-Ameliowka, 2010. – P. 36.
  9. Definition of properties and catalytic system stability analysis in aerosol nanocatalysis with vibrating bed (AnCVB) technology : abstracts of X Ukrainian-Polish Symposium «Theoretical and experimental studies of interfacial phenomena and their technological applications» (sept. 2006) [Текст] / edited by Yu. Tarasevich, R. Leboda, M. Soltys. – Lvyiv : ВЦ Львівського Національного університету імені Івана Франка, 2006. – P. 25-27.
  10. Influence of mechanic activation regime on the products composition for n-pentane cracking process by aerosol nanocatalysis technology. : abstracts of IX Polish-Ukrainian Symposium «Theoretical and experimental studies of interfacial phenomena and their technological applications» (sept. 2005) [Текст] / edited by R. Leboda, Yu. Tarasevich, E. Aksenenko. - Sandomierz (Poland) : Zaklad Poligrafi UMCS, 2005 – P. 49-53
  11. The process of hydrocarbon cracking to gasoline and olefins by aerosol nanocatalysis technology : abstracts of VIII Ukrainian-Polish Symposium «Theoretical and experimental studies of interfacial phenomena and their technological applications» (sept. 2004) [Текст] / edited by R. Leboda, Yu. Tarasevich, E. Aksenenko. - Odessa, 2004. - P. 83-87.
  12. Glikina, I. M. (2009) Specific control parameters in the technology of aerosol nanocatalysis. ANNALES Universitatis Mariae Curie-Sklodowska. sectio AA CHEMIA, LXIV, 218-226.
  13. Aerosol nanocatalysis technology - the way of development of chemicals and petrochemical industry (2009). V International Conference “Strategy of Quality in Industry and Education”. Varna, Bulgaria, 154-157.
  14. Recovery of nitrogen oxides of flue gas by aerosol nanocatalysis (2010)/ XII Polish-Ukrainian Symposium "Theoretical and experimental studies of interfacial phenomena and their technological application". Kielce-Ameliowka, 79.
  15. Experimental investigation of methane steam reforming in NiO aerosol nanoparticles (2011). VII International Conference “Strategy of Quality in Industry and Education”. Varna, Bulgaria, 64-68.
  16. Glikin, M. A. (2012) Conversion of natural gas in the process of steam reforming via aerosol nanocatalysis technology. Chemical technology. Kaunas University of technology, (Litva), 59, №1, 5-12.
  17. Mathemathical description of processes in aerosol nanocatalysis technology (2010) XII Polish-Ukrainian Symposium "Theoretical and experimental studies of interfacial phenomena and their technological application". Kielce-Ameliowka, 36.
  18. Catalytic Cracking Process via The Aerosol Nanocatalysis Tehnology/ [Organizatsiia prozessa kataliticheskogo krekinga po tehnologii aerozolnogo nanokataliza] (2010) International Scientific and Technical Conference "Resource-and energy-saving technologies and equipment, environmentally friendly technology." Minsk (Belarus), 98-102.
  19. Definition of properties and catalytic system stability analysis in aerosol nanocatalysis with vibrating bed (AnCVB) technology (2006). X Ukrainian-Polish Symposium «Theoretical and experimental studies of interfacial phenomena and their technological applications», 25-27.
  20. Influence of mechanic activation regime on the products composition for n-pentane cracking process by aerosol nanocatalysis technology (2005). IX Polish-Ukrainian Symposium «Theoretical and experimental studies of interfacial phenomena and their technological applications». Sandomierz (Poland), 49-53.
  21. The process of hydrocarbon cracking to gasoline and olefins by aerosol nanocatalysis technology. (2004) VIII Ukrainian-Polish Symposium «Theoretical and experimental studies of interfacial phenomena and their technological applications», 83-87.

Downloads

Published

2013-04-25

How to Cite

Кащеєв, О. С., Глікіна, І. М., & Кудрявцев, С. О. (2013). The study of behavior of Y zeolite catalyst under the conditions of aerosol nanocatalysis. Eastern-European Journal of Enterprise Technologies, 2(6(62), 16–19. https://doi.org/10.15587/1729-4061.2013.12265

Issue

Vol. 2 No. 6(62) (2013): Technologies of organic and inorganic substances

Section

Technology organic and inorganic substances

License

Copyright (c) 2014 Олександр Сергійович Кащеєв, Ірина Маратівна Глікіна, Сергій Олександрович Кудрявцев

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.

A license agreement is a document in which the author warrants that he/she owns all copyright for the work (manuscript, article, etc.).
The authors, signing the License Agreement with TECHNOLOGY CENTER PC, have all rights to the further use of their work, provided that they link to our edition in which the work was published.
According to the terms of the License Agreement, the Publisher TECHNOLOGY CENTER PC does not take away your copyrights and receives permission from the authors to use and dissemination of the publication through the world's scientific resources (own electronic resources, scientometric databases, repositories, libraries, etc.).
In the absence of a signed License Agreement or in the absence of this agreement of identifiers allowing to identify the identity of the author, the editors have no right to work with the manuscript.
It is important to remember that there is another type of agreement between authors and publishers – when copyright is transferred from the authors to the publisher. In this case, the authors lose ownership of their work and may not use it in any way.