##plugins.themes.academic_pro.article.sidebar##

Download
pdf
Statistic
Read Counter : 119 Download : 102

##plugins.themes.academic_pro.article.main##

Abstract

The paper presents the results of the analysis of patent literature on the development of mercuryfree catalysts for the process of hydrochlorination of acetylene. Catalysts based on gold chloride and base metal chlorides are considered, and a comparative analysis of these catalysts is carried out.

Keywords

vinyl chloride acetylene hydrochlorination gold chloride acetylene

##plugins.themes.academic_pro.article.details##

Creative Commons License

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

How to Cite
Rakhmatov Doniyor Khudayorovich, Abdullaev Bakhtishod Menglikul angles, Norboev Farrukh Abdumalikovich, & Makhkamov Bakhrom Azimzhonovich. (2021). Modern Acetylene Hydrochlorination Catalysts. Texas Journal of Multidisciplinary Studies, 3, 8–10. Retrieved from https://zienjournals.com/index.php/tjm/article/view/348

References

  1. Флид М. Р. Состояние и перспективы развития производства винилхлорида – мономера для получения ПВХ [Электронный ресурс]. – Режим доступа: http://www.creonconferences.com/upload/iblock/2f3/4.Flid Sintez pdf 2. 19. Davies C. Gold Catalysts for the Hydrochlorination of Acetylene: автореф. дис. ... канд. наук / C. Davies – 2012. – 160 с.
  2. Hao XU, Guohua LUO Green Production of PVC from Laboratory to Industrialization: State-of-the-art Review of Heterogeneous Non-Mercury Catalysts for Acetylene Hydrochlorination / Hao XU, Guohua LUO – Текст: электронный // Journal of Industrial and Engineering Chemistry. – 2018. – № 10. – URL: https://doi.org/10.1016/j.jiec.2018.05.009
  3. One-pot synthesis of nitrogen and sulfur co-doped activated carbon supported AuCl3 as efficient catalysts for acetylene hydrochlorination // X.-X. Di, J. Zhao, Y. Yu, X.-L. Xu, S.-C. Gu, H.-H. He, T.-T. Zhang, X.-N. Li, Chin / Chemical Letters. – 2016. - № 27. – C. 1567-1571.
  4. Пат. CN103623838A МПК C02C 21/06, B01J 27/10, B01J 27/14, B01J 27/16. Ru-Pt-Cu катализатор для гидрохлорирования ацетилена синтеза винилхлорида / заявитель и патентообладатель: Чжан Цзиньли, Шэн Вэй, Ли Вэй, Хан Ю, Дай Бин. - №201210307780A; заявл. 24.08.2012 ; опубл. 12.03.2014.
  5. Пат. CN103894195A МПК B01J23 / 644; C07C17 / 08; C07C21 / 06. Катализатор Ru-Bi, используемый для гидрохлорирования ацетилена, а также способ получения и применения катализатора Ru-Bi / заявитель и патентообладатель: Guohua Luo, Kai Zhou, Wei Wang, Fei We. - №201410142951A ; заявл. 04.04.2014 ; опубл. 02.07.2014.
  6. Пат. CN201810775463 МПК МПК B01J31 / 22; C07C17 / 08; C07C21 / 06. Катализатор и способ получения комплекса меди для реакции гидроксихлорирования ацетилена / заявитель и патентообладатель: Университет Шихэцзи;. - №201810775463A ; заявл. 16.07.2018 ; опубл. 14.12.2018.
  7. A ligand coordination approach for high reaction stability of an Au–Cu bimetallic carbon-based catalyst in the acetylene hydrochlorination process // H. Xu, J. Si, K. Zhou, G. Luo / Catalytic Science and Technology. – 2016. - № 6. – C. 13571366.
  8. Hydrochlorination of acetylene using supported bimetallic Au-based catalysts / M. Conte, A.F. Carley, G. Attard, A.A. Herzing, C.J. Kiely, G.J. Hutchings // Journal of Catalysis. - 2008. - №257. – C. 190-198.
  9. A novel high-stability Au(III)/Schiff-based catalyst for acetylene hydrochlorination reaction // C. Huang, M. Zhu, L. Kang, B. Dai / Catalysis Communications. - 2014. - №54. - C. 61-65.
  10. A ligand coordination approach for high reaction stability of an Au–Cu bimetallic carbon-based catalyst in the acetylene hydrochlorination process // H. Xu, J. Si, K. Zhou, G. Luo / Catalytic Science and Technology. – 2016. - № 6. – C. 1357-1366.
  11. Отабек Абдукаримович Мирзаев, Шавкат Серабович Турсунов // Теоретическая обоснования деформированного состояния оболочки питающего цилиндра прядильных машин // Oriental renaissance: Innovative, educational, natural and social sciences // 2021. 1092-1103 https://cyberleninka.ru/article/n/teoreticheskaya-obosnovaniya-deformirovannogo-sostoyaniya-obolochki-pitayuschego-tsilindra-pryadilnyh-mashin
  12. T Khankelov, S Tursunov, Z Maksudov // Domestic Solid Waste Crusher // International Journal of Psychological Rehabilitation 24 (issue 07), 8090-8096 psychosocial.com/article-category/issue https://www.psychosocial.com/article/PR270784/18957/
  13. Tavbay Khankelov1, Zokir Maksudov1*, Nafisa Mukhamedova1 and Shavkat Tursunov2 // Crushing and screening complex for the production of compost from organic components of municipal solid waste // Interaction of Materials Resistance Science With Other General-Military Disciplines In Engineering Specialties // 2021. https://www.e3s-conferences.org/articles/e3sconf/abs/2021/40/e3sconf_conmechydro2021_01026/e3sconf_conmechydro2021_01026.html
  14. Oliya Nurova Salomovna1, Asror Nazarov Allanazarovich2, Tursunov Shavkat Serabovich // Interaction of Materials Resistance Science With Other General-Military Disciplines In Engineering Specialties // https://www.annalsofrscb.ro/index.php/journal/article/view/5911
  15. Tursunov Shavkat Serabovich // Analysis of existing desings of crushers for crushing municipal solid waste// International Journal for Innovative Engineering and Management Research(IJIEMR) // https://scopedatabase.com/documents/00000181/00000-84600.pdf // 2021

Most read articles by the same author(s)