@article{N.I.Fayzullaev., D.R.Hamidov., Z.T. Ruziyevna., Yu.Kh. Khidirova., T.B.Shoymardanov., B.Sh. Omanov_2020, title={Kinetic Laws of Catalytic Pyrolyze of Methylchloride}, volume={13}, url={http://sersc.org/journals/index.php/IJCA/article/view/16068}, abstractNote={<p>For the purpose of catalytic pyrolysis of methyl chloride, modified catalysts with the following composition were synthesized:&nbsp;YuKTs;&nbsp;1% Na<sub>2&nbsp;</sub>B<sub>4&nbsp;</sub>O<sub>7&nbsp;</sub>/YuKTs;&nbsp;1% Na<sub>4&nbsp;</sub>P<sub>2&nbsp;</sub>O<sub>7&nbsp;</sub>+ 1.0% B<sub>2&nbsp;</sub>O<sub>3&nbsp;</sub>/ YuKTs;&nbsp;1.0% Na<sub>4&nbsp;</sub>P<sub>2&nbsp;</sub>O<sub>7&nbsp;</sub>+ 1.0% B<sub>2&nbsp;</sub>O<sub>3&nbsp;</sub>+ 1.0% MgO / YuKTs.&nbsp;The influence of various factors on the catalytic conversion of methyl chloride in the presence of the selected catalyst was studied.&nbsp;Studies have shown that the most active catalyst for this process is 1.0% Na&nbsp;<sub>4&nbsp;</sub>P<sub>2&nbsp;</sub>O<sub>7&nbsp;</sub>+ 1.0% B<sub>2&nbsp;</sub>O<sub>3&nbsp;</sub>+ 1.0% MgO / YuKTs were found.&nbsp;Based on the results obtained, the following optimal conditions for the catalytic pyrolysis reaction of methyl chloride were selected:&nbsp;&nbsp;Catalyst:&nbsp;1.0% Na<sub>4&nbsp;</sub>P<sub>2&nbsp;</sub>O<sub>7&nbsp;</sub>+ 1.0% B<sub>2&nbsp;</sub>O<sub>3&nbsp;</sub>+ 1.0% MgO / YuKTs,&nbsp;V = 1&nbsp;000 hours&nbsp;<sup>-1&nbsp;</sup>T&nbsp;= 420&nbsp;°&nbsp;C<sup>&nbsp;</sup>.</p&gt;}, number={4}, journal={International Journal of Control and Automation}, author={N.I.Fayzullaev., D.R.Hamidov., Z.T. Ruziyevna., Yu.Kh. Khidirova., T.B.Shoymardanov., B.Sh. Omanov}, year={2020}, month={May}, pages={211 - 219} }