Neutralization of solvent vapors of brand 650 by the adsorption‑catalytic method

The purpose of this work is to study the process of neutralization of vapors of a mixed solvent of the brand 650 by the adsorption‑catalytic method. The essence of the method consists in the concentration of solvent components on the sorbent, thermal desorption followed by periodic flameless catalytic oxidation of accumulated organic substances to carbon dioxide and water. Synthetic zeolite of the NaX brand was used as a sorbent, and a porous material based on foam ceramics of the Al₂O₃/SiO₂ composition with a highly developed modified surface with an active catalytic phase was used as a catalyst. The mixed solvent contains, xylenes, ethylcellosol, n‑butanol. It is shown that the value of the sorption volume of zeolite for each class of the considered compounds is influenced by certain factors: the length and structure of the carbon skeleton, the position of the hydroxyl group (for alcohols and esters), the number of methyl groups in the composition of molecules (for the production of benzene). The conversion rate of the mixed solvent components was 65.4–90.1 %.

1. Panasyugin A. S., Lomonosov V.A., Smorygo O. L. Ispolzovanie adsorbtsionno‑kataliticheskogo metoda dlya ochistki ventilyatsionnykh vybrosov formovochnykh uchastkov liteynykh uchastkov ot parov fenola i formaldegida [The use of the adsorptioncatalytic method for purification of ventilation emissions of moulding sections of foundries from phenol and formaldehyde vapors]. Lit’e i metallurgiya = Foundry production and metallurgy, 2014, no. 2, pp.19–25.

2. Panasyugin A. S., Lomonosov V.A., Smorygo O. L. Ispolzovanie adsorbtsionno‑kataliticheskogo metoda dlya ochistki ventilyatsionnykh vybrosov, obrazuyuschikhsya pri ispolzovanii azotsoderzhaschikh formovochnykh smesey [The use of the adsorptioncatalytic method for purification of ventilation emissions forming under use of nitrogen containing molding mixtures]. Lit’e i metallurgiya = Foundry production and metallurgy, 2014, no. 2, pp. 26–29.

3. Panasyugin A. S., Lomonosov V.A., Smorygo O. L. Ispolzovanie adsorbtsionno‑kataliticheskogo metoda dlya ochistki vybrosov v atmosferu, obrazuyuschikhsya pri ispolzovanii antiprigarnykh pokrytiy, soderzhaschikh etilovyy spirt [The use of the adsorption‑catalytic method for purification of air emissions generated under use of non‑stick coatings containing ethyl alcohol]. Lit’e i metallurgiya = Foundry production and metallurgy, 2014, no. 4, pp. 44–46.

4. Panasyugin A. S., Tsyganov A. R., Grigoriev S. V. et. al. Obezvrezhivanie parov propanola i izopropanola adsorbtsionnokataliticheskim metodom [Neutralization of propanol and isopropanol vapors by the adsorption‑catalytic method]. Lit’e Ukrainy = Ukraine Foundry Production, 2017, no. 3, pp. 2–5.

5. Panasyugin A. S., Tsyganov A. R., Grigoriev S. V. et. al. Obezvrezhivanie parov odnoatomnykh spirtov С1‑С5 adsorbtsionnokataliticheskim metodom [Neutralization of vapors of monohydric alcohols С1‑С5 by the adsorption‑catalytic method]. Lit’e Ukrainy = Ukraine Foudry Production, 2017, no. 7, pp. 2–8.

6. Lomonosov V.A., Panasyugin A. S., Smorygo O. L., Mikutskii V.A. et al. Pd/g‑Al2O3 catalysts on cellular supports for VOC vapor neutralization. Catalysis in Industry, 2010, vol. 2, no. 4, pp. 387–392.