Оксидные катализаторы окисления ксилола

1. Fairґen-Jimґenez D.; Carrasco-Marґın F.; and Moreno-Castilla C. Adsorption of Benzene; Toluene; and Xylenes on Monolithic Carbon Aerogels from Dry Air Flows. [Adsorbsiya benzola; toluola i ksilolov na monolitnih ugolnih aerogelyah iz suhih vozdushnih potokov]. American Chemical Society; Langmuir; 2007; 23. Р. 10095-10101.

2. Lorimier C.; Subrenat A.; Le Coq L. and Le Cloirec P. Adsorption of toluene onto activated carbonfibre cloths and felts: application to indoorair treatment. [Adsorbsiya toluola na aktivirovannoi uglevolokonnoi tkani i voiloke: primenenie dlya obrabotki vnutri doma]. Environmental Technology; 2005; 26. P. 1217-1230.

3. Lebiguea C.J.; Andriantsiferana C.; Krou N’G.; Ayral C.; Mohamed E.; Wilhelmay A-M; Delmas H.i; Le Coq L.; Gerente C.; Smith K. M.; Pullket S.; Fowler G.D.; Graham N.J.D. Application of sludge-based carbonaceous materials in a hybrid water treatment process based on adsorption and catalytic wet air oxidation. [Primenenie osadka na osnove uglerodsoderzhashih materialov v gibrinom processe ochistki vodi na osnove adsorbsii i kataliticheskogo okisleniya vlazhnim vozduhom]. Journal of Environmental Management; 2010; 9. P. 2432-2439.

4. Chianga H.L.; Huangb C.P.; Chiangc P.C.; Youd J.H. Effect of metal additives on the physico-chemical characteristics of activated carbon exemplified by benzene and acetic acid Adsorption [Vliyanie metallicheskih dobavok na fiziko-himicheskie harakteristiki aktivirovannogo ugleroda obrabotannogo adsorbciei benzola I uksusnoi kisloti]. Carbon; 1999; 37. P. 1919–1928.

5. Lillo-Roґdenas M.A.; Cazorla-Amoroґ D.; Linares-Solano A. Behaviour of activated carbons with different pore size distributions and surface oxygen groups for benzene and toluene adsorption at low concentrations. [Povedenie aktivirovannogo ugleroda s razlichnim raspredeleniem razmera por i poverhnostnimi kislorodnimi gruppami pri adsorbcii benzola i toluola pri nizkih konsentraciyah]. Carbon; 2005; 43. P.1758–1767.

6. Ming-Yen Wey; Wen-Yi Yang; and Hsing-Chung Huang; Jyh-Cherng Chen. Catalytic Oxidation of Organic Compounds in Incineration Flue Gas by a Commercial Palladium Catalyst [Kataliticheskoe okislenie organicheskih soedinenii pri szhiganii dimovih gazov na kommercheskom palladievom katalizatore]. Journal of the Air & Waste Management Association; 2002; 52. Р. 198-207.

7. Kerzhensev М.А.; Rogov V.А.; Kirichenko О.А. Study of adsorption characteristics of supported oxide catalyst for organic compounds existing in exhaust gases. [Issledovanie adsorbcionnih harakteristik nanesennih oksidnih katalizatorov po otnosheniyu k organicheskim soedineniyam prisutstvuyushim v gazovih vibrosah]. In digest: Disperse systems in environment protection technologyes. Мinsk; 1991. P. 48-59.

8. Vlasenko V.M.; Chernobrivets V.L.; Kurilets Ya.P. Study of sorption-catalytic purification of gases from epychlorhydrine over Cr oxide and Co-Cr catalysts. [Izuchenie sorbtsionno-katalyticheskoi ochistki gazov ot epihlorgidrina na oksidnohromovom i kobalthromovom katalizatorah]. Jurn. Prikl. Khimii – Journal of Applied Chemistry; 1999; 7. P.1142-1147.

9. Troshina V.A. Design and study of Mn-Al-Ca catalysts for the process of burning of organic impurities in exhaust gases: author's Ph.D. thesis. [Razrabotka i issledovanie marganetsalumokaltsievih katalizatorov dlya dozhiganiya organicheskih primesei v vibrosnih gazah: avtoreferat kand. disser]. 05.17.01. Моscow; 2003. 23 p.

10. Pat. USA 4234549; МПК В 01 D 53/42. [Pat. SShA 4234549; MPK В 01 D 53/42]. Pat. - 97108848/12; declared: 1997.05.21; published: 2000.04.20.

11. Patent of Russian Federation. The method of gases cleaning from toxic impurities. [Sposob ochistki gazov ot toksichnih primesei]. Zagoruiko A.N.; Noskov A.S.; the applicant and the patentee G.K.Boreskov Institute of Catalysis RAS.