Identyfikatory
Warianty tytułu
Mechanisms and efficiency of catalytic ozonation in water treatment
Języki publikacji
Abstrakty
W pracy omówiono stan współczesnej wiedzy w dziedzinie ozonowania katalitycznego i jego wykorzystania w procesach oczyszczania wody. Ozonowanie katalityczne zalicza się do procesów tzw. zaawansowanego (pogłębionego) utleniania, a jego skuteczność wiąże się zwykle z tworzeniem rodników hydroksylowych. Podkreślono główne zalety ozonowania katalitycznego, takie jak szybkość procesu, znacznie silniejsza mineralizacja substancji organicznych oraz znacznie większa skuteczność wykorzystania ozonu niż w procesach samego ozonowania. Przedyskutowano zarówno zjawiska katalizy homogenicznej, jak i heterogenicznej. Wykazano, że w homogenicznym ozonowaniu katalitycznym dochodzi do tworzenia rodników hydroksylowych głównie w wyniku następczych reakcji ozonu z kompleksami organicznymi jonów metali. Heterogeniczne ozonowanie katalityczne omówiono według grup katalizatorów, jak tlenki metali, materiały ceramiczne, metale na nośnikach oraz węgiel aktywny. Omówiono systemy niepolarne stabilizujące ozon cząsteczkowy, jak również możliwość wykorzystania tych systemów jako czynników wspomagających proces ozonowania. Wykazano, że w literaturze spotyka się wiele sprzecznych lub kontrowersyjnych doniesień, szczególnie na temat mechanizmów tworzenia rodników hydroksylowych.
The paper gives a critical account of state-of-the-art methods and mechanisms dealt with in catalytic ozonation and analyzes their applicability to water treatment. Catalytic ozonation is classified as an advanced oxidation process and its efficiency generally depends on the generation of hydroxyl radicals. The main advantages of catalytic ozonation over processes involving ozonation alone are emphasized (the high rate of the process, the substantially higher efficiency of organic matter mineralization, and the notably higher extent of ozone utilization). An analysis is performed of the phenomena occurring both in homogeneous and heterogeneous catalysis. It has been demonstrated that during homogeneous catalytic ozonation hydroxyl radicals are formed predominantly in the consecutive reactions of ozone with organic-metal ion complexes. Heterogeneous catalytic ozonation is analyzed according to the types of the catalysts being used (metal oxides, ceramic materials, supported metals, and active carbon). Consideration is also given to some nonpolar systems stabilizing molecular ozone, as well as to their potential use in support of the ozonation process. A review of publications dealing with the catalytic ozonation issue makes it clear that many of the results and conclusions reported in the literature are inconsistent, contradictory and controversial, specifically those relating to the mechanisms governing the formation of hydroxyl radicals.
Czasopismo
Rocznik
Tom
Strony
3--16
Opis fizyczny
Bibliogr. 161 poz.
Twórcy
autor
autor
- Uniwersytet im. A. Mickiewicza, Wydział Chemii, Zakład Technologii Uzdatniania Wody, ul. M. Drzymały 24, 60-613 Poznań, jaceknaw@amu.edu.pl
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