The photocatalytic degradation of waste water will be investigated at room temperature in a dynam... more The photocatalytic degradation of waste water will be investigated at room temperature in a dynamic photoreactor with system UV/O2 (air) and aqueous suspension of Fe-doped ZrO2 irradiated under a variety of conditions. Fe doped Zirconia is prepared by the combustion synthesis process and characterized by XRD, BET and TGA. Phenol is degraded by the catalyst prepared. The Photocatalytic Degradation of Phenol by Fe doped ZrO2 are measured by HPLC. Phenol is degraded very well by Fe doped Zirconia when compared to H2O2. Fe doped ZrO2 degraded almost 50% of the Phenol within 6 hrs of time.
The photocatalytic degradation of waste water will be investigated at room temperature in a dynam... more The photocatalytic degradation of waste water will be investigated at room temperature in a dynamic photoreactor with system UV/O2 (air) and aqueous suspension of Fe-doped ZrO2 irradiated under a variety of conditions. Fe doped Zirconia is prepared by the combustion synthesis process and characterized by XRD, BET and TGA. Phenol is degraded by the catalyst prepared. The Photocatalytic Degradation of Phenol by Fe doped ZrO2 are measured by HPLC. Phenol is degraded very well by Fe doped Zirconia when compared to H2O2. Fe doped ZrO2 degraded almost 50% of the Phenol within 6 hrs of time.
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measured by HPLC. Phenol is degraded very well by Fe doped Zirconia when compared to H2O2. Fe doped ZrO2 degraded almost 50% of the Phenol within 6 hrs of time.
measured by HPLC. Phenol is degraded very well by Fe doped Zirconia when compared to H2O2. Fe doped ZrO2 degraded almost 50% of the Phenol within 6 hrs of time.