Preparation and application of magnetic microbial carbon-loaded cerium and cobalt composite nano ozone catalyst
A technology of magnetic microorganisms and catalysts, which is applied in the field of preparation of new magnetic catalysts, can solve the problems of suspended catalyst recovery, difficult recovery, loss, etc., and achieve the effect of solving difficult recovery, broad application prospects, and strong catalytic effect
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Embodiment 1
[0032] A magnetic microbial carbon-supported cerium and cobalt composite nano-ozone catalyst, which uses microbial Escherichia coli (Escherichia coli BL21) slag to produce adsorption and freeze-drying of cerium chloride ions and cobalt chloride, then adds potassium hydroxide and mixes evenly, and then thermochemically The magnetic microbial carbon-supported cerium and cobalt composite nano-ozone catalyst is obtained by processing. The surface of the carbon material is distributed with uniform metal nanoparticles. The carbon material carrier of the metal nano-ozone catalyst is prepared by thermochemically treating the slag of Escherichia coli (Escherichiacoli BL21) get. The microbial carbon carrier is carbon spheres and / or carbon nanotubes or irregular flaky nanocarbons, and the length of the carbon nanotubes is 200nm-1um; the particle diameter of the nanoparticles of the metal nano-ozone catalyst is 3-40nm.
[0033] In the present embodiment, the preparation method of magnetic...
Embodiment 2
[0040]A magnetic microbial carbon-supported cerium and cobalt composite nano-ozone catalyst. The microbial Pichia slag is used to adsorb and freeze-dry cerium chloride ions and cobalt chloride. After adding sodium hydroxide and mixing evenly, the magnetic microorganism is obtained by high-temperature carbonization. The carbon-supported cerium and cobalt composite nano-ozone catalyst has uniform metal nanoparticles distributed on the surface of the carbon material, and the carbon material carrier of the metal nano-ozone catalyst is prepared by carbonizing Pichia pastoris slag. The microbial carbon carrier is carbon spheres and / or carbon nanotubes or irregular flaky nanocarbons, and the length of the carbon nanotubes is 200nm-1um; the particle diameter of the nanoparticles of the metal nano-ozone catalyst is 3-40nm.
[0041] In the present embodiment, the preparation method of magnetic microbial carbon-supported cerium and cobalt composite nano-ozone catalyst comprises the steps:...
Embodiment 3
[0047] The magnetic microbial charcoal-loaded cerium prepared in Example 1, cobalt composite nano-ozone catalyst is placed in 100mg / L oxalic acid solution to catalyze ozone oxidation, specifically comprising the following steps:
[0048] Disperse the prepared 0.1g magnetic microbial carbon-loaded cerium and cobalt composite nano-ozone catalyst in the oxalic acid solution with a concentration of 100mg / L, pass through the ozone and use the aeration disc to aerate the oxalic acid with ozone, and after catalytic oxidation of ozone for 60min, the COD The removal rate increased by 49.54% (the removal rate reached 92%). This shows that micro-magnetic microbial carbon-supported cerium, cobalt composite nano-ozone catalyst has excellent performance. That is, the magnetic microbial carbon-supported cerium and cobalt composite nano-ozone catalyst prepared by the present invention can effectively promote the degradation of oxalic acid catalyzed by ozone, and has a good removal effect on o...
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