CN107051475A - The preparation method of ozone Heterogeneous oxidation solid catalyst - Google Patents

Abstract

The present invention relates to a kind of preparation method of ozone Heterogeneous oxidation solid catalyst, category environmental protection and technical field of chemical engineering catalysts.It is pure with diatom, kyanite, fluorite, glauberite, amazonite and the grey masonry carrier of lithium are after lithium hypochlorite and double (acetylacetone,2,4-pentanedione) beryllium reamings, add surfactant monoalky lether trimethyl ammonium chloride and activation process is carried out under ul-trasonic irradiation, then carrier in hydrothermal reaction kettle with composite mineralizer borax and potassium sulfate, catalytic activity auxiliary agent predecessor three (hexafluoroacetylacetone) yttrium (III) dihydrate, three cyclopentadiene promethiums, three (2, 2, 6, 6 tetramethyls 3, 5 heptadione acid) gadolinium, trifluoromethayl sulfonic acid thulium (III), catalytic active center predecessor pyruvic acid isonicotinoyl hydrazone vanadium, cobalt edetate and the golden potassium of tetrachloro, Tris(2,2'- bipyridyl) ruthenium (II) chloride hexahydrate, hydro-thermal reaction is carried out under the effect of emulsifying agent stearic acid trimethylamine groups ethanol ester ammonium iodide, drying is removed after moisture, calcination obtains ozone Heterogeneous oxidation solid catalyst in Muffle furnace.

Description

The preparation method of ozone Heterogeneous oxidation solid catalyst

Technical field

The present invention relates to a kind of preparation method of ozone Heterogeneous oxidation solid catalyst, category environmental protection and chemical catalyst skill Art field.

Background technology

Ozonation technology using ozone oxidation ability it is strong the characteristics of, can be by many organic pollution oxidation Decompositions, extensively For wastewater treatment.Catalytic ozonation technology is divided into ozone homogeneous catalytic oxidation and ozone heterogeneous catalytic oxidation, and ozone is equal Phase catalysis oxidation has that the more difficult separation and recovery of catalyst is reused, ozone utilization rate is low causes water process operating cost higher, Organic pollutant removal rate is relatively low simultaneously and easily causing secondary pollution of water is limited to its application；Ozone heterogeneous catalysis oxygen There is change technology catalyst to be easily isolated and recycled and reusable, ozone utilization rate is high, organic pollutant removal rate is higher, drop Low water process operating cost and receive significant attention its application the advantages of do not result in secondary pollution.Ozone heterogeneous catalysis It is to reach local organic matter enrichment by catalyst surface absorption organic matter that oxidation of organic compounds, which is decomposed, while ozone molecule absorption exists The hydroxyl radical free radical that catalyst surface produces high activity under catalyst action decomposes organic matter.Ozone heterogeneous catalytic oxidation Handle in waste water technology, core technology is the preparation of ozone Heterogeneous oxidation solid catalyst.

Ozone Heterogeneous oxidation solid catalyst is generally made up of carrier, activated centre and auxiliary agent.Due to being polluted in waste water Species are various, complex chemical composition feature, can produce harmful effect to performance such as absorption, the mithridatism of catalyst. Prepare that the carrier structure that ozone Heterogeneous oxidation solid catalyst uses is more single at present, adsorptivity is relatively low；Activated centre is universal Using normal transition metal salt, mithridatism is poor；Preparation method mainly has infusion process, the precipitation method, mixing method and collosol and gel etc. Method attachment activity center and adjuvant component are easily liquated out in carrier surface, activated centre and adjuvant component, cause catalyst Easily lose catalytic activity.For exist in current ozone Heterogeneous oxidation solid catalyst preparation method Catalyst Adsorption compared with Low, mithridatism is poor and easily loses catalytic activity problem, and exploitation is strengthened using multicomponent porous carrier through reaming, surface active Catalyst Adsorption, makees catalytic activity auxiliary agent predecessor, normal transition Organometallic using Rare-earth chemicals and closes Thing and precious metal chemical complex are made catalytic active center predecessor and contained with multicomponent porous carrier through hydro-thermal reaction, high temperature sintering preparation The ozone Heterogeneous oxidation solid catalyst of multi-element metal has to improve the preparation method of catalyst mithridatism and catalytic activity Larger environmental benefit and higher practical value.

The content of the invention

For existing in current ozone Heterogeneous oxidation solid catalyst preparation method, Catalyst Adsorption is relatively low, mithridatism Poor to lose catalytic activity problem with easy, exploitation strengthens catalyst using multicomponent porous carrier through reaming, surface active Adsorptivity, catalytic activity auxiliary agent predecessor, normal transition metallo-organic compound and expensive are made using Rare-earth chemicals Metallic compound is made catalytic active center predecessor and prepared with multicomponent porous carrier through hydro-thermal reaction, high temperature sintering containing polynary gold The ozone Heterogeneous oxidation solid catalyst of category to improve the preparation method of catalyst mithridatism and catalytic activity, it is characterized in that Component A can be added in closed reactor and deionized water stirring prepares the aqueous solution, the weight concentration for control component A is 2%~6%, After the completion of prepared by solution, B component is added under agitation, 35 DEG C~50 DEG C are warming up to, continues stirring reaction 3h~6h, is filtered, instead Product is answered to obtain reaming modified support after 102 DEG C~106 DEG C dry constant weights；Reaming modified support puts into ultrasound reactor, The aqueous solution prepared by component C and deionized water is added, the weight concentration of component C is 3%~8%, is uniformly mixed, and control is super Sound power density is 0.3~0.8W/m³, frequency 20kHz~30kHz, 40 DEG C~55 DEG C, sonic oscillation 2h~5h obtains ultrasound Surface active carrier mixed liquor；Ultrasonic surface activated carrier mixed liquor is transferred in hydrothermal reaction kettle, add D components and go from The aqueous solution that sub- water is prepared, the weight concentration of D components is 40%~55%, by weight, D component deionized water solutions:Ultrasonic table Weight ratio=1 of face activated carrier mixed liquor:（1.5~2）, control 120 DEG C~180 DEG C of temperature, the hydro-thermal reaction time be 8h~ 16h, then dries to obtain fine particle；Fine particle is in Muffle furnace, 600 DEG C~950 DEG C, and calcination 3h~8h obtains ozone non- Homogeneous oxidizing solid catalyst.The component A is made up of lithium hypochlorite, double (acetylacetone,2,4-pentanedione) berylliums, by weight, lithium hypochlorite: Weight ratio=1 of double (acetylacetone,2,4-pentanedione) berylliums:（1~1.6）, B component is by diatom is pure, kyanite, fluorite, glauberite, amazonite, Lithium lime stone is constituted, and by weight, diatom is pure:Kyanite:Fluorite:Glauberite:Amazonite:The weight ratio of lithium lime stone=（5~ 15）:（7~17）:（9~19）:（11~21）:（13~23）:（15~25）, by weight, component A:The weight ratio of B component =1:（10~20）, component C is monoalky lether trimethyl ammonium chloride, by weight, component C:The weight ratio of reaming modified support =1:（5~10）, D components are by composite mineralizer borax, potassium sulfate, catalytic activity auxiliary agent predecessor three (hexafluoroacetylacetone) yttrium (III) dihydrate, three cyclopentadiene promethiums, three (DPM dpm,dipivalomethane acid) gadoliniums, trifluoromethayl sulfonic acid thulium (III) Rare-earth chemicals, the different nicotinoyl of catalytic active center predecessor normal transition metallo-organic compound pyruvic acid The golden potassium of hydrazone vanadium, cobalt edetate and precious metal chemical complex tetrachloro, Tris(2,2'- bipyridyl) ruthenium (II) chloride hexahydrate, emulsifying agent stearic acid front three Aminoethanol ester ammonium iodide is constituted, by weight, borax:Potassium sulfate:Three (hexafluoroacetylacetone) yttrium (III) dihydrates:Three Cyclopentadiene promethium:Three (DPM dpm,dipivalomethane acid) gadoliniums:Trifluoromethayl sulfonic acid thulium (III):The different nicotinoyl of pyruvic acid Hydrazone vanadium:Cobalt edetate:Tetrachloro gold potassium:Tris(2,2'- bipyridyl) ruthenium (II) chloride hexahydrate:Stearic acid trimethylamine groups ethanol ester ammonium iodide Weight ratio=（4~8）:（6~10）:（3~6）:（4~7）:（5~8）:（6~9）:（10~15）:（12~18）:（4~7）: （6~9）:（6~20）.The diatom of the B component is pure, kyanite, fluorite, glauberite, amazonite, lithium lime stone carry out powder respectively Broken, deionized water washing, which is dried, to be removed after moisture, and -200 mesh ,+400 mesh sieves point are carried out through standard screen, controls the particle diameter to be The mm of 0.0370mm~0.0750.

What the technical method of the present invention was realized in：Lithium hypochlorite LiClO, double (second can be being added in closed reactor Acyl acetone) beryllium C₁₀H₁₄BeO₄The aqueous solution is prepared with deionized water stirring, it is 0.0370mm~0.0750mm to add particle diameter after screening Diatom is pure, kyanite, fluorite, glauberite, amazonite and lithium lime stone porous material carrier, in certain temperature and stirring condition Under, the small Be of aqueous solution Ionic Radius²⁺（0.31Å）、Li⁺（0.60Å）Displace part ion radius in porous material big Ca²⁺（0.99Å）、K⁺（1.33Å）、Ba²⁺（1.35Å）Plasma, the aperture of porous material carrier becomes big, surface roughness increase, Filtering, dries the reaming modified support input ultrasound reactor after constant weight, adds monoalky lether trimethyl ammonium chloride C₁₂H₂₅O(CH₂CH₂O)₃N⁺(CH₃)₃Cl^-The aqueous solution, when control ultrasonic power density, ultrasonic frequency, temperature and sonic oscillation Between, under ultrasonic cavitation effect, monoalky lether trimethyl ammonium chloride C₁₂H₂₅O(CH₂CH₂O)₃N⁺(CH₃)₃Cl^-It is easy to from water-soluble Liquid escapes into reaming modified support duct or is attached to reaming modified support surface, be beneficial to carrier duct be interconnected and Carrier surface is activated, and enhances adsorptivity；After the completion of ultrasonic activation, ultrasonic surface activated carrier mixed liquor is transferred to hydro-thermal reaction In kettle, with borax Na₂B₄O₇·10H₂O, potassium sulfate K₂SO₄The composite mineralizer, (hexafluoroacetylacetonate of catalytic activity auxiliary agent predecessor three Ketone) yttrium (III) dihydrate C₁₅H₃F₁₈O₆Y·2H₂O, three cyclopentadiene promethium Pm (C₅H₅)₃, three (2,2,6,6- tetramethyl -3, 5- heptadione acid) gadolinium C₃₃H₅₇GdO₆, trifluoromethayl sulfonic acid thulium (III) C₃F₉O₉S₃Tm Rare-earth chemicals, catalysis is lived Property center component predecessor normal transition metallo-organic compound pyruvic acid isonicotinoyl hydrazone vanadium [VO₂(C₉H₈N₃O₅)] (C₅H₅N)、 Cobalt edetate C₁₂H₂₂ O₁₄The Co and golden potassium KAuCl of precious metal chemical complex tetrachloro₄, Tris(2,2'- bipyridyl) ruthenium (II) chloride hexahydrate (C₁₀H₈N₂)₃Cl₂Ru·(H₂O)₆, in emulsifying agent stearic acid trimethylamine groups ethanol ester ammonium iodide [C₁₇H₃₅COOCH₂CH₂N(CH₃) CH₂]⁺I ^-Effect is lower to carry out hydro-thermal reaction, and mineralizer accelerates diffusion, activates reactant lattice, promotes solid phase reaction Progress, ultrasonic surface activated carrier and Rare-earth chemicals, normal transition metallo-organic compound, noble metal chemical combination Thing Uniform Doped, emulsifying agent stearic acid trimethylamine groups ethanol ester ammonium iodide makes reaction solution form quasi-stationary emulsion to prevent solid-liquid Separation, sedimentation, while to the further surface active of porous carrier, by the way that in certain temperature, the hydro-thermal reaction of time, drying is obtained The fine silt thing of Uniform Doped；The fine silt thing of Uniform Doped is in Muffle furnace, through high temperature sintering, the complete carbon of organic matter therein Change the microcellular structure for further enhancing porous carrier, obtain porous carrier supported rare earth metal oxide, transiting metal oxidation Thing and noble metal formation catalytic active center ozone Heterogeneous oxidation solid catalyst, improve catalyst mithridatism and Catalytic activity.

Relative to art methods, outstanding feature of the present invention be in technology of preparing using diatom is pure, kyanite, fluorite, Glauberite, amazonite, lithium lime stone porous material make carrier, due to lithium hypochlorite LiClO and double (acetylacetone,2,4-pentanedione) beryllium C₁₀H₁₄BeO₄ Reaming effect, monoalky lether trimethyl ammonium chloride C₁₂H₂₅O(CH₂CH₂O)₃N⁺(CH₃)₃Cl^-, stearic acid trimethylamine groups ethanol ester Ammonium iodide [C₁₇H₃₅COOCH₂CH₂N(CH₃)CH₂]⁺I ^-To being interconnected and surface activation for duct；Pass through hydro-thermal reaction Rare-earth chemicals, normal transition metallo-organic compound and precious metal chemical complex is set to reach Uniform Doped and be attached to In carrier surface and duct, high temperature sintering makes organic matter carbonization strengthen and form multi-level microcellular structure, porous load The multi-element metal catalytic active center of body supported rare earth metal oxide, transition metal oxide and noble metal formation is carried with porous Body combination is more firm, and the ozone Heterogeneous oxidation solid catalyst of preparation has stronger adsorptivity, the collaboration of multi-element metal Effect, stability and high activity that particularly doped precious metal has, can suppress liquating out for metal catalytic activity component, carry The mithridatism and catalytic activity of high catalyst, with good environmental benefit and economic benefit.

Embodiment

Embodiment 1:1.35g lithium hypochlorites, double (acetylacetone,2,4-pentanedione) berylliums of 1.65g, 140ml deionized waters, being added to volume is 500ml's can be uniformly mixed in closed reactor, and the weight concentration of the aqueous solution is 2.1%, lithium hypochlorite:Double (levulinics Ketone) beryllium weight ratio=1:1.2；Add deionized water wash to it is neutral, 103 DEG C dry remove -200 mesh of sieving after moisture~+ The 2.75g diatoms of 400 mesh standard sieves are pure, 3.75g kyanites, 4.75g fluorites, 5.75g glauberite, 6.75g amazonites, 7.75g The weight of lithium lime stone, lithium hypochlorite and double (acetylacetone,2,4-pentanedione) berylliums（3g）:The weight of porous material（31.5g）=1:10.5, it is warming up to 36 DEG C, reaming modified support 31g is obtained after continuing stirring reaction 3.2h, filtering, 103 DEG C of dry constant weights；It is anti-in 500ml ultrasonic waves Answer in device, put into reaming modified support 31g, add 3.25g monoalky lether trimethyl ammonium chlorides and be dissolved in 100ml deionized waters The aqueous solution, the weight concentration of the aqueous solution is 3.1%, is uniformly mixed, monoalky lether trimethyl ammonium chloride（3.25g）:Reaming Modified support（31g ）=1:9.5；It is 0.4W/m to control ultrasonic power density³, ultrasonic frequency 21kHz, 41 DEG C of temperature, ultrasound Vibrate 2.2h；After the completion of ultrasonic activation, the ultrasonic surface activated carrier mixed liquor in ultrasound reactor is transferred to 500ml water In thermal response kettle, add by 2.1g boraxs, 3.05g potassium sulfates, 1.6g tri- (hexafluoroacetylacetone) yttrium (III) dihydrate, The cyclopentadiene promethiums of 2.05g tri-, 2.6g tri- (DPM dpm,dipivalomethane acid) gadolinium, 3.05g trifluoromethayl sulfonic acid thuliums (III), the golden potassium of 5.05g pyruvic acid isonicotinoyl hydrazone vanadium, 6.1g cobalt edetates, 2.05g tetrachloros, 3.1g Tris(2,2'- bipyridyl) ruthenium (II) chlorides six The aqueous solution that hydrate, 3.05g stearic acid trimethylamine groups ethanol ester ammonium iodides and 50ml deionized waters are prepared, the weight of the aqueous solution It is 40.3%, the weight of the aqueous solution to measure concentration:Weight=83.8g of ultrasonic surface activated carrier mixed liquor:134.25g=1: 1.6,125 DEG C of temperature is controlled, the hydro-thermal reaction time is 8.3h, then dries to obtain fine silt thing for 105 DEG C；Fine silt thing is in Muffle furnace Interior, 620 DEG C, calcination 3.2h after cooling down, can obtain the ozone Heterogeneous oxidation solid catalyst of fine particle shape.

Embodiment 2:0.24g lithium hypochlorites, double (acetylacetone,2,4-pentanedione) berylliums of 0.36g, 10ml deionized waters, being added to volume is 100ml's can be uniformly mixed in closed reactor, and the weight concentration of the aqueous solution is 5.7%, lithium hypochlorite:Double (levulinics Ketone) beryllium weight ratio=1:1.5；Add deionized water wash to it is neutral, 103 DEG C dry remove -200 mesh of sieving after moisture~+ The 1.45g diatoms of 400 mesh standard sieves are pure, 1.65g kyanites, 1.85g fluorites, 2.05g glauberite, 2.25g amazonites, 2.45g The weight of lithium lime stone, lithium hypochlorite and double (acetylacetone,2,4-pentanedione) berylliums（0.6g）:The weight of porous material（11.7g）=1:19.5, heating To 48 DEG C, reaming modified support 11.5g is obtained after continuing stirring reaction 5.8h, filtering, 105 DEG C of dry constant weights；In 100ml ultrasounds In ripple reactor, reaming modified support 11.5g is put into, 2.2g monoalky lether trimethyl ammonium chlorides is added and is dissolved in 26ml deionizations The aqueous solution of water, the weight concentration of the aqueous solution is 7.8%, is uniformly mixed, monoalky lether trimethyl ammonium chloride（2.2g）: Reaming modified support（11.5g ）=1:5.2；It is 0.7W/m to control ultrasonic power density³, ultrasonic frequency 29kHz, temperature 54 DEG C, sonic oscillation 4.7h；After the completion of ultrasonic activation, the ultrasonic surface activated carrier mixed liquor in ultrasound reactor is transferred to In 100ml hydrothermal reaction kettles, add by 0.78g boraxs, 0.97g potassium sulfates, 0.58g tri- (hexafluoroacetylacetone) yttrium (III) Dihydrate, the cyclopentadiene promethiums of 0.67g tri-, 0.78g tri- (DPM dpm,dipivalomethane acid) gadolinium, 0.87g fluoroforms The golden potassium of alkyl sulfonic acid thulium (III), 1.48g pyruvic acid isonicotinoyl hydrazones vanadium, 1.77g cobalt edetates, 0.68g tetrachloros, the pyrroles of 0.87g tri- The aqueous solution that pyridine ruthenic chloride hexahydrate, 1.98g stearic acid trimethylamine groups ethanol ester ammonium iodides and 10ml deionized waters are prepared, should The weight concentration of the aqueous solution is 53.3%, the weight of the aqueous solution:Weight=21.43g of ultrasonic surface activated carrier mixed liquor: 39.7g=1:1.9,175 DEG C of temperature is controlled, the hydro-thermal reaction time is 15.5h, then dries to obtain fine silt thing for 105 DEG C；Fine silt Thing is in Muffle furnace, 930 DEG C, calcination 7.5h, after cooling down, and the ozone Heterogeneous oxidation solid that can obtain fine particle shape is urged Agent.

Claims (2)

1. a kind of preparation method of ozone Heterogeneous oxidation solid catalyst, it is characterized in that A groups can added in closed reactor Divide and deionized water stirring prepares the aqueous solution, the weight concentration for controlling component A is 2%~6%, after the completion of prepared by solution, in stirring Lower addition B component, is warming up to 35 DEG C~50 DEG C, continues stirring reaction 3h~6h, and filtering, reaction product is dry at 102 DEG C~106 DEG C Reaming modified support is obtained after dry constant weight, reaming modified support input ultrasound reactor, addition is matched somebody with somebody by component C and deionized water The aqueous solution of system, the weight concentration of component C is 3%~8%, is uniformly mixed, and it is 0.3~0.8W/ to control ultrasonic power density m³, frequency 20kHz~30kHz, 40 DEG C~55 DEG C, sonic oscillation 2h~5h obtains ultrasonic surface activated carrier mixed liquor, transfer Into hydrothermal reaction kettle, the aqueous solution that D components and deionized water are prepared is added, the weight concentration of D components is 40%~55%, is pressed Weight meter, D component deionized water solutions:Weight ratio=1 of ultrasonic surface activated carrier mixed liquor:（1.5~2）, control temperature 120 DEG C~180 DEG C, the hydro-thermal reaction time is 8h~16h, then dries to obtain fine silt thing, fine silt thing is in Muffle furnace, 600 DEG C~950 DEG C, calcination 3h~8h obtains ozone Heterogeneous oxidation solid catalyst；The component A by expanding agent lithium hypochlorite, Double (acetylacetone,2,4-pentanedione) beryllium compositions, by weight, lithium hypochlorite:Weight ratio=1 of double (acetylacetone,2,4-pentanedione) berylliums:（1~1.6）, B groups Point by diatom is pure, kyanite, fluorite, glauberite, amazonite and lithium lime stone are constituted, by weight, diatom is pure:Kyanite:Firefly Stone:Glauberite:Amazonite:The weight ratio of lithium lime stone=（5~15）:（7~17）:（9~19）:（11~21）:（13~ 23）:（15~25）, by weight, component A:Weight ratio=1 of B component:（10~20）, component C is monoalky lether trimethyl Ammonium chloride, by weight, component C:Weight ratio=1 of reaming modified support:（5~10）, D components by composite mineralizer borax, Potassium sulfate, catalytic activity auxiliary agent predecessor three (hexafluoroacetylacetone) yttrium (III) dihydrate, three cyclopentadiene promethiums, three (2, 2,6,6- tetramethyl -3,5- heptadione acid) gadolinium, trifluoromethayl sulfonic acid thulium (III) Rare-earth chemicals, in catalytic activity Heart predecessor normal transition metallo-organic compound pyruvic acid isonicotinoyl hydrazone vanadium, cobalt edetate and precious metal chemical complex tetrachloro gold Potassium, Tris(2,2'- bipyridyl) ruthenium (II) chloride hexahydrate, emulsifying agent stearic acid trimethylamine groups ethanol ester ammonium iodide composition, by weight, borax: Potassium sulfate:Three (hexafluoroacetylacetone) yttrium (III) dihydrates:Three cyclopentadiene promethiums:Three (2,2,6,6- tetramethyls -3,5- Heptadione acid) gadolinium:Trifluoromethayl sulfonic acid thulium (III):Pyruvic acid isonicotinoyl hydrazone vanadium:Cobalt edetate:Tetrachloro gold potassium:Three Pyridine ruthenic chloride hexahydrate:The weight ratio of stearic acid trimethylamine groups ethanol ester ammonium iodide=（4~8）:（6~10）:（3~ 6）:（4~7）:（5~8）:（6~9）:（10~15）:（12~18）:（4~7）:（6~9）:（6~20）.

2. B component is by diatom is pure, kyanite, fluorite, glauberite, amazonite and lithium lime stone are constituted, silicon according to claim 1 Algae is pure, kyanite, fluorite, glauberite, amazonite and lithium lime stone are crushed respectively, and deionized water washing, which is dried, removes moisture Afterwards, sieved through standard screen, it is 0.0370mm~0.0750mm to control particle diameter.