CN2934979Y - Air purifying installation - Google Patents

Air purifying installation Download PDF

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Publication number
CN2934979Y
CN2934979Y CN 200520140133 CN200520140133U CN2934979Y CN 2934979 Y CN2934979 Y CN 2934979Y CN 200520140133 CN200520140133 CN 200520140133 CN 200520140133 U CN200520140133 U CN 200520140133U CN 2934979 Y CN2934979 Y CN 2934979Y
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Prior art keywords
tio
nano
matrix
foamed aluminium
catalyst
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Expired - Fee Related
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CN 200520140133
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Chinese (zh)
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冯乙巳
王新福
韩福生
蔡伟平
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Hefei Institutes of Physical Science of CAS
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Hefei Institutes of Physical Science of CAS
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Abstract

The utility model relates to an air cleaning device, which is characterized in that aluminum foam with surface deposition of nanometer Ti O2 is used as matrix. The matrix is provided with ultraviolet light that can project ultraviolet light on the matrix. Ventilator that makes air channels on the surface and in the inner holes of the matrix of is next to the matrix. The utility model is easy to manufacture and use. The raw materials are easy to get. The utility model has good stability, high catalytic performance. The catalyst is suitable for recycling. The indoor air purification effect is good, safe and reliable.

Description

Air cleaning unit
Technical field:
The utility model relates to air cleaning unit.
Background technology:
Along with environmental pollution becomes increasingly conspicuous, air quality problems more and more is subjected to people's attention, utilizes the multiphase photocatalysis process of organic pollution in the conductor photocatalysis degraded air to become a kind of ideal environment improvement technology.
Adopt photocatalysis technology can at room temperature utilize airborne water vapour and oxygen to remove airborne pollutant, pernicious gases such as hydrogen sulfide, nitrogen oxide, formaldehyde, the catalytic oxidation that at high temperature just can carry out with needs compares, and photocatalysis oxidation technique has significant superiority.The use of photochemical catalyst has improved the efficient of air cleaning greatly, and in addition, nano material also can be used as sterilizing and algae killing material, the high activity superoxide anion (O that produces under ultraviolet excitation 2-) and hydroxy radical (OH) energy penetration cell wall, damaging cells is membranous, stops the transmission of film forming matter.
Photocatalysis material of titanium dioxide is the friendly catalyst of the novel environmental that gets up of development in recent years, the catalytic efficiency height, and physical and chemical performance is stable, prepare simple and conveniently, cheap, directly utilizes sunshine, obvious advantage such as can use on a large scale.The nano TiO 2 catalyst, is removed organic pollution and is had very big Practical significance as titanium dioxide industrial wastewater, air cleaning in depollution of environment field.
Because the catalytic reactor manufacturing has difficulties, greatly limited the nano TiO 2 catalyst in actual applications, existing photo catalysis reactor is varied, mainly is divided into two big classes, promptly hangs slurry system and fixing film system.Wherein outstanding slurry system is that catalyst directly is dispersed in the reaction system, and photocatalysis efficiency is the highest, but catalyst granules need separate and the recycling use difficulty.Fixedly the film system photo catalysis reactor is that catalyst is fixed on the specific substrate to form the titanium dioxide film-catalyst layer, be easy to industrialization and use, but owing to be subjected to mass transfer and pass the restriction of light, photocatalysis efficiency is low.
At present, building, decoration, ornament materials and new household products are seen light or be heated can a large amount of volatile organic compounds such as dusty gas such as formaldehyde and sulfur dioxide, NOX nitrogen oxide, toxicity to human body is very big, is in for a long time in such environment and can brings out various diseases such as respiratory tract, cancer and skin.
Widespread usage is based on the air purifier of charcoal absorption principle in the prior art, but, this clarifier can only effectively adsorb pollutants such as dust, suspended particulates, and is very little for the adsorption capacity of pollutants such as chemical organic compounds such as formaldehyde, can not decompose such organic compound.The use ozone generator is also arranged, remove polluters such as formaldehyde, but employed ozone itself is exactly harmful material by the mode of oxidation.
In addition, what the inner decoration material overwhelming majority of existing automobile adopted is heavy chemicals, as pp carpet, the rubber mat of underfooting, the various chemical fibre buntings on the crown, instrument board, steering wheel, sponge seat or the like, and the employed various chemical industry glue of bonding ornament materials in the car.The volatile matter of these chemical materials causes the serious pollution of air in the car, and especially the new car problem is more outstanding.Air-conditioning also is an important in-vehicle air pollution source in the car.
Summary of the invention:
The utility model is for avoiding above-mentioned existing in prior technology weak point, a kind of air cleaning unit is provided, preparation is simple, the raw material source is convenient, have good stable, catalytic performance height, the catalyst with foamed aluminum carried titanium dioxide easy to use, that be suitable for recycle and reuse are used in air cleaning unit.
The technical scheme that the utility model technical solution problem is adopted is:
Design feature of the present utility model is with surface deposition nano-TiO to be arranged 2Foamed aluminium be matrix, setting can be projected on the ultraviolet light that penetrates the ultraviolet lamp tube on the described matrix, is arranged on the ventilation fan that forms gas channel in described matrix surface and the internal void thereof at the side of described matrix.
The catalyst of implementing air cleaning in the utility model is to be carrier with the foamed aluminium, at the surface deposition of foamed aluminium nano-TiO is arranged 2Or dopen Nano TiO 2
Compared with the prior art, the utlity model has following beneficial effect:
1, the catalyst raw material convenient sources that the utility model adopted, preparation process is simple, the preparation method is reliable;
2, the catalyst that the utility model adopted has kept nano-TiO fully 2Catalytic activity, possess simultaneously easy to use, reclaim significant advantages such as simple.
3, the utility model air cleaning unit can be accelerated room air circulation, with the various harmful organic volatile compounds in the room air (as formaldehyde, ammonia, CO, SO 2Deng) effectively decompose.Thoroughly the various peculiar smell such as smell that smelly, the fume of cigarette, food distribute in the decontamination chamber are effectively killed airborne planktonic bacteria and virus, prevent the bacterium between personnel, viral cross-infection.And reduced cost, little power consumption, volume is little, and is attractive in appearance durable in use.
4, the utility model air cleaning unit has application very widely, comprises that being installed in indoor wall, window, ceiling, desk etc. locates, and is placed in the car, is used to improve air purity indoor, that car is interior; Use is in various occasions such as refrigerator, dining room, bathroom, spaceship; Also can be used for sewage disposal, the tail gas absorption of automobile etc.
Description of drawings:
Fig. 1 is the utility model air cleaner structural representation.
Fig. 2 is a nano-TiO 2X-ray diffractogram (XRD)
Number in the figure: 1 matrix, 2 ultraviolet lamp tubes, 3 ventilation fans, 4 pedestals.
Below by the specific embodiment the utility model is further described:
The specific embodiment:
Be to be carrier with the foamed aluminium, at the surface deposition nano-TiO of foamed aluminium 2As catalyst.
Wherein: the porosity of foamed aluminium is that 10%-95%, aperture are 10nm-5mm.
Dopen Nano TiO 2, alloy is transition metal ions Fe 3+, or Mo 5+, or Ru 2+, or Os 3+, or Re 5+, or V4 +, or Ag +Or Ph 3+Compound, alloy and TiO 2Mol ratio be 0.001~20%.
Dopen Nano TiO 2, alloy also can be semiconducting compound CdS or ZnO or CdSe or SnO 2, or PbS or WO 3, or SiO 2, or Al 2O 3, doped compound and TiO 2Mol ratio is 0.0001~20%.
Dopen Nano TiO 2, alloy can also be an organic compound: rhodamine or porphyrin or chlorophyll or pyridine ruthenium or xanthene or metal phthalein cyanogen, alloy and TiO 2Mol ratio be 0.001~20%.
Preparation of catalysts is carried out as follows:
A, preparation nano-TiO 2Dispersion soln, or dopen Nano TiO 2Dispersion soln, or TiO 2Colloidal solution, or doped Ti O 2Colloidal solution;
B, choose the foamed aluminium matrix, the porosity of described foamed aluminium matrix is that 10%-95%, aperture are 10nm-5mm;
C, employing solution infusion method are immersed in foamed aluminium in described dispersion soln of step a or the colloidal solution, take out after 1 hour, and natural air drying in air, making load has nano-TiO 2, or dopen Nano TiO 2, or TiO 2Colloid, or doped Ti O 2The foamed aluminium of colloid;
D, post processing, the loaded with nano TiO that step c is made 2, or dopen Nano TiO 2, or TiO 2Colloid, or doped Ti O 2The foamed aluminium of colloid is annealed 1-2 hour down promptly for 100~1000 ℃ under inert gas shielding.
Referring to Fig. 1, present embodiment is with surface deposition nano-TiO to be arranged 2Or dopen Nano TiO 2Foamed aluminium be matrix 1, setting can be projected on ultraviolet lamp tube 2 on the matrix 1 with the ultraviolet light that penetrates, and at the side of matrix 1 ventilation fan 3 is set.During ventilation fan 3 work, can in the surface of matrix 1 and internal void thereof, form gas channel
In concrete the enforcement, can be arbitrary shape as the foamed aluminium of carrier, adopt the sheet foamed aluminium in the present embodiment, form flaky matrix 1, multi-disc matrix 1 parallel arranged be arranged on the pedestal 4, and ultraviolet lamp tube 2 is arranged between per two sheet matrixes 1.For increase dusty gas with as the contacting of the matrix 1 of catalyst, pedestal 4 can be set to rotary structure, further improve its photocatalysis effect.
In concrete the enforcement:
With titanium halides or alkyl titanium or titanate esters, or titaniferous compound hydrolysis generation titanium oxide hydrogel is a nano-TiO 2Raw material; With Fe 3+, Mo 5+, Ru 2+, Os 3+, Re 5+, V 4+, Ag +And Ph 3+Inorganic acid or acylate, or metallo-organic compound is raw material, the transition metal ions Fe that preparation is used to mix 3+, Mo 5+, Ru 2+, Os 3+, Re 5+, V 4+, Ag +And Ph 3+Compound;
Adopt preparation TiO such as conventional liquid-phase precipitation method, colloidal solution gel method, micro emulsion method, hydro-thermal method and comminuting method 2Nanometer or doped Ti O 2Nanometer.As adopt liquid-phase precipitation method to prepare nano-TiO 2Or dopen Nano TiO 2:
With the halides of titanium, alkyl titanium or, titanate esters or other titanium compound presoma hydrolysis generate the titanium oxide hydrogel, promptly obtains nano-TiO through calcining again 2
Prepare TiO earlier 2Colloidal solution is dissolved in TiO with the raw material that mixes again 2Obtain the colloidal solution of doping in the colloidal solution; Or with the halides of titanium, alkyl titanium or, titanate esters or other titanium compound presomas be with after doped compound mixes in proportion, the nano-TiO that mixes by the liquid phase method preparation again 2
Concrete preparation is exemplified below:
Example 1:TiO 2The preparation of nano particle:
Getting the 20ml butyl titanate is dissolved in the alcohol solvent; Other is taken at the distilled water of 30mL and 30ml ethanol and mixes the back and add several hydrochloric acid and make pH value 1~5, is 0.2% surfactant polyethylene to wherein adding weight ratio, is heated to 60 ℃; Ethanolic solution with butyl titanate slowly drips in the hot ethanol aqueous solution then, and vigorous stirring, drips back cooling naturally.TiO with hydrolysis formation 2Sedimentation and filtration is dried down for 80 ℃ and is obtained TiO 2Powder 200~700 ℃ of annealing, obtains TiO again 2Nano particle.
Example 2:Fe 3+Compound doped nano-TiO 2The preparation of particle:
Get the 20ml butyl titanate and be dissolved in the alcohol solvent, to wherein adding an amount of trimethoxy iron, trimethoxy iron and butyl titanate mol ratio are 0.5%; Other is taken at the distilled water of 30mL and 30ml ethanol and mixes the back and add several hydrochloric acid and make pH value 8~13, and the adding weight ratio is 0.2% surfactant polyethylene in solution, is heated to 60 ℃; Ethanolic solution with butyl titanate slowly drips in the hot ethanol aqueous solution then, and vigorous stirring, drips back cooling naturally.TiO with hydrolysis formation 2Sedimentation and filtration, 80 ℃ of oven dry obtain TiO 2Powder 200~700 ℃ of annealing, obtains Fe again 3+Compound doped TiO 2Nano particle.
Example 3:ZnO doped Ti O 2The preparation of nano particle:
Get the 20ml butyl titanate and be dissolved in the alcohol solvent, to wherein adding an amount of Zn (NO 3) 2, ZnNO3 and butyl titanate mol ratio are 0.5%; Other is taken at the distilled water of 30mL and 30ml ethanol and mixes the back and add several hydrochloric acid and make pH value 8~13, and the adding weight ratio is 0.2% surfactant polyethylene in solution, is heated to 60 ℃; Ethanolic solution with butyl titanate slowly drips in the hot ethanol aqueous solution then, and vigorous stirring, drips back cooling naturally, and adding ammoniacal liquor conciliation pH value of solution is 8.TiO with hydrolysis formation 2Sedimentation and filtration, 80 ℃ of oven dry obtain TiO 2Powder 200~700 ℃ of annealing, obtains ZnO doping TiO again 2Nano particle.
About nano-TiO 2Or dopen Nano TiO 2The preparation of dispersion soln:
Select suitable liquid such as water, ethanol, methyl alcohol, gasoline, benzinum, cyclohexane etc. as solvent, after adding or not adding cation, anion or neutral surface active agent, with TiO 2Nano particle or doped Ti O 2Nano particle is dispersed in the above-mentioned solvent, prepares the nano-TiO that concentration is 0.1~10mol/L 2With dopen Nano TiO 2Dispersion soln.
Example 4: nano-TiO 2The preparation of dispersion soln
Add PVP (PVP) in 100ml water, concentration is 0.2% by weight.With the TiO that makes in the example 1 2Nano particle 10g adds in this solution, and vigorous stirring or ultrasonic dispersion obtain TiO 2Nanoparticles solution.
Example 5:Fe 3+Dopen Nano TiO 2The preparation of dispersion soln
Add PVP (PVP) in 100ml water, concentration is 0.2% by weight.The Fe that example 2 is made 3+Doped Ti O 2Nano particle 10g adds in this solution, and vigorous stirring or ultrasonic dispersion obtain Fe 3+Doped Ti O 2Nanoparticles solution.
Example 6:ZnO dopen Nano TiO 2The preparation of dispersion soln
Add PVP (PVP) in 100ml water, concentration is 0.2% by weight.With the ZnO doping TiO that makes in the example 3 2Nano particle 10g adds in the above-mentioned solution, and vigorous stirring or ultrasonic dispersion obtain ZnO doping TiO 2Nanoparticles solution.
About TiO 2Colloidal solution or doped Ti O 2The preparation of colloidal solution
With the halides of titanium, alkyl titanium or, titanate esters or other titanium compound presomas slowly add entry or acid-base solution, hydrolysis titanium precursor body generates colloidal tio 2 solution.
Prepare TiO earlier 2Colloidal solution is dissolved in TiO with the raw material that mixes again 2In the colloidal solution; Or with the halides of titanium, alkyl titanium or, titanate esters or other titanium compound presomas be with after doped compound mixes according to a certain percentage, the nano-TiO that mixes by the liquid phase method preparation again 2Colloidal solution.
Example 7:TiO 2The preparation of colloidal solution
The 70ml butyl titanate is dissolved in the mixed solvent of 150ml ethanol and 20ml, stirs and drip 20ml ethanol and 30ml glacial acetic acid down; After dropwising, continue to stir 2 hours, obtain TiO 2Colloidal solution.
Example 8:Fe 3+Doped Ti O 2The preparation of colloidal solution
In the mixed solution of 150ml ethanol and 20ml, add 70ml butyl titanate and 0.5ml trimethoxy iron respectively, stir and drip 20ml ethanol and 30ml glacial acetic acid down; After dropwising, continue to stir 2 hours, obtain Fe 3+Doped Ti O 2Colloidal solution.
Example 9:ZnO doped Ti O 2The preparation of colloidal solution
In the mixed solution of 150ml ethanol and 20ml, add 70ml butyl titanate and 5 gram Zn (NO respectively 3) 2, stir and drip 20ml ethanol and 30ml glacial acetic acid down; After dropwising, continue to stir 2 hours, obtain ZnO doping TiO 2Colloidal solution.
Preliminary treatment about foamed aluminium:
Choosing porosity is that 10%-95%, aperture are the foamed aluminium of 10nm-5mm, removes and to deoil and other impurity of surface, and foamed aluminium can be multiple shapes such as sheet, column, spherical and tubbiness.
Adopt the solution infusion method to realize nano-TiO 2Or load on the foamed aluminium
Nano-TiO is put into through pretreated foamed aluminium in the surface 2Dispersion soln, or dopen Nano TiO 2Dispersion soln, or TiO 2Colloidal solution, or doped Ti O 2In the colloidal solution, soak after 1 hour and take out, natural air drying in air, obtaining load has nano-TiO 2, or dopen Nano TiO 2, or TiO 2Colloid, or doped Ti O 2The foamed aluminium of colloid.
Example 10:TiO 2Nanometer is load on foamed aluminium
Get nano-TiO 2Dispersion soln 5000ml is that the block foam aluminium of 500 μ m is put into this dispersion soln with 1000 * 500 * 1mm, aperture, soaks after 1 hour and takes out, and the natural air drying solvent flashing obtains load TiO 2The foamed aluminium of nanometer.
Example 11:Fe 3+Doped Ti O 2Nanometer is load on foamed aluminium
Get Fe 3+The TiO that mixes 2Nano-dispersed solution 5000ml is that the block foam aluminium of 500 μ m is put into above-mentioned solution with 1000 * 500 * 1mm, aperture, soaks after 1 hour and takes out, and the natural air drying solvent flashing obtains load Fe 3+Doped Ti O 2Nanometer foam aluminium.
Example 12:ZnO doped Ti O 2Nanometer is load on foamed aluminium
Get the TiO of ZnO doping 2Nano-dispersed solution 5000ml is that the block foam aluminium of 500 μ m is put into above-mentioned solution with 1000 * 500 * 1mm, aperture, soaks after 1 hour and takes out, and the natural air drying solvent flashing obtains loading ZnO doped Ti O 2Nanometer foam aluminium.
Example 13:TiO 2Colloid is load on foamed aluminium
Get TiO 2Colloidal solution 5000ml is that the block foam aluminium of 500 μ m is put into above-mentioned colloidal solution with 1000 * 500 * 1mm, aperture, soaks after 1 hour and takes out, and the natural air drying solvent flashing obtains TiO 2Colloid load foamed aluminium.
Example 14:Fe 3+Doped Ti O 2Colloid is load on foamed aluminium
Get Fe 3+Doped Ti O 2Colloidal solution 5000ml is that the block foam aluminium of 500 μ m is put into above-mentioned colloidal solution with 1000 * 500 * 1mm, aperture, soaks after 1 hour and takes out, and the natural air drying solvent flashing obtains Fe 3+Doped Ti O 2Colloid load foamed aluminium.
Example 15:ZnO doped Ti O 2Colloid is load on foamed aluminium
Get ZnO doping TiO 2Colloidal solution 5000ml is that the block foam aluminium of 500 μ m is put into above-mentioned colloidal solution with 1000 * 500 * 1mm, aperture, soaks taking-up in 1 hour, and the natural air drying solvent flashing obtains ZnO doping TiO 2Colloid load foamed aluminium
About post processing:
With loaded with nano TiO 2, or dopen Nano TiO 2, or TiO 2Colloid or doped Ti O 2The foamed aluminium of colloid is heat-treated at 100~1000 ℃ under inert gas shielding, obtains having the catalyst of photocatalytic activity.
Example 16: load is had TiO 2The foamed aluminium of nanometer earlier 80 ℃ of oven dry 1 hour, again through 500 ℃ of annealing in process 2 hours, obtains having the catalyst of photocatalytic activity under nitrogen protection.
Example 17: with load Fe 3+Doped Ti O 2The foamed aluminium of nanometer earlier 80 ℃ of oven dry 1 hour, again through 500 ℃ of annealing in process 2 hours, obtains having the catalyst of photocatalytic activity under nitrogen protection.
Example 18: load is had ZnO doping TiO 2The foamed aluminium of nanometer earlier 80 ℃ of oven dry 1 hour, again through 500 ℃ of annealing in process 2 hours, obtains having the catalyst of photocatalytic activity under nitrogen protection.
Example 19: load is had colloid TiO 2Foamed aluminium under nitrogen protection earlier 80 ℃ of oven dry 1 hour, through 500 ℃ of annealing in process 2 hours, promptly get catalyst again.
Example 20: load is had Fe 3+Doping colloid TiO 2Foamed aluminium under nitrogen protection earlier 80 ℃ of oven dry 1 hour, through 500 ℃ of annealing in process 2 hours, promptly get catalyst again.
Example 21: load is had ZnO doping TiO 2The foamed aluminium of colloid earlier 80 ℃ of oven dry 1 hour, through 500 ℃ of annealing in process 2 hours, promptly gets catalyst again under nitrogen protection.
About phthalein cyanogen iron dopen Nano TiO 2Catalyst
Organic compounds such as phthalein cyanogen iron at high temperature easily decompose, thereby, phthalein cyanogen iron dopen Nano TiO 2Preparation of catalysts should adopt preparation nano-TiO earlier 2The foamed aluminium catalyst, organic compounds such as phthalein cyanogen iron again mix.
Example 22: phthalein cyanogen iron dopen Nano TiO 2The foamed aluminium Preparation of catalysts:
Will be through the resulting nano-TiO of post processing 2The foamed aluminium catalyst is immersed in the dimethyl formamide solution of phthalein cyanogen iron that 1000ml concentration is 0.1mol/L, takes out after 1 hour, and at 60 ℃ of slow evaporating solvents down, 150 ℃ of annealing is 2 hours again, obtains phthalein cyanogen iron dopen Nano TiO 2The foamed aluminium catalyst.
Structure about nano TiO 2 foamed aluminium catalyst:
Nano-TiO after 500 ℃ of processing 2Nano-TiO in the foamed aluminium catalyst 2Observe by the high-resolution field emission scanning electron microscope, particle diameter is about 10~20nm, connects into passage between the particle.SEAD by correspondence can calculate nano-TiO 2Corresponding to anatase phase titanium dioxide.Obtained nano-TiO simultaneously 2X-ray diffractogram XRD (shown in Figure 2), as can be seen from the figure the titanium dioxide through 500 ℃ of processing is the anatase phase, adopts XRD linear analysis method to measure the unanimity as a result of the average grain size high score field emission scanning electron microscope of titanium dioxide.
Structure with the hole of specific surface and pore analysis instrument analytic sample.The analysis showed that titanium dioxide has meso-hole structure, higher specific surface and porosity, narrower pore-size distribution, the about 50~1000m of specific surface 2/ g, porosity is about 20~80%, and the aperture mainly is distributed in 6-10nm.

Claims (1)

1, air cleaning unit is characterized in that with surface deposition nano-TiO being arranged 2Foamed aluminium be matrix (1), setting can be projected on the ultraviolet light that penetrates the ultraviolet lamp tube (2) on the described matrix (1), is arranged on the ventilation fan (3) that forms gas channel in the surface of described matrix (1) and the internal void thereof at the side of described matrix (1).
CN 200520140133 2005-12-20 2005-12-20 Air purifying installation Expired - Fee Related CN2934979Y (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103170240A (en) * 2013-02-27 2013-06-26 西安交通大学 Air quality monitoring and purifying device in closed space

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103170240A (en) * 2013-02-27 2013-06-26 西安交通大学 Air quality monitoring and purifying device in closed space

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Granted publication date: 20070815

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