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52results about How to "Adsorption conditions are mild" patented technology

Nitrogen-doped porous hollow carbon sphere carbon dioxide adsorption material as well as preparation method and application thereof

The invention relates to a nitrogen-doped porous hollow carbon sphere carbon dioxide adsorption material as well as a preparation method and application thereof. The preparation method comprises the following steps: adding SiO2 sphere flowers into mixed liquid of deionized water, absolute ethyl alcohol and ammonia water, and carrying out ultrasonic oscillation until the SiO2 sphere flowers are completely dispersed; and then adding a dopamine hydrochloride water solution, uniformly stirring at the room temperature, filtering, washing, drying, and processing at 700-900 DEG C for 2-4 hours in a N2 atmosphere so as to obtain nano-composite spheres; and finally impregnating the nano-composite spheres in hydrofluoric acid to remove the SiO2 sphere flowers, filtering, washing, and drying, so as to obtain the nitrogen-doped porous hollow carbon sphere CO2 adsorption material. The adsorption material is a porous hollow carbon sphere, the particle sizes of porous hollow nano-carbon spheres are about 400nm, the porous hollow nano-carbon spheres are uniform and regular, and the adsorption material has high nitrogen content, adsorptive property, specific surface area and pore volume and high-dispersed regular appearance, the surface of the adsorption material contains rich amino active sites, and the adsorption material can be applied to efficient adsorption of industrial CO2.
Owner:SHAANXI YUTENG IND

Method for removing thiophene sulfur in fuel oil by using Ag2O/SiO2 composite aerogel as adsorbent

ActiveCN106118717ATypical mesoporous characteristic pore diameterHigh porosityOther chemical processesSolid sorbent liquid separationSorbentFuel oil
The invention discloses a method for removing thiophene sulfur in fuel oil by using Ag2O / SiO2 composite aerogel as an adsorbent, and belongs to the technical field of fuel oil processing. The method comprises the following steps: by taking tetramethyl orthosilicate, tetraethoxysilane, silica sol, sodium silicate and the like as silicon sources, and silver acetate, silver nitrate and the like as silver sources, preparing the Ag2O / SiO2 composite aerogel by adopting a sol gel-normal-pressure preparing drying method; quantitatively filling the aerogel into a fixed bed adsorption device, injecting model gasoline containing thiophene sulfur at certain temperature and air speed, collecting adsorbed model gasoline at the outlet in the lower end of a reaction device, and performing chromatographic analysis. The result shows that the Ag2O / SiO2 composite aerogel has a good adsorption property on thiophene sulfur. The Ag2O / SiO2 composite aerogel is simple in preparation method, low in cost, high in economic benefit, good in environment-friendliness, gentle in adsorption conditions and low in requirement on adsorption equipment, and can be repeatedly used.
Owner:ZHEJIANG UNIV OF TECH

Magnetic modified sodium alginate flocculating agent

The invention discloses a preparation method and application of a magnetic modified sodium alginate flocculating agent. The preparation method comprises the following steps: grafting partially oxidized sodium alginate by using thiosemicarbazide, and performing reaction with Fe3O4 nanoparticles of which the surfaces are modified by amino groups to obtain a magnetic thiosemicarbazide-sodium alginate flocculating agent with a special effect. The method mainly comprises the following three reaction processes of (1) reacting the partially oxidized sodium alginate with the thiosemicarbazide to generate a Schiff base, and reacting the Schiff base with NaBH4 to generate stable amine; (2) preparing the magnetic Fe3O4 nanoparticles by using a co-precipitation method, and performing surface modification on the Fe3O4 nanoparticles by using gamma-aminopropyltriethoxysilane (KH-550); (3) reacting thiosemicarbazide-sodium alginate with the modified Fe3O4 nanoparticles to obtain the magnetic sodium alginate flocculating agent (ST-Fe) at room temperature in the presence of a catalyst EDC / NHS. The obtained product can be applied to sewage treatment and precious metal recovery, has the advantages of efficient adsorption, high sedimentation speed, simplicity in separation, low cost, biodegradability, no secondary pollution and the like, and has wide industrial application prospect.
Owner:JINING XINRUIDA INFORMATION TECH CO LTD

Method for removing thiophene sulfides in fuel oil by taking SiO2-APTES hybrid aerogel as adsorbent

ActiveCN109351338ATypical mesoporous characteristic pore diameterHigh porosityOther chemical processesHydrocarbon oils refiningSorbentFixed bed
The invention relates to a method for removing thiophene sulfides in fuel oil by taking SiO2-APTES hybrid aerogel as an adsorbent, and belongs to the technical field of fuel oil processing. Accordingto the method, methyl orthosilicate, tetraethoxysilane, silica sol, water glass and the like are taken as silicon sources, (3-aminopropyl)triethoxysilane and (3-aminopropyl)trimethoxysiloxane are taken as ammonia sources, the SiO2-APTES hybrid aerogel is prepared by a sol-gel atmospheric pressure drying method; a fixed bed adsorption device is filled with the SiO2-APTES hybrid aerogel, simulated gasoline containing the thiophene sulfides is injected at a certain temperature and airspeed, and the adsorbed simulated gasoline is collected for chromatographic analysis; results show that the SiO2-APTES hybrid aerogel has good adsorption property for the thiophene sulfides. The preparation method of the SiO2-APTES hybrid aerogel adsorbent is simple, and low in cost; the adsorbent can be repeatedly used, has high economic benefit, is environmentally friendly, has mild adsorption conditions and has low requirements on adsorption equipment.
Owner:ZHEJIANG UNIV OF TECH

Method of removing thiophene sulfides in fuel oil by taking Ag2O/SiO2-ZrO2 compound aerogel as adsorbent

The invention discloses a method of removing thiophene sulfides in fuel oil by taking an Ag2O / SiO2-ZrO2 compound aerogel as an adsorbent. The method comprises the following steps: filling a fixed bedadsorption device with the Ag2O / SiO2-ZrO2 compound aerogel as the adsorbent; introducing simulated gasoline containing thiophene sulfur at an air speed of 1-10h<-1> at 0-100 DEG C; and adsorbing the simulated gasoline to obtain simulated gasoline, the sulfur concentration of which is smaller than 1ppm. According to the Ag2O / SiO2-ZrO2 compound aerogel, Zr<4+> is introduced in a silicon framework structure of the aerogel to generate an acid L, lone pair electrons on an S atom of the thiophene compound are alkaline, the thiophene sulfides can be adsorbed to the centre of the acid L of the aerogelmatrix Ag2O / SiO2-ZrO2 through acid and alkali action, and the adsorption property of the aerogel on the thiophene sulfides can be further improved by means of pi complexation and acid and alkali action. The adsorption reaction is carried out at a constant pressure, the adsorption conditions are mild, the demand on adsorption equipment is low, and the method is convenient to operate. A good adsorption effect on the thiophene compounds is obtained.
Owner:ZHEJIANG UNIV OF TECH

Method for continuous adsorption and removal of carbonyl sulfide and dimethyl disulfide in carbon 4 left after etherification reaction

The invention provides a method for continuous adsorption and removal of carbonyl sulfide and dimethyl disulfide in carbon 4 left after etherification reaction. The method includes the following steps that the carbon 4 left after etherification reaction is in contact with a carbonyl sulfur adsorbent to adsorb and remove the carbonyl sulfur in the carbon 4 left after etherification reaction; then the carbonyl sulfur adsorbent performing penetrating adsorption is subjected to regeneration treatment, and the operations of carbonyl sulfide removal and regeneration treatment are repeated; carbon 4 left after etherification reaction and without carbonyl sulfur is in contact with a dimethyl disulfide adsorbent to adsorb and remove the dimethyl disulfide in the carbon 4 left after etherification reaction; then the dimethyl disulfide adsorbent performing penetrating adsorption is subjected to regeneration treatment, and the operations of dimethyl disulfide removal and regeneration treatment are repeated. The method adopts the different adsorbents to adsorb and remove the carbonyl sulfur and the dimethyl disulfide in the carbon 4 left after etherification reaction and reduces the carbonyl sulfur content and the dimethyl disulfide content respectively to be below 1 mg / g, and the adsorbents can be regenerated and recycled.
Owner:CHINA UNIV OF PETROLEUM (BEIJING)

Method using SiO2-CoO composite aerogel as absorbent to remove thiophene sulfur in gasoline

The invention relates to a method using SiO2-CoO composite aerogel as the absorbent to remove thiophene sulfur in gasoline and belongs to the technical field of gasoline processing. The method includes: filling the SiO2-CoO composite aerogel into a fixed bed absorption device, and feeding simulated gasoline containing thiophene or benzothiophene under certain airspeed; collecting the absorbed simulated gasoline at the lower outlet of the reactor, and performing gas chromatography. The gas chromatography result shows that the SiO2-CoO composite aerogel can well absorb the thiophene and benzothiophene. The SiO2-CoO composite aerogel absorbent is simple to prepare, low in cost, reusable, convenient to operate, environmental friendly, high in economic benefit, mild in absorption condition and low in absorption equipment requirement.
Owner:ZHEJIANG UNIV OF TECH

Method for removing thiophenes sulfur in fuel oil by using SiO2/Cu2O composite aerogel as adsorbent

InactiveCN106111054ATypical mesoporous characteristic pore diameterHigh porosityOther chemical processesSolid sorbent liquid separationSorbentAmbient pressure
The invention discloses a method for removing thiophenes sulfur in fuel oil by using SiO2 / Cu2O composite aerogel as an adsorbent, and belongs to the technical field of fuel oil processing. The method is characterized by taking tetraethoxysilane as a silicon source and copper acetate as a copper source, and preparing the SiO2 / Cu2O composite aerogel by adopting a sol gelation-ambient pressure drying method; then filling a stationary bed adsorption device with the SiO2 / Cu2O composite aerogel; injecting simulated gasoline under certain temperature and certain flow. The simulated gasoline after being adsorbed can be collected at an outlet formed in the lower end of a reaction device, gas chromatography can be carried out, and a result shows that the SiO2 / Cu2O composite aerogel has good adsorption performance on both thiophene and benzothiophene. A preparation method of a SiO2 / Cu2O composite aerogel absorbent in the invention is simple, the cost is low, the SiO2 / Cu2O composite aerogel absorbent can be repeatedly used for many times, and the economic benefit is high; adsorption conditions are gentle, and requirements on an adsorption device are low.
Owner:ZHEJIANG UNIV OF TECH

Cyclodextrin-modified hypercrosslinked resin and method for adsorbing and recovering aniline compounds in industrial wastewater by using same

The invention discloses cyclodextrin-modified hypercrosslinked resin and a method for adsorbing and recovering aniline compounds in industrial wastewater by using the same. The method is used for adsorbing aniline compounds such as aniline, p-toluidine, p-chloroaniline and p-aminobenzoic acid in wastewater by taking the synthesized cyclodextrin-modified polystyrene-chloromethylstyrene hypercrosslinked resin as an adsorption material, and the maximum adsorption capacities can respectively reach 149mg / g, 198mg / g, 294mg / g and 623mg / g. Experimental results show that the adsorption capacity is obviously higher than the maximum adsorption capacities of adsorption materials such as activated carbon, coal ash and modified zeolite to the aniline compounds. The method disclosed by the invention has the advantages such as simple material preparation process, repeated utilization, mild adsorption condition, energy saving, environment friendliness and low cost.
Owner:HUIZHOU RES INST OF SUN YAT SEN UNIV

Novel hydroxide lanthanum-modified hydroxyapatite material and preparation method and application thereof

The present invention provides a novel hydroxide lanthanum-modified hydroxyapatite material and a preparation method and application thereof. The preparation method comprises the following steps of dissolving lanthanum chloride or lanthanum oxide into an acid solution, adding hydroxyapatite, and adjusting the pH (potential of hydrogen) value of the mixed solution to the alkaline property by an alkaline solution; putting the mixed solution after stirring into an ultrasonic device, and treating by ultrasonic waves for a period of time; putting onto a stirrer, and continuing to stir for a certainperiod of time; sealing, aging, filtering, and drying, so as to obtain filter slag; roasting at high temperature, so as to obtain the novel hydroxide lanthanum-modified hydroxyapatite material. The novel hydroxide lanthanum-modified hydroxyapatite material has the characteristics that the particle size is controllable, the specific surface area is large, the hole size of the particle is large, and the loading is uniform; the material is applied to remove the phosphate radicals in wastewater, the removal rate of phosphate radicals reaches 97.5% or above, and the purpose of high-efficiency andhigh-load phosphor removal is realized.
Owner:NANCHANG HANGKONG UNIVERSITY

Preparation method of pi complexing adsorbing agent used for separating saturated fatty acid methyl ester from unsaturated fatty acid methyl ester

The invention discloses a preparation method of a pi complexing adsorbing agent used for separating saturated fatty acid methyl ester from unsaturated fatty acid methyl ester, which comprises the steps of: mixing Fe<2+> salt with Fe<3+> salt to prepare a Fe salt solution, and then undergoing a crosslinking reaction with chitosan to prepare a magnetic chitosan microsphere; and preparing a magnetic chitosan silver ion loaded adsorbing agent by using a dipping method to obtain the pi complexing adsorbing agent. Through tests, mixed fatty acid methyl ester is adsorbed and separated by adopting the magnetic chitosan loaded silver ion adsorbing agent, thus the iodine value of the mixed fatty acid methyl ester is improved to above 160. The preparation method is characterized in that silver ions are loaded by adopting a magnetic chitosan microsphere dipping method, and the prepared adsorbing agent has the advantages of high efficiency of separating the saturated fatty acid methyl ester from the unsaturated fatty acid methyl ester, less fuel consumption, compact structure of a device, investment saving and safety in operation.
Owner:ENERGY RESOURCES INST HEBEI ACADEMY OF SCI

Method for removing thiophene sulfur in fuel oil

The invention discloses a method for removing thiophene sulfur in fuel oil and belongs to the technical field of fuel oil processing. The method comprises the following steps: using tetramethyl orthosilicate, tetraethyl orthosilicate, silica sol, water glass or the like as a silicon source; using silver acetate, silver nitrate or the like as a silver source; using aluminum nitrate, aluminum acetate or aluminum oxalate as an aluminum source; preparing an Ag2O / SiO2-Al2O3 composite aerogel with a sol-gel-atmospheric pressure drying method; quantitatively filling in a fixed bed adsorption device;injecting a simulated gasoline containing thiophene sulfur at a certain temperature and space velocity; and collecting the adsorbed simulated gasoline at a lower outlet of a reaction device for chromatographic analysis. Results show that the Ag2O / SiO2-Al2O3 composite aerogel has good adsorption performance for thiophene sulfur; an Ag2O / SiO2-Al2O3 composite aerogel adsorbent in the invention is simple in preparation method, low in cost, capable of being repeatedly used, high in economic efficiency, environmentally friendly, mild in adsorption condition and low in requirement on adsorption equipment.
Owner:ZHEJIANG UNIV OF TECH

Method for removing thiophenic sulfur in fuel oil by using Ag2O/SiO2-graphene oxide composite aerogel as adsorbent

InactiveCN108342217ATypical mesoporous featuresThe amount can be adjustedOther chemical processesHydrocarbon oils refiningSorbentFixed bed
The invention relates to a method for removing thiophenic sulfur in fuel oil by using an Ag2O / SiO2-graphene oxide composite aerogel as an adsorbent, and belongs to the technical field of fuel oil processing. According to the method, methyl orthosilicate, tetraethyl orthosilicate, silica sol, water glass and the like are used as a silicon source, silver acetate, silver nitrate and the like are usedas a silver source, and the Ag2O / SiO2-graphene oxide composite aerogel is obtained by a sol-gel-normal pressure drying method. The Ag2O / SiO2-graphene oxide composite aerogel is quantitatively filledin a fixed bed adsorption device, simulated gasoline containing the thiophenic sulfur is injected into the adsorbed simulated gasoline at a certain temperature and space velocity into the fixed bed adsorption device, and the adsorbed simulated gasoline is collected at the lower end outlet of the device for chromatographic analysis. Results show that the Ag2O / SiO2-graphene oxide composite aerogel has good adsorption properties for the thiophenic sulfur. The preparation method of the Ag2O / SiO2-graphene oxide composite aerogel adsorben is simple and low in cost, and the adsorbent can be repeatedly used, has high economic efficiency, is environmentally friendly, and has mild adsorption conditions and low requirements on adsorption equipment.
Owner:ZHEJIANG UNIV OF TECH

Preparation of magnesium-aluminum bimetal oxide modified straw biomass charcoal composite material and application of magnesium-aluminum bimetal oxide modified straw biomass charcoal composite material to removal of phosphorus in wastewater

The invention belongs to the technical field of composite materials and discloses a preparation of a magnesium-aluminum bimetal oxide modified straw biomass charcoal composite material. The preparation method comprises the following steps of: soaking crushed straws in a sodium hydroxide solution, removing impurities, cleaning the crushed straws with deionized water to obtain yellow filamentous fibers, adding the yellow filamentous fibers into an acetic acid acidified sodium chlorite solution, performing decolorizing, cleaning, and drying to obtain SF; preparing an aluminum nitrate solution, soaking the SF for 4-24 h and then performing filtering, performing high-temperature calcination in a nitrogen atmosphere to obtain Al2O3 / SF; and dissolving magnesium nitrate hexahydrate, Al2O3 / SF and hexamethylenetetramine in deionized water according to a solid-to-liquid ratio of (0.3-3.0) g: (0.2-1.8) g: (0.05-1.3) g: (50-200) mL, reacting at 60-180 DEG C for 6-48 hours, and calcining at high temperature in the nitrogen atmosphere to obtain Mg-Al / SF. According to the method, the waste straws are used as a biomass resource, the Mg-Al / SF is prepared through a simple hydrothermal and calcining method, efficient removal of phosphorus in the wastewater is achieved under the condition that the use amount is very small, the material can be recycled, the preparation cost is reduced to the maximumextent, and the adsorption performance is improved.
Owner:JIANGSU UNIV

Ammonia gas molecularly-imprinted adsorbent for separating gas mixture produced in aerobic composting of sludge and recovering ammonia gas, and preparation method thereof

The invention provides an ammonia gas molecularly-imprinted adsorbent for separating a gas mixture produced in aerobic composting of sludge and recovering ammonia gas, and a preparation method thereof. The preparation method comprises the following steps: adding ammonia water and an acrylic acid functional monomer into a solvent, and carrying out uniform mixing; adding an azodiisobutyronitrile initiator and an ethylene glycol dimethacrylate cross-linking agent into the formed system, and carrying out uniform mixing; carrying out a free radical polymerization reaction, and collecting sediments;ultrasonically cleaning the sediments to remove a template and a reaction solvent; transferring the eluted sediments into a sulfuric acid solution with a pH value of 0.5, carrying out sealing, and then carrying out a reaction under stirring to hydrolyze a part of ester-based functional groups in the cross-linking agent into carboxyl functional groups; and carrying out washing with deionized water, and performing drying under vacuum to obtain the adsorbent. The adsorbent prepared in the invention has good adsorption selectivity on ammonia gas in gas mixture produced in the composting of sludge, is low in the adsorption capacity of dimethyl sulfide and dimethyl disulfide is low, and realizes efficient separation of ammonia gas, dimethyl sulfide and dimethyl disulfide.
Owner:BEIJING FORESTRY UNIVERSITY

Novel heavy metal ion plant sorbent and preparation method and use method thereof

The invention discloses a novel heavy metal ion plant adsorbent, and a preparation and application method thereof. The Method is characterized by taking overground part organ of false cocklebur, an invasive plant, the growing period of which is 60 to 90 days, as a raw material, and then homogenizing the overground part organ of the false cocklebur after collection to lead the concentration thereof to be 10g / L to 30g / L and the granularity thereof to be 200 to 800 meshes. The obtained adsorbent homogenate is mixed with the sewage the heavy metal ion concentration of which is 20mg / L to 200mg / L; relative adsorption conditions are adjusted to that the pH value is equal to 5.0 to 7.0, and the adsorbent homogenate and the sewage are put in an adsorption device and mixed for adsorption; the adsorption effect is better. The heavy metal ion plant adsorbent has the advantages of available raw material, simple preparation and adsorption processes, low cost and applicability to treatment of various heavy metal sewages.
Owner:NORTHEAST FORESTRY UNIVERSITY +1

Preparation of magnesium-aluminum composite oxide modified coconut shell biomass charcoal adsorption material and application of magnesium-aluminum composite oxide modified coconut shell biomass charcoal adsorption material to removal of phosphorus in wastewater

The invention belongs to the technical field of composite materials, and relates to a preparation method of a modified biomass charcoal material, in particular to a preparation method of a magnesium-aluminum composite oxide modified coconut shell biomass charcoal adsorption material. The method comprises the following steps: soaking the crushed coconut shell in lye to remove impurities, washing the material, adding acetic acid acidified chlorous acid to decolorize, cleaning and drying to obtain coconut shell fibers; continuously soaking in an aluminum nitrate solution, filtering, drying, and calcining at 200-800 DEG C in a nitrogen atmosphere to obtain Al2O3 / CSF; dissolving magnesium nitrate hexahydrate, Al2O3 / CSF and hexamethylenetetramine in deionized water according to a solid-to-liquidratio of (0.3-1.8)g: (0.1-0.9)g: (0.05-1.0)g: (50-200)mL, reacting at 60-180 DEG C for 6-48 hours, filtering, washing, and calcining at high temperature to obtain Mg-Al / CSF. The common waste coconutshells are used as biomass resources, the product is prepared through hydrothermal and calcining methods, phosphorus in wastewater can be efficiently removed, materials can be recycled, the preparation cost is reduced to the maximum extent, and the adsorption performance is improved.
Owner:JIANGSU UNIV

Method of removing thiophene sulfur from fuel oil by Ag2O/SiO2-Al2O3-graphene oxide composite aerogel

The invention relates to a method for removing thiophene sulfur from fuel oil by Ag2O / SiO2-Al2O3-graphene oxide composite aerogel and belongs to the technical field of fuel oil processing. The methodis characterized in that the Ag2O / SiO2-Al2O3-graphene oxide composite aerogel is prepared by taking silicon orthosilicate, tetraethyl orthosilicate, silica sol, water glass and the like as silicon sources, taking silver acetate, silver nitrate and the like as silver sources and taking aluminum nitrate, aluminum acetate and aluminum oxalate as aluminum sources and adopting a sol-gel and atmosphericpressure drying method. The Ag2O / SiO2-Al2O3-graphene oxide composite aerogel is quantitatively packed in a fixed bed adsorption device, simulated gasoline containing the thiophene sulfur is injectedat a certain temperature and airspeed, and the simulated gasoline after absorption is collected at an outlet in the lower end of a reaction device for chromatographic analysis. Results show that the Ag2O / SiO2-Al2O3-graphene oxide composite aerogel has good adsorption properties for the thiophene sulfur. The Ag2O / SiO2-Al2O3-graphene oxide composite aerogel absorbent in the method provided by the invention is simple in preparation method, low in cost, capable of reuse for many times, high in economic benefits, environmentally friendly, mild in absorption conditions and low in requirements for absorption equipment.
Owner:ZHEJIANG UNIV OF TECH

Method for treating phenolic wastewater in petrochemical engineering

The invention discloses a method for treating phenolic wastewater in petrochemical engineering. The method comprises the following steps: a) resin treatment; b) pH regulation of wastewater; c) dephenolization treatment of wastewater; d) biochemical treatment of wastewater; and e) separation of phenolic substances. According to the method disclosed by the invention, phenolic substances harmful to microbes can be removed, and the recovered phenolic substances can serve as raw materials in other industries. The method realizes innocent treatment of the phenolic wastewater, and has high environmental protection benefits. Meanwhile, the treatment method is simple, the treatment cost is low, and the adsorption condition is mild.
Owner:ZHEJIANG SINOU ENVIRONMENTAL PROTECTION EQUIP CO LTD

Preparation of copper-aluminum bimetal oxide modified bamboo charcoal fiber composite material and application of composite material in removing ammonia nitrogen from water

The invention belongs to the technical field of composite materials, relates to the preparation of modifier biomass charcoal, and specifically relates to a preparation method of a copper-aluminum bimetal oxide modified bamboo charcoal fiber composite material. The method comprises: immersing crushed bamboo leaves in a sodium hydroxide solution to remove impurities, adding acetic acid acidified sodium hypochlorite, and obtaining white fiber; preparing aluminum nitrate solution, conducting filtration and drying after immersing the white fiber, and performing calcination in nitrogen; and dissolving copper nitrate, Al2O3 / BF and hexamethylenetetramine in deionized water according to a solid-to-liquid ratio of 0.1-1.5 g : 0.1-0.9 g : 0.05-1.0 g : 50-200 mL, conducting stirring, hydrothermal reaction at 60-150 DEG C for 6-12 hours, filtration and washing, and then performing calcination at 250-600 DEG C for 2-8 hours after drying to obtain the composite material. According to the present invention, Cu-Al / BF is applied to remove ammonia nitrogen pollutants in water bodies. In the invention, bamboo leaf biomass resources are utilized to prepare Cu-Al / BF through hydrothermal and calcination,the ammonia nitrogen in the water bodies is effectively removed at room temperature, the material can be recycled, the preparation cost is minimized, and the adsorption performance is improved.
Owner:JIANGSU UNIV

Method for removing thiophene sulfide in fuel oil by using SiO2-APTES-Ag composite aerogel as adsorbent

ActiveCN110354809AUnhindered accessTypical mesoporous characteristic pore diameterOther chemical processesHydrocarbon oils refiningTriethoxysilaneFixed bed
The invention discloses a method for removing thiophene sulfide in fuel oil by using SiO2-APTES-AG composite aerogel as an adsorbent. The method uses ethyl orthosilicate as a silicon source, 3-aminopropyltriethoxysilane as an ammonia source, silver nitrate as a silver source, adopts a sol gel-atmospheric drying method to prepare SiO2-APTES-AG composite aerogel, quantitatively fills the SiO2-APTES-AG composite aerogel in a fixed bed adsorption device, injects simulated gasoline containing thiophene sulfide at a certain temperature and space velocity, collects the adsorbed simulated gasoline atthe lower end outlet of the reaction device, and carries out chromatographic analysis. The results show that SiO-2-APTES-Ag composite aerogel has good adsorption performance for thiophene sulfide. Thepreparation method of the SiO2-APTES-Ag composite aerogel adsorbent in the invention is simple and low in cost, the adsorbent can be repeatedly used, has high economic benefits, is environment-friendly, has mild adsorption conditions and low requirements on adsorption equipment.
Owner:ZHEJIANG UNIV OF TECH

Method of removing thiophene sulfides in fuel oil by adsorption of composite of Cu2O/SiO2-Al2O3-GO and aerogel

The invention discloses a method of removing thiophene sulfides in fuel oil by adsorption of composite of Cu2O / SiO2-Al2O3-GO and aerogel. Composite of Cu2O / SiO2-Al2O3-graphene oxide and aerogel is used as an adsorbent herein to fill a fixed-bed adsorbing device; simulation gasoline with thiophene sulfides is introduced under 0-100 DEG C at the air velocity of 1-10 h<-1>; simulation gasoline with asulfur concentration of 1 ppm and below is attained by adsorption. The composite of Cu2O / SiO2-Al2O3-graphene oxide and aerogel is utilized herein; Al3+ is introduced in aerogel silicon framework structure to generate L acid; lone-pair electrons on S atoms of the thiophene sulfides are of basicity, and the center of the L acid in aerogel substrate SiO2-Al2O3 can adsorb the thiophene compounds under acidic and basic action; synergy of pi complexing action and acidic-basic action helps further improve the adsorption of thiophene compounds; adsorbing effect is improved, and the sulfur concentration of the thiophene sulfides in the simulation gasoline may reach 1 ppm and below.
Owner:ZHEJIANG UNIV OF TECH

A kind of coal tar pretreatment method and its device

The invention discloses a method or device for pretreating coal tar. The method for pretreating the coal tar includes the following steps of: (1) performing contact between the coal tar and adsorbentin a fluidized state so as to generate an effect of adsorption, wherein the adsorbent is semi-coke and / or kaolin; (2) after the adsorption in the step (1) is completed, performing sedimentation and layering, and collecting an upper-layer liquid phase; (3) and performing solid-liquid separation on the upper-layer liquid phase, and collecting a liquid phase to obtain purified coal tar. The method for pretreating the coal tar has a simple procedure, mild adsorption conditions and low-cost pretreatment, and colloid and asphaltene in the coal tar can be removed effectively. The device has simple connection and easy assembly, and the purpose of removal of the colloid, asphaltene and other solid impurities in the coal tar can be achieved effectively.
Owner:BEIJING HUASHI UNITED ENERGY TECH & DEV

Method for removing thiophene sulfides in fuel oil by using SiO2-MTES-APTES-Ag composite aerogel

The invention discloses a method for removing thiophene sulfides in fuel oil by using SiO2-MTES-APTES-Ag composite aerogel, and belongs to the technical field of fuel oil processing. The method comprises the following steps: using tetraethyl orthosilicate as a silicon source and 3-aminopropyltriethoxysilane as an ammonia source, introducing methyltriethoxysilane for modification, using silver nitrate as a silver source, preparing the SiO2-MTES-APTES-Ag composite aerogel through a sol gel-normal pressure drying process, quantitatively filling a fixed bed adsorption device with the SiO2-MTES-APTES-Ag composite aerogel, injecting simulated gasoline containing thiophene sulfides at a certain temperature and a certain air speed, collecting the adsorbed simulated gasoline from the lower end outlet of the reaction device, and performing chromatographic analysis. A result shows that the SiO2-MTES-APTES-Ag composite aerogel has an excellent adsorption property for thiophene sulfides. The preparation method of the SiO2-MTES-APTES-Ag composite aerogel adsorbent has the advantages of simplicity, and low cost; and the adsorbent has the advantages of repeatability, high economic benefit, environmental friendliness, mild adsorption conditions, and low requirements for the adsorption device.
Owner:ZHEJIANG UNIV OF TECH

Preparation method of bacterial cellulose LDH composite adsorption material

The invention relates to the technical field of sewage treatment, and in particular, relates to a preparation method of a bacterial cellulose LDH composite adsorption material, wherein the preparationmethod comprises a synthesis step and a combination step. In the synthesis step, an aluminum salt solution and a magnesium salt solution are dropwise added into a bacterial cellulose dispersion liquid, a coprecipitator is used for in-situ synthesis of layered double hydroxides on the surface of bacterial cellulose, and the mixture is made into a mixed solution. In the combination step, a catalystand a binding reagent are added into the mixed solution, and a product is obtained after a catalytic reaction. The bacterial cellulose / LDH composite adsorption material prepared by the preparation method has an electrostatic attraction effect, an ion exchange effect, a chelating effect, a physical adsorption effect and the like on heavy metal ions in a polluted water body, overcomes the defect ofa single bacterial cellulose adsorption mode, improves the adsorption effect, and can solve the technical problem that a layered double hydroxide material is unstable in an acidic water environment.
Owner:TAIYUAN UNIVERSITY OF SCIENCE AND TECHNOLOGY

use sio 2 -Mtes-aptes-ag composite airgel method for removing thiophene sulfides from fuel oil

The invention discloses the use of SiO 2 The invention discloses a method for removing thiophene sulfides in fuel oil with MTES-APTES-Ag composite airgel, belonging to the technical field of fuel oil processing. The method uses tetraethyl orthosilicate as a silicon source, 3-aminopropyltriethoxysilane as an ammonia source, and introduces methyltriethoxysilane for modification, uses silver nitrate as a silver source, and uses sol-gel Glue—SiO obtained by drying under normal pressure 2 ‑MTES‑APTES‑Ag composite airgel, quantitatively filling it in a fixed bed adsorption device, injecting simulated gasoline containing thiophene sulfides at a certain temperature and space velocity, and collecting the adsorption at the outlet of the lower end of the reaction device After that, the simulated gasoline was subjected to chromatographic analysis. The results showed that SiO 2 ‑MTES‑APTES‑Ag composite airgel has good adsorption properties for thiophene sulfides. SiO in the present invention 2 The ‑MTES‑APTES‑Ag composite airgel adsorbent has a simple preparation method and low cost. The adsorbent can be reused many times, has high economic benefits, is environmentally friendly, has mild adsorption conditions, and has low requirements for adsorption equipment.
Owner:ZHEJIANG UNIV OF TECH
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