CN106391029A

CN106391029A - Preparation method and application of carbon nanofiber-bimetal composite catalyst

Info

Publication number: CN106391029A
Application number: CN201610920829.2A
Authority: CN
Inventors: 宋敏; 卫月星; 于磊; 毛瑞鑫; 刘洋; 徐玉叶
Original assignee: Southeast University
Current assignee: Southeast University
Priority date: 2016-10-21
Filing date: 2016-10-21
Publication date: 2017-02-15
Anticipated expiration: 2036-10-21
Also published as: CN106391029B

Abstract

The invention discloses a preparation method and an application of a carbon nanofiber-bimetal composite catalyst. Specifically, alkaline earth metal salt is mixed in a spinning solution for spinning, proto-filaments are mixed with nitric acid, and transition metal salt is impregnated. Obtained bimetal composite proto-fibers are subjected to peroxidation and carbonization, and the carbon nanofiber-bimetal composite catalyst is prepared. Active components are fixed under the mutual action of alkaline earth metal and transition metal embedded in the fibers at the high temperature during spinning, high dispersion and high-temperature sintering resistance of active components on the carrier surface are guaranteed, and meanwhile, the conversion rate is ensured to be about 95% at 800 DEG C by using the characteristic that alkaline earth metal adsorbs activated CO2 in the CH4/CO2 reforming process.

Description

A kind of preparation method and application of carbon nano-fiber-double-metal composite catalyst

Technical field

The invention belongs to composite catalyst preparation and gasification reforming art, it is related to a kind of carbon nano-fiber/bimetallic and is combined The preparation method of catalyst and its in CH₄/CO₂Application in reforming process.

Background technology

Remain high and rugged environment pollution further with petroleum resources increasingly depleted, oil price, exploitation cleaning, Cheap fuel source become one need badly faced by problem.Fuel the cleanest at present is natural gas, and its pollution is little (about The 1/800 of coal, the 1/40 of oil), it is also preferable industrial chemicals, and methane is the main component (90%) of natural gas.Its Stable chemical nature, has environmental friendliness, inexpensively, the advantage such as resource abundance.It rationally utilizes and has been subject to various countries' research work The extensive concern of person.Meanwhile, the global extreme climate problem that the discharge of great amount of carbon dioxide is brought also has caused section The strong interest of educational circles, national governments and the public.For this reason, how rationally to utilize CH₄, reduce CO₂Emission problem be increasingly becoming The top-priority problem in countries in the world.Synthesizing gas by reforming methane with co 2 is economical and environmentally friendly worth because it is potential and forms Emphasis for research both at home and abroad in recent ten years.This process is by CH₄And CO₂Two kinds of abundant greenhouse gases are converted into important change Work material synthesis gas, on the one hand decrease CO₂Discharge, improves the utilization rate of methane resource simultaneously.By this reaction gained Synthesis gas hydrogen charcoal is relatively low frequently, more suitable for F-T synthesis, alleviation industrial chemicals and energy crisis is significant.

In recent decades, Chinese scholars have been carried out the research work of detailed system to methane reforming with carbon dioxide Make, mainly in terms of the carrier of catalyst, active component, auxiliary agent, carbon distribution and reaction mechanism etc., carry out extensive and deep grinding Study carefully and inquire into.Because noble metal has higher carbon dissolution than common metal, show preferably activity and anti-carbon performance, state Outer more to noble metal catalyst research.And domestic from economic benefit consideration, research is then concentrated mainly on non-precious metal catalyst On, the research to non-precious metal catalyst shows, their active orders Ni to reforming reaction>Co>Cu>Fe.Because Ni has Relatively high activity and low price, thus cause the attention of numerous researcheres.But supported nickel catalyst have one very big Shortcoming：Carbon distribution makes catalyst activity reduce.And during the course of the reaction, due to the rising of temperature, easily sinter.Therefore, Developing new anti-carbon deposit reforming catalyst and improve operating condition reducing carbon deposit is highly important research direction.

Because Carbon Materials have many excellent properties, researcher starts with Carbon Materials (activated carbon, CNT, semicoke) Do study on the carrier methane reforming reaction by using carbon dioxide.The higher mechanical strength of carbon fiber, thermally-stabilised and larger specific surface area makes It starts to be taken seriously as catalyst carrier.Metal can be made very using the fibril that method of electrostatic spinning prepares alkaline including earth metal Good fixation, is dispersed in carrier surface, can effectively suppress its sintering in hot stage.But, CH₄/CO₂Reforming reaction one As occur during carrier surface, electrostatic spinning, metallic is dispersed on fibre structure so that surface metal levels Relatively low.By infusion process, active metal component is supported on the fibril containing alkaline-earth metal, both can be contained using surface height The active center of amount ensures the high efficiency of reaction, again can be using the interaction between bimetallic and alkaline-earth metal to CH₄, CO₂ Surface adsorption effect, be capable of significantly more efficient improve the service life of catalyst and activity, reduce sintering of catalyst.

Content of the invention

Technical problem：The invention aims to solving existing catalyst in CH₄/CO₂Easy-sintering in reforming process, makes With the life-span is low and infusion process preparation process in easily cause carrier duct and block the shortcomings of, a kind of carbon nano-fiber/bimetallic is provided The preparation method of composite catalyst, prepares the nanofiber precursor of alkaline including earth metal by method of electrostatic spinning, by precursor mixing nitre Acid, transition metal salt carries out impregnating, washs to neutral, drying.Gained bimetallic is combined fibril and obtains final product after pre-oxidation, carbonization Carbon nano-fiber/double-metal composite catalyst.Gained catalyst maintains the flourishing pore structure in carbon fiber composite surface and height The advantage of surface area, make use of alkaline-earth metal to CH in application process₄, CO₂Preferably absorption property, the height in active center Effect catalytic action and the interphase interaction anti-carbon of bimetallic, the advantage of anti-sintering.

Technical scheme：A kind of preparation method of carbon nano-fiber-double-metal composite catalyst of the present invention is using being embedded in fibre The interaction when alkaline-earth metal in dimension and transition metal high temperature fixing active component is it is ensured that carrier surfactant component High degree of dispersion and anti-agglutinatting property, utilize alkaline-earth metal adsorption activation CO simultaneously₂Improve reforming efficiency, specifically include following steps：

1). by alkali salt, lignin, organic solvent, 5～15wt% polyvinyl alcohol, at 60 DEG C～90 DEG C Lower stirring 0.5～3h is configured to the spinning liquid of alkaline including earth metal；

2). it is 18～22KV in operating voltage, the flow velocity of spinning liquid is 0.4～1.5ml/h, accepts the spinning for 15cm for the distance It is spun into the composite nano fiber precursor of alkaline including earth metal salt under the conditions of silk；

3). more above-mentioned composite fiber precursor mixed nitrate, transition metal salt solution are carried out impregnating 6～24h, be evaporated rear institute Obtain complex and be 150～270 DEG C in temperature, pre-oxidation treatment 3～10h under air conditionses, it is 600～900 DEG C in temperature, nitrogen Carbon nano-fiber-double-metal composite catalyst is obtained after carbonization 1～2h under atmosphere.

Wherein:

Described alkali salt is Ba, one of Mg, Ca.

Described organic solvent includes acetic acid, one of ethanol or DMF solution.

Described by alkali salt, lignin, organic solvent, 5～15wt% polyvinyl alcohol, its mixed proportion For alkali salt：Lignin：Organic solvent：5～15wt% polyvinyl alcohol=0.01～2wt%：5g：15ml：5ml.

Step 3) in transition metal include in Cu, Fe, Mn, Ni, In or Co any one.

The present invention also resides in carbon nano-fiber-double-metal composite catalyst in CH₄/CO₂Application in reforming process, specifically Comprise the following steps：

1.) take 0.2～1g composite catalyst in fixed bed reactors, nitrogen atmosphere be warming up to 500～600 DEG C, It is passed through hydrogen reducing 0.5～1.5h；

2., after) reduction terminates, it is passed through CH₄：CO₂：N₂=1：1：1, total flow is the gaseous mixture of 150～300ml/min, Carry out reforming reaction at 800 DEG C, gas collection its catalytic effect of gas chromatographic analysiss.The present invention by alkaline-earth metal, transition metal with Lignin-base nano carbon fibre passes through fabricated in situ and follow-up dipping forms carbon nano-fiber/bimetallic complex, composite fibre Prepare the catalyst of high-specific surface area and catalytic performance by pre-oxidation, carbonization and activation.Described organic solvent is as spinning The solvent of silk liquid, can substantially increase the electric conductivity of spinning liquid.In dipping process, added nitric acid enables transition metal to bear well Being loaded on carrier, the pore structure of fiber surface being effectively increased so that generating in fiber surface in follow-up carbonisation simultaneously Flourishing pore structure and high-specific surface area.

The present invention is to CH₄/CO₂Reforming reaction has good catalytic effect, and this invention needed raw material is cheap and easy to get, preparation Method is simple to operation, and this invention provides preferable thinking to metal-based catalyst high temperature easy-sintering.

Beneficial effect：

(1) adopt lignin as raw material, it is possible to achieve Liginon Resourceization utilizes, and reduces being prepared into of carbon nano-fiber This, remarkable in economical benefits；

(2) using first electrostatic spinning, the method impregnating afterwards prepares the catalyst of bimetallic load, more general infusion process metal Using less, more rationally.And the homodisperse metallic in surface being formed in spinning process can be used as impregnating below In journey, the load centre of transition metal, so that required active component also can be dispersed in carrier surface, reduces duct and blocks up Plug, modifies the bimetallic in material surface, not only maintains the flourishing pore structure in carbon fiber composite surface and high-specific surface area Feature, and highlight its good catalysis activity, embody difunctional feature.

(3) gained carbon nano-fiber/double-metal composite catalyst of the present invention in fixed-bed catalytic device to CH₄/CO₂Instead Catalytic reforming reaction should be carried out, the presence of alkaline-earth metal on carbon fiber has beneficial to CH₄, CO₂Surface adsorption, the depositing of transition metal Significantly improve in the conversion ratio making reactant.The fixation of the interaction between bimetallic and carbon fiber makes high temperature Stage still keeps good catalytic effect and anti-agglutinatting property.

Brief description

Fig. 1 show the N2 adsorption curve that the present invention prepares carbon nano-fiber/bimetallic complex.

Specific embodiment

Described below is the preferred embodiment of the present invention it is noted that for those skilled in the art For, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications are also considered as Protection scope of the present invention.

Case study on implementation 1

(1) first weigh a certain amount of magnesium sulfate to be dissolved in acetic acid solution, then weigh the mixing of 3～5g lignin, will be above-mentioned mixed Close solution heated and stirred, setting outlet temperature is 60～80 DEG C, adds the 10wt%'s of 3～5mL in whipping process with needle tubing Poly-vinyl alcohol solution.Close heater after continuing stirring a period of time afterwards, be naturally cooling to room temperature and be transferred in syringe；

(2) above-mentioned spinning liquid is carried out on electrostatic spinning machine spinning operation, by the nanofiber and the Ni (NO that are obtained₃)₂Mixed Close steeped overnight, be evaporated.Then it is washed to neutrality, dry.

(3) complex after the drying of above-mentioned gained is placed in horizontal pipe stove, is 150mL/min in air velocity, rise Warm speed is constant temperature pre-oxidation a period of time after being warming up to 200～250 DEG C under 0.3～1 DEG C/min, after being down to room temperature, in nitrogen Atmosphere encloses middle intensification carbonization；

(4) go above-mentioned prepared carbon nano-fiber/bimetallic catalyst to take to be placed in right amount in fixed-bed catalytic device, Carry out CH in the case of 800 DEG C_4/CO₂Reform and test.

Claims

1. a kind of preparation method of carbon nano-fiber-double-metal composite catalyst is it is characterised in that using the alkali being embedded on fiber The fixing active component of interaction when earth metal and transition metal high temperature is it is ensured that the high degree of dispersion of carrier surfactant component And anti-agglutinatting property, utilize alkaline-earth metal adsorption activation CO simultaneously₂Improve reforming efficiency, specifically include following steps：

1）. by alkali salt, lignin, organic solvent, 5 ~ 15wt% polyvinyl alcohol, at 60 DEG C ~ 90 DEG C stir 0.5 ~ 3h is configured to the spinning liquid of alkaline including earth metal；

2）. it is 18 ~ 22KV in operating voltage, the flow velocity of spinning liquid is 0.4 ~ 1.5ml/h, accepts the spinning bar for 15cm for the distance It is spun into the composite nano fiber precursor of alkaline including earth metal salt under part；

3）. more above-mentioned composite fiber precursor mixed nitrate, transition metal salt solution are carried out impregnating 6 ~ 24h, be evaporated rear gained multiple Compound is 150 ~ 270 DEG C in temperature, pre-oxidation treatment 3 ~ 10h under air conditionses, is 600 ~ 900 DEG C in temperature, under nitrogen atmosphere Carbon nano-fiber-double-metal composite catalyst is obtained after carbonization 1 ~ 2h.

2. a kind of carbon nano-fiber-double-metal composite catalyst according to claim 1 preparation method it is characterised in that Described alkali salt is Ba, one of Mg, Ca.

3. a kind of carbon nano-fiber-double-metal composite catalyst according to claim 1 preparation method it is characterised in that Described organic solvent includes acetic acid, one of ethanol or DMF solution.

4. a kind of carbon nano-fiber-double-metal composite catalyst according to claim 1 preparation method it is characterised in that Described by alkali salt, lignin, organic solvent, 5 ~ 15wt% polyvinyl alcohol, its mixed proportion is, alkaline earth gold Belong to salt：Lignin：Organic solvent：5 ~ 15wt% polyvinyl alcohol=0.01 ~ 2wt%：5g：15ml：5ml.

5. a kind of carbon nano-fiber-double-metal composite catalyst according to claim 1 preparation method it is characterised in that Step 3）In transition metal include in Cu, Fe, Mn, Ni, In or Co any one.

6. a kind of a kind of carbon nano-fiber-double-metal composite catalyst of employing claim 1 methods described preparation is in CH₄/CO₂ Application in reforming process.

7. a kind of carbon nano-fiber-double-metal composite catalyst according to claim 6 is in CH₄/CO₂In reforming process Application is it is characterised in that specifically include following steps：

1.）Take 0.2 ~ 1g composite catalyst in fixed bed reactors, nitrogen atmosphere is warming up to 500 ~ 600 DEG C, is passed through hydrogen Gas reduces 0.5 ~ 1.5h；

2.）After reduction terminates, it is passed through CH₄：CO₂：N₂=1：1：1, total flow is the gaseous mixture of 150 ~ 300ml/min, at 800 DEG C Carry out reforming reaction, gas collection its catalytic effect of gas chromatographic analysiss.