CN100336580C - Ceramic-metal composite, composite structure for transporting oxide ions, and composite having sealing property - Google Patents

Ceramic-metal composite, composite structure for transporting oxide ions, and composite having sealing property Download PDF

Info

Publication number
CN100336580C
CN100336580C CNB2005100914193A CN200510091419A CN100336580C CN 100336580 C CN100336580 C CN 100336580C CN B2005100914193 A CNB2005100914193 A CN B2005100914193A CN 200510091419 A CN200510091419 A CN 200510091419A CN 100336580 C CN100336580 C CN 100336580C
Authority
CN
China
Prior art keywords
aforementioned
oxide
oxygen
pottery
oxide ion
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CNB2005100914193A
Other languages
Chinese (zh)
Other versions
CN1743056A (en
Inventor
伊藤涉
佐近正
堂野前等
永井徹
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Steel Corp
Original Assignee
Nippon Steel Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nippon Steel Corp filed Critical Nippon Steel Corp
Publication of CN1743056A publication Critical patent/CN1743056A/en
Application granted granted Critical
Publication of CN100336580C publication Critical patent/CN100336580C/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/30Hydrogen technology
    • Y02E60/50Fuel cells

Landscapes

  • Separation Using Semi-Permeable Membranes (AREA)
  • Compositions Of Oxide Ceramics (AREA)
  • Ceramic Products (AREA)
  • Non-Insulated Conductors (AREA)
  • Fuel Cell (AREA)

Abstract

The present invention establishes a sealing technique which can easily form a seal in a high temperature region of 800 ℃ or higher and is excellent in reliability and heat cycle characteristics, and provides a composite body which can be suitably used for a production apparatus for pure oxygen, oxygen-enriched air or the like, a membrane reactor typified by partial oxidation of hydrocarbon gas, a solid oxide fuel cell, an oxygen purification apparatus, a heat exchanger or the like. The present invention can improve the possibility of practical use in a wide range of fields in which improvement of sealing performance has been a bottleneck and development thereof has been delayed. In particular, application to a production apparatus for pure oxygen, oxygen-enriched air, or the like, a membrane reactor typified by partial oxidation of hydrocarbon gas, a solid oxide fuel cell, an oxygen purification apparatus, a heat exchanger, or the like can greatly contribute to improvement in development speed.

Description

Ceramic metal composite bodies, oxide ion are carried with complex structure body and the complex of sealing are arranged
The application is that the application number submitted to September 7 calendar year 2001 is dividing an application of 01815345.3 Chinese patent application.
Technical field
The present invention relates to ceramic metal composite bodies, oxide ion and carry with complex structure body and the complex of sealing is arranged, particularly with the barrier film reactor, the oxygen separator that have used them, reach oxide ion delivery application device etc. and be object.
Background technology
About in the Sealing Technology that surpasses under 800 ℃ the high-temperature area, illustrate as follows.
At first, narration pure oxygen manufacturing and oxygen enrichment air are made.This technology is brought huge economic effect in the field of a large amount of oxygen consumed such as ironmaking glass cement by supplying with cheap oxygen or oxygen enrichment air.Use the mixed conducting oxide that has oxide ion conductive and electronic conductivity simultaneously to make the principle of pure oxygen or oxygen enrichment air, be based on by with 2 kinds of different gases of mixed conducting oxide-isolated partial pressure of oxygen, make the phenomenon that oxygen sees through with the form of oxide ion from the low side of the high side direction of partial pressure of oxygen oxide.
For example, contain oxygen gas mixture (air etc.), form, come from containing the oxygen gas mixture oxygen separation than reclaiming the high partial pressure of oxygen of gas (pure oxygen or oxygen enrichment air) by compression.The efficient of oxygen separation depends on the thickness of mixed conducting oxide, poor, and the oxide ion conductivity of partial pressure of oxygen that is added in two sides, but the conductivity that obtains at last changes the therefore practical temperature province of selection more than 800 ℃ that go up significantly according to the temperature difference.In this temperature province, when gas tightness is low, produces resulting oxygen purity and reduce, perhaps the manufacturing efficient of oxygen enrichment air reduces this problem.
As the 2nd example, narrated as the barrier film reactor of representative about the partial oxidation of the appropriate hydrocarbon gas of similarly having used the mixed conducting oxide.From the viewpoint of effective utilization of natural resources, natural gas liquids turning sludge into fuel technology (gas to liquid=GTL) receives publicity, but this technology is important as its key technologies.The principle of barrier film reactor is: by with mixed conducting oxide-isolated oxygen-containing gas (for example air) and appropriate hydrocarbon gas (for example being the natural gas of principal component with methane), from air one side direction appropriate hydrocarbon gas one side, oxygen sees through in oxide, on the oxide surface on hydrocarbon gas side, make the appropriate hydrocarbon gas oxidation, obtain forming gas (mist of carbon monoxide and hydrogen) and partial oxidation body etc.The same with above-mentioned oxygen manufacturing, select more than 800 ℃ as operating temperature.In this temperature province, if gas tightness is low, then not only becomes the big essential factor that reaction efficiency reduces, and under opposite extreme situations, also cause the completing combustion of hydrocarbon at a heat, also can produce the danger of blast.
As the 3rd example, for having used because be the generation mode of generating efficiency height, environmental type and the SOFC of the oxide ion conductive oxide that obtains paying close attention to is narrated.The advantage that this technology has is: because make the fuel cell hot operation, thus if used heat is used for generating and waste heating system, then finally be expected to obtain 70 mouthful 80% complex energy efficient, so research and development now are in vogue.The operation principle of SOFC is with fuel gas and air such as oxide ion conductive oxide-isolated hydrogen, moves by oxide ion in oxide and obtains electric power.The zirconia (YSZ) of the stabilized with yttrium oxide of now developing is known because in the oxide ion conductive oxide high ionic conductance is arranged.But it is lower than above-mentioned mixed conducting oxide.Therefore, having used the operating temperature district of the SOFC of YSZ is more than 900 ℃.In present technique, if gas tightness is low, then become the maximum reason that power output reduces, perhaps might cause this worst state of affairs of blast.
Like this, have very important significance, investigated all encapsulating methods, but its majority can be seen in the field of the fuel cell of developing in the Sealing Technology that surpasses 800 ℃ high-temperature area.
Under the situation of the fuel cell of flat structure, need be with sealing between battery unit and the dividing plate (or female connector).As encapsulant, known various glass such as ceramic bonding agent, pyrex and sodium calcium silicate glass, hear resistance metal liner arranged, burn till sintered body of making at the oxide micropowder end etc.
Open in the flat 5-325999 communique the spy and to disclose: by the ratio of components of control sodium calcium silicate glass, form matrix in the coexistence of the solid-liquid more than the solidus, below liquidus curve scope solid phase, liquid phase is brought into play 2 yuan of encapsulants that the oxide more than the system constitutes of function as encapsulant.
Open in the flat 6-231784 communique the spy and to disclose: with the metal forming that strengthens with ceramic fibre is aggregate, makes this aggregate keep the encapsulant of sodium calcium silicate glass.
Open in the flat 8-7904 communique the spy and to disclose: by heat treatment dividing plate in oxygen atmosphere in advance, form oxide skin(coating), improve dividing plate and vitreous encapsulant adaptability, improve sealing on the surface.
Open in the flat 9-115530 communique the spy and to disclose: the top and bottom at dividing plate have recess and jut respectively, make their chimeric dovetail joint designs, between dividing plate and solid electrolyte, insert the liner (sheet packing, gasket seal) of hear resistance metal simultaneously, make mutual face contact, guarantee bubble-tight method.
Open flat 10-116624 communique the spy, the spy opens in the flat 10-12252 communique and the spy opens flat 11-154525 communique and discloses: the sintered body of material powder that will be principal component with the oxide ultrafine particle thing with fusing point higher than the operating temperature of solid electrolyte fuel cell is as the solid electrolyte fuel cell of encapsulant.
Open in the flat 9-129251 communique the spy and to disclose: in solid electrolyte fuel cell, will contain the material of composition of 2 kinds of materials that will engage simultaneously as the encapsulating method of encapsulant.
Above-mentioned technology is an object with plate fuel cell, but then, under the situation of the fuel cell of cylinder type, need and keep columnar unit sealing between its dividing plate.
Open flat 5-29010 communique the spy, the spy opens in the flat 5-29011 communique and discloses: with cylindrical shape unit and flange (flange; Flange) between, and flange and dividing plate between sealing in use the solid electrolyte fuel cell of glass.
Again, about the Sealing Technology in the field beyond fuel cell, people such as P.S.Maiya (United States Patent (USP) 5725218) disclose in the barrier film reactor of the partial oxidation that carries out methane, the Sealing Technology between inconel and the electrolyte.As encapsulant, select SrO, B 2O 3, SrFeCo 0.5O xThe mixed-powder of oxide makes it have sealing by being heated fusion.
As mentioned above,, bring huge economic effect, become the key technologies that on the ultra-modem technology of exploitation solution environmental problem, can have simultaneously in the technology that the temperature province that surpasses 800 ℃ is carried out air seal.
, although existing technology huge to the formation input of sealing, is also leaveing some room for improvement aspect reliability and the thermal cycle, so the Sealing Technology that can form sealing and reliability and thermal cycle excellence is easily established in strong hope.
Make Sealing Technology become one of reason of difficult technologies, the coefficient of thermal expansion that the material that results from is intrinsic.Be that reason is, because the serviceability temperature zone is a high temperature very, so, arrive the significant more cause of its difference of high temperature more even the difference of the coefficient of thermal expansion of grafting material is so not big.
At this, about representational material, it is as follows to enumerate linear expansion coefficient.
Perofskite type oxide ion mixed conducting oxide generally has very large linear expansion coefficient.For example, because of the La-Sr-Co-Fe that has high oxygen ion conduction rate to be known is the average coefficient of linear expansion from room temperature to 800 ℃ of mixed conducting oxide, at (La 0.2Sr 0.8) (Co 0.8Fe 0.2) O xSituation under be about 26 * 10 -6/ ℃, at (La 0.2Sr 0.8) (Co 0.5Fe 0.4Cu 0.2) O xSituation under be about 20 * 10 -6/ ℃.Relative therewith, in the metal, stainless steel SUS310S is 17.5 * 10 -6/ ℃ (0-650 ℃ mean value) is because of section's alloy (Incoloy800) is 14.2 * 10 -6About/℃ (0-100 ℃ mean value), coefficient of linear thermal expansion is little; For YSZ, be about 10 * 10 -6/ ℃ (0-1000 ℃ mean value) is littler; As for glass, 1 * 10 -6Before and after/℃ (20-1000 ℃ the mean value), demonstrate minimum linear thermal expansion.
As the prior art that encapsulant uses, is the partial melting that has utilized surpassing 800 ℃ serviceability temperature lower-glass with glass, and can realize the technology of the situation of the liquid sealing that air-tightness is high.
, the glass of fusion is used under the situation of encapsulant, produces and in use melt encapsulant from the junction, perhaps, when the pressure of 2 kinds of gases of isolating resembling above-mentioned pure oxygen manufacturing was inequality, the glass of fusion is the problem of compression resistance difference not.In addition, glass material also has following problem: can not obtain high bond strength; Thereby the rotten of encapsulant such as the evaporation of generation composition and crystallization can not obtain stable properties in the long-term use at high temperature; Thermal expansion difference during low-temperature setting is a reason, can not guarantee sealing through thermal cycle for several times; Be engaged material (particularly oxide solid electrolyte) chemical reaction take place, make to be engaged material degradation.
The spy of front opens flat 10-116624 communique, spy and opens that flat 10-12252 communique, spy are opened flat 11-154525 communique, the spy opens flat 9-129251 communique and United States Patent (USP) 5725218, because the coefficient of thermal expansion of encapsulant is approaching with 2 kinds of material coefficient of thermal expansion rates that will engage, so, at high temperature long-term use solved difference, even also can be given stable gas tightness and heat-resisting cyclicity owing to coefficient of thermal expansion.
; exist the firing temperature of encapsulant to approach 2 kinds of firing temperatures that are engaged material; the high situation of the firing temperature that is engaged material that perhaps compares a side owing to combination in the stage of burning till encapsulant, the problem that material sustains damage because of heat occurs being engaged.In addition, modulation, sintering appropriate seal material are the methods of effort and have sealing also to have problems such as room for improvement, be not used for practicability as yet.
The present invention finishes in view of the above problems, its purpose is, be provided at the high-temperature area more than 800 ℃, can easily form sealing, and the complex and the manufacture method thereof of the sealing characteristics of realization reliability and thermal cycle excellent and the device that has used this complex.
Again, the present invention will realize high efficiency oxonium ion delivery application device by the use form of oxonium ion conveying property pottery is studied.Promptly, its purpose is, the oxonium ion that will be covered on the porous ceramic matrix is carried integrated being fixed in the reaction vessel of tubular body of the dense film of property pottery, provides best oxonium ion to carry and uses complex structure body, is assembled into high efficiency oxonium ion delivery application device in view of the above.
Again, the objective of the invention is to, a kind of ceramet complex structure body and suitable manufacture method thereof are provided, this complex structure body at the junction surface of giving following conjugant and hardware with the bubble-tight while under the high temperature, it is high temperature resistant-the cyclicity excellence of room temperature, and the maintainability excellence.And described conjugant is at least a kind of pottery or the multiple aforementioned ceramic conjugant of selecting from oxygen-ion conductive pottery, electronic conductivity pottery and mixed conducting pottery that engages.
And then, the objective of the invention is to, provide a kind of junction surface of giving aforementioned pottery and aforementioned metal member with the air-tightness under the high temperature, simultaneously the cyclicity excellence of high temperature resistant-room temperature and the liner of maintainability excellence.
Again, the objective of the invention is to, a kind of aforementioned ceramet complex structure body that possesses in basket is provided, at the junction surface of giving aforementioned pottery and aforementioned metal member with the air-tightness under the high temperature simultaneously, the cyclicity of high temperature resistant-room temperature is excellent and improved reliability height, cheapness, the high efficiency oxygen delivery application device of maintainability.
Summary of the invention
Complex with sealing of the present invention, it is characterized in that, be to comprise the structure of the storing section that has a plurality of members of combination and form and the complex of hardware, the aforementioned metal member is filled into aforementioned storing section, and has filled the aforementioned metal member on part or all of the combined boundary portion of the aforementioned components that constitutes the aforementioned structure body.
In the form of the complex with sealing of the present invention, the softening temperature of aforementioned metal member is the low temperature of softening temperature than the aforementioned components that constitutes the aforementioned structure body.
In the form of the complex with sealing of the present invention, the aforementioned metal member is silver or silver alloy.
In the form of the complex with sealing of the present invention, aforementioned each member that constitutes the aforementioned structure body is a material with pottery or metal, with pottery to each other, metal to each other or the form of the combination of pottery and metal constitute structure.
In the form of the complex with sealing of the present invention, the aforementioned components that constitutes the aforementioned structure body is 16 * 10 from the mean coefficient of linear thermal expansion of room temperature to 850 ℃ -6/ ℃ more than, 26 * 10 -6/ ℃ below.
Complex of the present invention, be to comprise the structure of the storing section that has a plurality of members of combination and form and have the silver of the softening temperature lower or the complex of silver alloy than the softening temperature that constitutes his aforementioned components of aforementioned structure, aforementioned each member that constitutes the aforementioned structure body is a material with pottery or metal, form with the pottery and the combination of metal constitutes structure, and the aforementioned components of formation aforementioned structure body is 16 * 10 from the mean coefficient of linear thermal expansion of room temperature to 850 ℃ -6/ ℃ more than, 26 * 10 -6/ ℃ below, a part that constitutes the aforementioned components of aforementioned structure body is the oxide material with oxide ion permeability, aforementioned silver or silver alloy are filled into aforementioned storing section, and have filled aforementioned silver or silver alloy on part or all of the combined boundary portion of the aforementioned components that constitutes the aforementioned structure body.
In the form of the complex with sealing of the present invention, aforementioned have the oxide material of oxide ion permeability to have the cubic system perovskite type crystal structure, is to use composition formula
[La aA b][B1 cB2 dB3 (1-c-d)]O x
The mixed conducting oxide of expression.Wherein, A is the combination of the element more than a kind or 2 kinds selected from Sr, Ba, Ca; B1 is Co, and the perhaps combination of the element of Co and Fe, Co/Fe ratio are more than 1; B2 is the combination of the element more than a kind or 2 kinds selected among Nb, Ta, In, Sn; B3 is the combination of the element more than a kind or 2 kinds selected among Li, Ni, Cu, Zn, Mg; And 0≤a<0.5,0.5<b≤1,0.6≤c<1,0<d≤0.4,0.9≤a+b≤1.1, x make the electric charge of aforesaid compound become neutral number.
Complex with sealing of the present invention, it is characterized in that, be at least by the shutoff of oxide skin(coating) with oxide ion permeability hollow member and the structure that flange component combines and the complex of silver or silver alloy of one end, the aforementioned structure body is to have constituting by metal and pottery, the storing section that makes up the open end of aforementioned hollow member and aforementioned flange component and form, and fill aforementioned silver or silver alloy in aforementioned storing section.
Complex with sealing of the present invention, it is characterized in that, be to make up the complex that member with annular recessed portion and the member that the protuberance that can be inserted into aforementioned recess is arranged form, aforementioned each member is by being selected from constituting of metal and pottery, the storing section that forms in that aforementioned protuberance is inserted into aforementioned recess is filled silver or silver alloy, and has filled aforementioned silver or silver alloy in part or all of the combined boundary portion of aforementioned protuberance and aforementioned recess.
Manufacture method with complex of sealing of the present invention is characterized in that, comprises following operation: make up the operation that a plurality of members form the structure with storing section; To be inserted into the operation of aforementioned storing section from least a kind of metal material that hardware softening under than the low temperature of the aforementioned components that constitutes the aforementioned structure body or metallization member are selected; Be heated to the aforementioned storing section of major general more than the softening temperature of the aforementioned metal material that is inserted into this storing section, less than the temperature range of the softening temperature of the aforementioned components that constitutes the aforementioned structure body, on at least a portion of the aforementioned storing section and the combined boundary portion of the member that constitutes the aforementioned structure body, fill the aforementioned metal material on one side, Yi Bian make the operation of aforementioned metal material sclerosis.
In the form of the manufacture method of the complex with sealing of the present invention, the aforementioned metal material that is inserted into aforementioned storing section is select the slurry of the clay from silver, silver alloy, argentiferous, the clay that contains silver alloy, argentiferous and the slurry that contains silver alloy at least a.
Oxygen separator of the present invention is to have the complex with aforementioned sealing to form.
Barrier film reactor of the present invention is to have the complex with aforementioned sealing to form.
Ceramet complex structure body of the present invention, it is characterized in that, be to comprise the ceramet complex structure body that at least a kind of pottery among the mixed conducting pottery that is selected from oxide ion conductive pottery, electronic conductivity pottery and has oxide ion conductive and electronic conductivity simultaneously and hardware form, the engagement member of aforementioned pottery and aforementioned metal member is that material forms with silver or silver alloy.
Ceramet complex structure body of the present invention, it is characterized in that, be to comprise the ceramet complex structure body that conjugant and hardware form, described conjugant is from oxide ion conductive pottery, electronic conductivity pottery and has the conjugant that a plurality of ceramic phases of selecting among the mixed conducting pottery of oxide ion conductive and electronic conductivity engage simultaneously that the engagement member of aforementioned pottery and aforementioned metal member is that material forms with silver or silver alloy.
In the form of ceramet complex structure body of the present invention, aforementioned conjugant is the conjugant that the DB of oxide ion conductive pottery or mixed conducting pottery engages with the porous body of mixed conducting pottery or electronic conductivity pottery.
The manufacture method of ceramet complex structure body of the present invention, it is characterized in that, be to comprise to be selected from the oxide ion conductive pottery, the electronic conductivity pottery, and the manufacture method that has the ceramet complex structure body that at least a kind of pottery among the mixed conducting pottery of oxide ion conductive and electronic conductivity and hardware form simultaneously, composition surface at aforementioned pottery and aforementioned metal member, sandwiched with silver or silver alloy is the noble metal clay liner of material, with silver or silver alloy the noble metal liner of material perhaps, more than 550 ℃, heat treatment engages below 950 ℃.
The manufacture method of ceramet complex structure body of the present invention, it is characterized in that, be to comprise from the oxide ion conductive pottery, the electronic conductivity pottery, and the conjugant that has a plurality of ceramic phases joints of selecting among the mixed conducting pottery of oxide ion conductive and electronic conductivity simultaneously, the manufacture method of the ceramet complex structure body that forms with hardware, composition surface at aforementioned pottery and aforementioned metal member, sandwiched with silver or silver alloy is the noble metal clay liner of material, with silver or silver alloy the noble metal liner of material perhaps, more than 550 ℃, heat treatment engages below 950 ℃.
Liner of the present invention, it is characterized in that, be comprise be selected from oxide ion conductive pottery, electronic conductivity pottery and have oxide ion conductive simultaneously and the mixed conducting pottery of electronic conductivity among at least a kind of pottery and ceramet complex structure body that hardware forms in use, be connected the liner of aforementioned pottery and aforementioned metal member, be to be the noble metal clay flake of material with silver or silver alloy or to be the liner that ring-type is processed in the precious metal sheets shearing of material with silver or silver alloy.
Liner of the present invention, it is characterized in that, be comprise from oxide ion conductive pottery, electronic conductivity pottery and have oxide ion conductive simultaneously and the mixed conducting pottery of electronic conductivity among use, be connected the liner of aforementioned pottery and aforementioned metal member the conjugant that engages of a plurality of ceramic phases selected and the ceramet complex structure body that hardware forms, be to be the noble metal clay flake of material with silver or silver alloy or to be the liner that ring-type is processed in the precious metal sheets shearing of material with silver or silver alloy.
Oxygen delivery application device of the present invention, it is characterized in that, be form with in the basket with the oxygen delivery application device that comprises the structure that complex structure body that at least a kind of pottery among the mixed conducting pottery that is selected from oxide ion conductive pottery, electronic conductivity pottery and has oxide ion conductive and electronic conductivity simultaneously and hardware form separates, the engagement member of aforementioned pottery and aforementioned metal member is that material forms with silver or silver alloy.
Oxygen delivery application device of the present invention, it is characterized in that, be form with in the basket with comprising from oxide ion conductive pottery, electronic conductivity pottery and having conjugant that a plurality of ceramic phases of selecting among the mixed conducting pottery of oxide ion conductive and electronic conductivity engage simultaneously and the oxygen delivery application device of the structure that complex structure body that hardware forms separates, the engagement member of aforementioned pottery and aforementioned metal member is that material forms with silver or silver alloy.
In the form of oxygen delivery application device of the present invention, the aforementioned metal member is the part of aforementioned basket.
Oxide ion of the present invention is carried and is used complex structure body, it is characterized in that, be to have an end by the principal part of the tubular body of shutoff and the complex structure body that forms with the blade of a sword portion of the peristome side engagement of aforementioned principal part, the aforementioned principal part dense film that oxide ion is carried the property pottery that on the porous ceramic matrix, has been covered, aforementioned blade of a sword portion is a tubular body of carrying property or electrical insulating property pottery to constitute by the electronic conductivity of compact substance, oxide ion, aforementioned blade of a sword portion part or all, its outside dimension radially is bigger than the outside dimension of the major diameter direction of the principal part of aforementioned tubular body.
Oxide ion of the present invention is carried with in the form of complex structure body, more than the big 2mm of outside dimension of outside dimension radially than the major diameter direction of the principal part of aforementioned tubular body of aforementioned blade of a sword portion, the scope below the 200mm.
Oxide ion of the present invention is carried with in the form of complex structure body, and the distortion of the aforementioned porous ceramic matrix of this composite construction body and function begins temperature or the kick off temperature material formation higher than the densification temperature of the dense film of aforesaid oxides ion conveying property pottery.
Oxide ion of the present invention is carried and is used in the form of complex structure body, and the aforesaid oxides ion is carried the dense film of property pottery, aforementioned porous ceramic matrix and carried the blade of a sword portion of property pottery as oxide ion is the mixed conducting oxide.
Oxide ion of the present invention is carried with in the form of complex structure body, and the dense film of aforesaid oxides ion conveying property pottery has the cubic system perovskite type crystal structure, is to use composition formula
[La aA b][B1 cB2 dB3 (1-c-d)]O x
The mixed conducting oxide of expression.Wherein, A is the combination of the element more than a kind or 2 kinds selected from Sr, Ba, Ca; B1 is Co, and the perhaps combination of the element of Co and Fe, Co/Fe ratio are more than 1; B2 is the combination of the element more than a kind or 2 kinds selected among Nb, Ta, In, Sn; B3 is the combination of the element more than a kind or 2 kinds selected among Li, Ni, Cu, Zn, Mg; And 0≤a<0.5,0.5<b≤1,0.6≤c<1,0<d≤0.4,0.9≤a+b≤1.1, x make the electric charge of aforesaid compound become neutral number.
Oxide ion of the present invention is carried with in the form of complex structure body, and aforementioned blade of a sword portion engages with hardware.
Oxide ion delivery application device of the present invention is characterized in that, has used a plurality of aforesaid oxides ions to carry and has used complex structure body.
Description of drawings
Figure 1A-Fig. 1 F is the preferred concrete condition of the present invention, is the schematic cross-section with complex of the structure of combination a plurality of members formed storing section and hardware.
Fig. 2 A-Fig. 2 E is another preferred concrete condition of the present invention, is to increasing the schematic cross-section that sees through the effective complex of area of oxide ion.
Fig. 3 A-Fig. 3 F is another the preferred concrete condition with the complex shown in Fig. 2 A-Fig. 2 E, is to increasing the schematic cross-section that sees through the effective complex of area of oxide ion.
Fig. 4 A and Fig. 4 B are the examples of complex that comprises the structure of the member that has made up the member that is made of the metal of the recess that ring-type is arranged or pottery, has been made of metal that the protuberance that can be inserted into aforementioned recess is arranged or pottery, are the schematic cross-sections of the complex of the structure that is made of a plurality of members and hardware.
Fig. 5 is the schematic diagram of the example of the expression oxygen separator that uses the complex that sealing arranged of the present invention.
Fig. 6 is the schematic diagram of the example of the expression barrier film reactor that uses the complex that sealing arranged of the present invention.
Fig. 7 is the partial cross section figure of the junction in the expression ceramet complex structure body.
Fig. 8 is the partial cross section figure of the junction in another ceramet complex structure body of expression.
Fig. 9 is the example as oxygen delivery application device, and expression has used a plurality of oxygen to carry the schematic diagram of notion of the oxygen manufacturing installation of property ceramet complex structure bodies.
Figure 10 is for estimating the schematic representation of apparatus that gas tightness uses.
Figure 11 A-Figure 11 C is that the expression oxide ion is carried the sectional view with the preferred concrete example of complex structure body.
Figure 12 sees that from above oxide ion carries the figure with complex structure body, is the schematic diagram of an example of the structure of representing that discontinuously the part of blade of a sword portion is bigger than the outside dimension of the major diameter direction of tubulose principal part.
Figure 13 A and Figure 13 B conceptually represent oxide ion is carried the schematic diagram that is fixed on the method for reaction vessel with complex structure body.
Figure 14 A-Figure 14 C is that expression has used oxide ion to carry the schematic diagram of the example of the SOFC of using complex structure body.
Figure 15 A-Figure 15 C is that the expression oxide ion is carried the sectional view with another preferred object lesson of complex structure body.
Figure 16 A and Figure 16 B are that the expression oxide ion is carried the sectional view with another preferred object lesson of complex structure body.
Figure 17 A-Figure 17 C is that the expression oxide ion is carried the sectional view with another preferred object lesson of complex structure body.
Figure 18 A-Figure 18 C is that the expression oxide ion is carried the sectional view with another preferred object lesson of complex structure body.
Figure 19 is as having used a plurality of oxide ions to carry the example of the oxide ion delivery application device of using complex structure body, having represented the schematic diagram of the example of oxygen manufacturing installation.
The specific embodiment
Below, about being suitable for concrete example of the present invention, one side explains on one side with reference to accompanying drawing.
The 1st example
[manufacturing of complex]
At first, the so-called a plurality of members of combination of the present invention formed " storing section ", be meant configuration only when the material of the state current downflow of gravitational field effect, fluent material does not flow out and the part that retains, and the situation of the power beyond the gravity (for example centrifugal force etc.) effect does not comprise.
Secondly, in Figure 1A-Fig. 1 F, enumerated preferred concrete example of the present invention.Figure 1A-Fig. 1 F is the schematic cross-section with complex of the structure of combination a plurality of members formed storing section and hardware.The aforementioned metal member is filled into the storing section of aforementioned structure body and has filled the aforementioned metal member at part or all of the combined boundary portion of the member that forms the aforementioned structure body.
Figure 1A, Figure 1B, Fig. 1 C are the structure that is made of 2 members 1,2 and the complex of hardware 3, and by hardware 3, the boundary portion 4 of member 1 and member 2 is sealed.Fig. 1 D, Fig. 1 E, Fig. 1 F are the structure that is made of 3 members 5,6,7 and the complex of hardware 8, and by hardware 8, the boundary portion 10 of the boundary portion 9 of member 5 and member 6 and/or member 5 and member 7 is sealed.
Forming aforementioned each member (for example 1,2,5-7) of aforementioned structure body, is material with pottery or metal, with between the pottery, between the metal or the form of the combination of pottery and metal constitute structure.The objective of the invention is to, be provided at surpassing and also can keep the complex that has feature on the hermetically-sealed construction of sealing under 800 ℃ the high temperature, thus beyond pottery and the metal, for example macromolecular material etc. do not have stable on heating material undesirable as the member of formation structure.
The aforementioned metal member, with all members that form the aforementioned structure body relatively, select to have low softening temperature.That is, hardware 3 is members softening under than any all low temperature of member 1,2.Hardware 8 is members softening under than any all low temperature of member 5-7.
Be used for hardware of the present invention like this, all members of the structure of the storing section that forms if low softening temperature is arranged, then also can be any members relatively with having a plurality of members of combination.But all members that particularly form structure 1000 ℃ softening down, during for stable material, silver or silver alloy are because following 2 reasons and preferably being used.First reason be because, silver point is 961 ℃, the fusing point of silver alloy also nearby, so the relation of softening temperature enters scope of the present invention.Second reason using silver or silver alloy is because the characteristic of the chemistry of silver.Silver, stable near the oxide room temperature to 200 ℃, but temperature reaches that when above, emits oxygen, has the character that metal becomes stable.Promptly, because, even because heat treatment in atmosphere at high temperature also keeps metallic state, so do not have with the interfacial oxide growth of the member that forms structure, in the impaired situation of sealing of the combined boundary portion of a plurality of members, can realize the sealing that reliability is high.Further, because the chemical stability of silver is subjected to the chemical reaction also can deterioration in characteristics so be engaged member.
The composition of silver alloy also can be any composition, but in order not damage the feature at the silver of this narration, as the gradation composition of silver, is preferably more than the 35 quality %.Composition as beyond the silver for example can cooperate Cu, Au, Zn, Pb, Cd, Ni, Sn, Mn, Li, In, Pd, Ti, Cr, Co, Fe, Ga etc.
Complex of the present invention is used for manufacturing installations such as pure oxygen, oxygen-enriched air, is under the situation of the barrier film reactor of representative or SOFC etc. with the partial oxidation of appropriate hydrocarbon gas, as the member that constitutes structure, contain the oxide material of oxide ion permeability.As the oxide material of oxide ion permeability, oxide ion-electron conductors such as zirconia of preferably using oxide ion conductors such as bismuth oxide system, cerium oxide, zirconia system, perofskite type oxide, pyrochlore-type oxide and oxidation-containing cerium etc. have 10 at 850 ℃ -2Scm -1The oxide of above oxide ion conductivity, but according to purposes, also can be the oxide that shows the conductivity below this.
Constitute the aforementioned components of aforementioned structure body, hope is to have 16 * 10 as the mean coefficient of linear thermal expansion from room temperature to 850 ℃ -6/ ℃ more than, 26 * 10 -6/ ℃ below member.This is because when using silver-colored based material as hardware of the present invention, silver-colored based material is 23 * 10 from the mean coefficient of linear thermal expansion of room temperature to 850 ℃ -6/ ℃ about, so when breaking away from above-mentioned scope, produce stress, cause that the reliability of sealing reduces based on thermal expansion difference.Further, form a plurality of members of aforementioned structure body, more wish it is to have the approaching mean coefficient of linear thermal expansion of trying one's best mutually.
Complex of the present invention is used for manufacturing installations such as pure oxygen, oxygen-enriched air, is under the situation of the barrier film reactor of representative or SOFC etc. with the partial oxidation of appropriate hydrocarbon gas, in order to increase the transit dose of oxide ion, improve and make efficient, reaction efficiency or generating efficiency, the area that sees through that increases oxide ion as far as possible becomes important.Fig. 2 A-Fig. 2 E shows the preferred concrete example of such complex.
The concrete example of each figure of Fig. 2 A-2E is the schematic cross-section that the complex of structure that an end of the oxide skin(coating) of oxide ion permeability combined by the flange component 12 of the hollow member 11 of shutoff and the external diameter bigger than the external diameter of hollow member 11 and silver or silver alloy 13 is arranged.All be open end and flange component formation storing section, fill silver or silver alloy, the boundary portion 14 of coming sealed hollow member 11 and flange component 12 in storing section by the combination hollow member.By the integrated degree of these complexs highland is arranged in certain space, can increase through area tremendously.
At this moment, because flange component 12 has the external diameter bigger than the external diameter of hollow member 11,, can under high reliability integrated level, be provided with so it is easy to use flange component 12 that this complex is fixed on the circuit board.
The complex that each figure of Fig. 2 A-Fig. 2 E enumerates, the cross sectional shape that forms the storing section of a plurality of members is a rectangle, but may not be rectangle, the cross sectional shape that resembles the storing section Fig. 3 A-Fig. 3 F also can be triangle and other shape.
In each figure illustration of Fig. 2 A-Fig. 2 E and Fig. 3 A-Fig. 3 F, Fig. 2 D or Fig. 3 D be for also to be inserted into shape such in the cylinder of hollow member 11 with flange component 12, can be more fixing hollow member 11.Again, this structure is fixing hollow member stably not only, even because the part of boundary portion 14 also can prevent to flow out at the softening metal material of storing section under the situation of thereby opening former because of certain, so be effective making aspect the higher complex of reliability.As same structure, as Fig. 2 E or Fig. 3 E are illustrative, also can hollow member 15 be set distinctively in addition with flange component 12.
Again, as Fig. 3 F is illustrative, further make up other member 16 on flange component 12, making the cross sectional shape of the storing section of a plurality of members formation is that the L font is also passable.
Hollow member 11 is to contain the end of oxide skin(coating) of oxide ion permeability by the shape of the cylinder of shutoff, selects to see through oxide ion at this.So 11 oxide skin(coating)s by the oxide ion permeability of hollow member constitute also passable.In this case, hollow member integral body must be densified fully, so that the material beyond the oxide ion does not see through oxide skin(coating).If not like this, even not at all easy complex that the sealing excellence is provided, the impurity substances beyond the oxide ion also becomes and makes the reason that efficient, reaction efficiency or generating efficiency reduce by hollow member 11 diffusions.
The method of making the hollow member of compact substance is directly to use general earthenware manufacture method.That is, behind composition weighing in accordance with regulations, the mixed material powder, carry out roasting, carry out moulding after it is pulverized.Moulding can be adopted the hydrostatic pressing pressing, and (rubber die dashes; Rubber press) general methods such as method, extrusion moulding, slurry casting method.
On the other hand, also can be in shutoff form the hollow member of structure of the dense film of oxide ion permeability pottery on the porous ceramic matrix of drum of one end.By the oxide skin(coating) of attenuate oxide ion permeability, when reducing raw material, reducing the manufacturing cost of material, can remedy also inadequate oxide ion conductivity.For example, SOFC by the resistance of oxide skin(coating), causes the reduction of voltage when output current.The resistance of this oxide skin(coating) for the inverse of oxide ion conductivity multiply by the value of the fed distance of oxide ion, therefore, in order to reduce this resistance, reduces the fed distance of oxide ion, and promptly the oxide skin(coating) of attenuate oxide ion permeability gets final product.Again, in oxygen manufacturing and oxygen-enriched air manufacturing, when the oxide bed thickness of oxide ion permeability, diffusion control speed in the oxide of oxide ion, so in this case also the oxide skin(coating) by attenuate oxide ion permeability can improve through efficient.
Like this, in order to improve through efficient, the oxide skin(coating) of oxide ion permeability is thin more favourable more, but then, along with attenuation, is difficult to avoid oxide ion material permeance in addition.This be because, when crackle that has a little at this oxide skin(coating) and fine defectives such as pin hole, because oxide skin(coating) is thin, so the material beyond the oxide ion easily runs through oxide skin(coating).Resemble under this situation, more the oxide skin(coating) of heavy back formation oxide ion permeability also can.Again, as described in embodiment, also can carry out the repairing of the part of oxide skin(coating) and handle, hollow member 11 also can have such repair layer.
The oxide skin(coating) of attenuate oxide ion permeability, improve to see through aspect the efficient effective, but as described above, attenuate at random.Improve the additive method that sees through efficient and be to use oxide with the oxide ion conductivity of trying one's best high.In the occasion of not seeking on SOFC and oxygen ion pump to be suitable for, generally preferably used because of having the mixed conducting oxide that high oxide ion conductivity quilt known.This be because: because the occasion of mixed conducting oxide, in the time of with oxide ion mobile, be attended by movement of electrons, in oxide, carry out the compensation of electric charge, so, SOFC can not take out electric power, oxygen ion pump can not applied voltage, therefore owing to can not oxygen separate problem on this principle, so can not be suitable for, if but do not seek on SOFC and oxygen ion pump, to be suitable for, then be very effective.
Even among the mixed conducting oxide, has mixed conducting oxide with the cubic system perovskite type crystal structure of following composition formula (1) expression, the oxide ion conductivity is also high, and it is formed with film on the porous ceramic matrix is effective especially.Below narration is defined as the reason with the cubic system perovskite type crystal structure of following composition formula (1) expression.
[La aA b][B1 cB2 dB3 (1-c-d)]O x …(1)
Perovskite type crystal structure general expression ABO 3-δExpression, except that cubic system, known have a lot of crystallographic systems such as three prismatic crystals, iris, hexagonal crystal.Its reason is the distortion of crystal structure, the regular irregular alignment or the AO of oxygen defect 3Atomic layer pile up difference, or the like.Again, when oxygen defect becomes many, in the aforementioned component formula 3-δ reduce at 2.5 o'clock from 3, the brown Mi Lanaite Alcoa structure that is transformed into other crystal structure also is known.At these a lot of ABO 3-δIn the Ca-Ti ore type crystal of forming, in the oxide of cubic system, can see high oxide ion conductivity as can be known.
The inventor is conceived to the cubic system perovskite type crystal structure, and the stable and big compositing range of oxide ion conductivity draws compositing range disclosed by the invention on the investigation crystal structure.
That is, be equivalent to aforementioned component formula ABO 3-δThe position of A of general expression be [La aA b], A is the combination of the element more than a kind or 2 kinds selected, 0≤a<0.5,0.5<b≤1,0.9≤a+b≤1.1 from Sr, Ba, Ca.The scope that limits a and b in this wise is because along with increasing La cubic system stabilisation, but too when increasing, the cause that the oxide ion conductivity reduces.If (a+b) remove a+b=1, then stipulate ABO again, 3-δThe calculating of forming is non-chemically formed, if but in the scope of this expression, then can't see based on the deterioration of non-chemically calculating the characteristic of forming (oxide ion conductive, crystal stability), on the contrary, when outside this scope, be decomposed into a plurality of oxides easily, bring deterioration in characteristics.
On the other hand, be equivalent to aforementioned component formula ABO 3-δThe position of B of general expression be [B1 cB2 aB3 (1-c-d)], B1 is Co, the perhaps combination of the element of Co and Fe, Co/Fe ratio are more than 1; B2 is the combination of the element more than a kind or 2 kinds selected among Nb, Ta, In, Sn, V, Ti, Cr, Mn; B3 is the combination of the element more than a kind or 2 kinds selected among Li, Ni, Cu, Zn, Mg; 0.6≤c<1,0<d≤0.4.Limiting the position that is equivalent to B in this wise is because following reason.That is,, select Sr (Co, Fe) O as the basic composition of cube brilliant perovskite structure that high oxide ion conductivity is arranged xSystem about the result that the replacement at B position is studied, finds that the substituted element series that presents different effects has 2.
At first, B2 series is with cube crystal structure stabilisation, but since valence mumber more than 3, so be substituted element series with effect of minimizing oxygen defect.The element of B2 series is necessary on cube crystal structure stabilisation, and but then, when B2 surpassed 0.4, the oxide ion conductivity was low terrifically, can not become perovskite structure.So, as the scope of d regulation 0<d≤0.4.On the other hand, B3 series increases oxygen defect owing to valence mumber is low, the result has the effect that improves the oxide ion conductivity, but if replace too in large quantities, then be transformed into other crystal structures such as brown Mi Lanaite Alcoa structure from the Ca-Ti ore type rock-steady structure, the oxide ion conductivity reduces.So,, also be necessary for replacement amount less than 0.4 even for B3 series.And, be the combination of the element of Co or Co and Fe as B1, Co/Fe is than being to be reason according to such more than 1: when Fe than Co for a long time, also cause the oxide ion conductivity and reduce.
Moreover, the chemical composition that the present invention limits is desirable, if the cubic system perovskite type crystal structure is stable, and can not damage the oxide ion conductivity greatly, even then the dissimilar metal of impurity level is blended in the oxide of above-mentioned composition formula (1) and also has no relations.
As described above, even attenuate oxide skin(coating) at random not has the mixed conducting oxide shown in the composition formula (1) of high oxide ion conductive and also can improve through efficient by use.
On the other hand, raising also has method for distinguishing through efficient.It is the surface activation that makes the oxide skin(coating) with oxide ion conductive.For the meaning of clear and definite activate, be necessary to consider again the permeation mechanism of oxygen.Such as has been described, the driving force that oxygen sees through is that the partial pressure of oxygen in 2 zones being separated by the oxide that oxide ion conductive is arranged is poor., oxygen can not directly see through the mixed conducting oxide under the state of oxygen molecule, and the state that becomes oxonium ion can see through.This means: the oxygen molecule of approaching side is adsorbed on the surface of mixed conducting oxide, be dissociated into 2 oxygen atoms, accept the reaction that negative electrical charge becomes oxonium ion again, the mixed conducting oxide surface of the side of coming out is emitted negative electrical charge, the reaction that is combined into oxygen molecule once again is relevant.That is, the activate on so-called surface means and improves these reaction speeds.
For activating surface, can consider to carry the method for holding activating substance on the surface, but merely form the layer of oxide porousization of mixed conducting also can on the surface.This be because: by porous layer, the surface area of mixed conducting oxide increases, and the result can improve above-mentioned reaction speed.
Promptly, form the occasion of hollow member of the structure of oxide ion permeability ceramic dense film on the porous ceramic matrix of drum of one end that has been formed in shutoff, the mixed conducting oxide of above-mentioned composition formula (1) expression is used for dense film, on this dense film, form above-mentioned activate layer again, the most effective to improving through efficient.
Shutoff the porous ceramic matrix of drum of one end, if can extreme reaction not take place with formed dense film thereon, then its material need not be managed, but as preferred material, be with formed dense film thereon with a series of oxides.This be because: because matching of the coefficient of thermal expansion of dense film and porous matter matrix so can make the stress that produces in the dense film in irreducible minimum, can form the higher oxide ion permeability ceramic dense film of reliability.
In order at one end to be formed oxide ion permeability ceramic dense film on the porous ceramic matrix of the drum of shutoff, at first resemble and make the porous ceramic matrix following.Synthetic the same with common pottery, through behind the mixing-roasting technique of raw meal, for example, mixing pva micropowder in the roasting powder carries out moulding and burns till.This be because: in the stage of burning till, the polyvinyl alcohol micropowder is removed by oxidation gasification, and remaining ceramic segment is sintered, and forms firm network, thus porous.When making the porous ceramic matrix, getting final product if the micropowder that mixes in the roasting powder resembles to be removed in the stage of burning till in this wise, so can not be polyvinyl alcohol also, also can be other the organic compound and the shell and the sawdust of carbon dust, walnut.But, the particle diameter of the organic material that these mix in the roasting powder, relevant with the venting capability of porous ceramic matrix with mechanical strength, so, select aptly according to purposes.
The oxide ion permeability ceramic dense film that forms on this porous ceramic matrix also has all formation methods.For example, both can use the slurry coating that in solvent, has disperseed the roasting powder or be immersed on the porous ceramic matrix and burn till, also can adopt accumulation roasting powder such as electrophoresis electrodeposition process, it had been burnt till.Beyond these damp process, also can use film factures such as CVD as vapor phase method again.
Oxide ion permeability ceramic dense film is if the DB completely that the material beyond the oxygen does not see through is then got over Bao Yuehao.Specifically, for below the 1mm, below the preferred 0.1mm, most preferably below the 0.05mm.Form the porous ceramic matrix of oxide ion permeability ceramic dense film, its porosity must be greatly to the degree that can not hinder oxygen to see through, and is little of not causing the significantly reduced degree of mechanical strength.Specifically, be more than 10% below 70%, preferred more than 20% below 60%, most preferably more than 30% below 50%.Again, the thickness of this porous ceramic matrix need be thinned to the degree that do not hinder penetration speed and thick in the degree that can fully guarantee as the mechanical strength of support.Specifically, below 20mm, below the preferred 5mm, most preferably below the 3mm and more than the 1mm.
Flange component 12 is if DB and be to have stable on heatingly then can use any.For example can use stainless steel, copper alloy, heat-resisting alloy or the pottery etc. that constitute by iron, chromium, nickel significantly.But to use under 800 ℃ the high temperature be prerequisite surpassing, so the deterioration when not having extreme oxidation of member itself or fusion etc. to see as member under hot conditions is the restriction relevant with the member of flange component 12.As preferable material, be pottery and heat-resisting alloy, but most preferred material is the material same with hollow member 11.This is because the matching of coefficient of thermal expansion, the especially excellent cause of thermal cycle.
Use the occasion of pottery, can make full use of the electrical characteristics (electronic conductivity, mixed conducting, electrical insulating property) of pottery as flange component.For example, in the purposes of SOFC,, implement suitable wiring,, can take out electric power even then directly integrated complex of the present invention can short circuit yet on the metal reaction container if the electrical insulating property pottery is used as flange component.
Each figure expression of Fig. 4 A and Fig. 4 B will have the recess of ring-type the member 17 that constitutes by metal or pottery, the schematic cross-section of complex of member 18 combinations that are made of metal or pottery of the protuberance that can be inserted into aforementioned recess is arranged.All be to fill the boundary portion 20 that silver or silver alloy seal two members (17,18) by insert storing section that aforementioned protuberance forms in aforementioned recess.
Shown in each figure of Fig. 1-4, complex of the present invention becomes Free Surface above the hardware.Even this structure is minimum for the rate of sublimation of the hardware that keeps sealing, thereby, provide the advantage that easily to replenish hardware because the long-time hardware that uses also slowly reduces the occasion that can not keep sealing.According to the combination of composite component that is engaged and hardware, the wetability situation of non-constant that becomes is arranged again.Extreme occasion, the hardware boundary portion that can not fully be covered can not embody sealing sometimes.In this case, if replenish the interpolation element that is used to improve wetability, heat treatment once more then improves in the wetability of boundary portion, can give sealing, and structure of the present invention is to this problem, and its treatment measures are also easy.
Complex of the present invention uses to good under than the low temperature of the softening temperature of hardware.Reason is, because the forfeiture of the flowability of hardware can obtain very excellent differential pressure patience.On the contrary, in order to use complex under than the low temperature of the softening temperature of hardware, the hardware of selecting aptly to have the softening temperature higher than the temperature of using complex gets final product.For example, about 800 ℃-900 ℃, use the occasion of complex, can preferably use silver or silver alloy.
[manufacture method of complex]
Complex of the present invention can followingly be made like that.Promptly, after making up the structure that a plurality of members are formed with storing section, after at least a kind of metal material will selecting from hardware softening under than the low temperature of the aforementioned components that constitutes the aforementioned structure body or metallization member is inserted into aforementioned storing section, be heated to more than the softening temperature of aforementioned metal material to the aforementioned storing section of major general, temperature range less than the softening temperature of the aforementioned components that constitutes the aforementioned structure body, on one side the aforementioned metal material is filled at least a portion of combined boundary portion of the member that constitutes aforementioned storing section and aforementioned structure body, Yi Bian the aforementioned metal material that hardens.Aforementioned storing section plays following effect: prevent that the aforementioned metal material of sealing being done contribution from flowing out under softening temperature.
Metal material is owing to after flowing for the time being by heat treatment, be filled at least a portion of combined boundary portion of the member that constitutes storing section and structure, so can use material with the ingot bar (ingot) of the matched size of shape of storing section, powder, granular, wire, other arbitrary shapes.Further, also can use the clay of having made the powder that comprises the metal that will insert and slurry shape.In this case, hardwareization and softening processing also can be carried out respectively, but by heat-treating continuously, can once metal material be filled at least a portion of combined boundary portion of the member that constitutes storing section and structure.
Further, under the situation of the complex shown in each figure of Fig. 4 A and Fig. 4 B,, insert the metal liner that is used in than softening under the low temperature of two members at the contact-making surface of member 17 and member 18, also passable with above-mentioned method heat treatment.This is because even do like this, also metal material can be filled at least a portion of combined boundary portion of the member that constitutes storing section and structure.
[formation of oxygen separator]
Secondly, Fig. 5 represents to use the example of the oxygen separator of the complex that sealing arranged of the present invention.This is by an air pressurized delivery of oxygen ion, obtains the example of oxygen manufacturing installation of the oxygen of normal pressure.In the drawings, described 2 complexs for convenience, even but more a plurality of complexs are set, basic formation does not change yet.
Hollow member 21 becomes the structure that has sealed with the boundary portion 24 of flange component 22 by silver or silver alloy 23.Again, this device possess help fixedly hollow member 21 and prevent silver or silver alloy 23 just in case the hollow member 25 of outflows.The structure that is made of 21-25 is installed on the circuit board 26, by the boundary portion 28 of silver or silver alloy 27 sealings and circuit board 26.And circuit board 26 is installed on the oxygen separation container 29, by the boundary portion 31 of silver or silver alloy 30 sealings and oxygen separation container 29.
This structure is by the combination of complex of the present invention, and the oxygen separation container 29 that formation will be warmed up to high temperature (for example 850 ℃) is divided into the structure in zone 32 and zone 33.One end of the oxide skin(coating) of this device by comprising the oxide ion permeability is by the hollow member 21 of the drum of shutoff, 32 separation are recovered to zone 33 from the zone with oxygen, so the dividing potential drop that will be present in zone 32 oxygen is set than high the getting final product of partial pressure of oxygen in zone 33.For example, import to zone 32 if will be pressurized to the air of 1MPa, then the partial pressure of oxygen in zone 32 becomes and is higher than 0.1MPa, so (normal pressure oxygen=0.1MPa) separation is reclaimed becomes possibility in the zone 33 of normal pressure.At this moment, 3 kinds of boundary portion (24,28,31) are by silver or silver alloy (23,27,30) and sealed.Separate under the situation about can not mix in two zones (32,33) and reclaim highly purified oxygen.Secondly, by supplying with ozone frequently, can continue oxygen for a long time and separate to zone 32.Supply with ozone on one side, remain on the method for certain pressurized state on one side, for example will supply with by introducing port 34 with constant flow rate by volume control device by the stepup transformer air pressurized, to separate and oxygen denuded air that oxygen concentration reduces uses counterbalance valve (not shown go out) to discharge from outlet 35 by oxygen, and can realize in view of the above.
The driving force that sees through of hyperoxia is big more more for the pressure of zone 32 forced air, therefore can improve separating rate, if but too improve, then the differential pressure in two zones is excessive, the danger of the member of formation breakage of complex occurs.On the other hand, if too in the pressure that reduces forced air, then partial pressure of oxygen can not separated oxygen less than 0.1MPa.In addition, even partial pressure of oxygen is set in the level higher than 0.1MPa, by separating, the oxygen concentration of air side reduces, and also becomes the situation that produces the driving force that oxygen sees through hardly on the actual effect.For fear of this situation, ad infinitum improve the import volume of the ozone of supplying with, and make that can ignore oxygen concentration in fact gets final product.But this is unactual.So, above for 0.5MPa (0.105MPa), below the 3MPa (0.63MPa) as the pressure that oxygen is separated suitable air (expression partial pressure of oxygen in the bracket), more preferably 0.6MPa (0.126MPa) above, below the 2MPa (0.42MPa).
The end of oxide skin(coating) that the oxide ion permeability is arranged is by the hollow member 21 of shutoff, as described above, both can be only constitute by the oxide skin(coating) of oxide ion permeability, also can be in shutoff form the structure of the dense film of oxide ion permeability pottery on the porous ceramic matrix of drum of one end.In addition, also can on the dense film of oxide ion permeability pottery, form repair layer.Further, also can form the porous layer that turns to purpose with the activity on surface on the surface of dense film.Which kind of situation no matter all forms a delivery of oxygen ion, does not make it the structure that sees through for other gas componant.
In the example of enumerating in Fig. 5, the material that makes flange component 22 and circuit board 26 serve as reasons different constitutes, and in order to realize both sealings, has used silver or silver alloy 27.This structure imagination is safeguarded the complex of hollow member 21 and flange component 22 under the situation of (replacing etc.) as an assembly of elements (unit), the convenience excellence.On the other hand, compared with this convenience, the occasion of the simplicity of playback device structure directly makes up hollow member 21 if be formed on the circuit board 26, use the structure of silver or silver alloy 27 encapsulation boundary portions, then also can omit 22-25.
[formation of barrier film reactor]
Below, Fig. 6 represents to use the example of the barrier film reactor of the complex that sealing arranged of the present invention.This is the example of following apparatus: will be the natural gas of principal component and the oxide-isolated that air is used the oxide ion permeability with methane, be transported to the oxonium ion of natural gas side from air side, with partly oxidation of methane, obtain the device of forming gas (carbon monoxide and hydrogen) at the oxide surface of natural gas side.In the drawings, for convenience, described 2 complexs, even but more a plurality of complexs are set, basic formation does not change yet.In addition, also can use oxo to replace air.
Hollow member 37, silver or silver alloy 39 seal and the structure of the boundary portion 40 of flange component 38 in order to pass through.This device possess help fixedly hollow member 37 and prevent silver or silver alloy 39 just in case the hollow member 41 of outflows.The structure that is made of 37-41 is installed on the circuit board 42, by the boundary portion 44 of silver or silver alloy 43 sealings and circuit board 42.And circuit board 42 is installed on the reaction vessel 45, by the boundary portion 47 of silver or silver alloy 46 sealings and reaction vessel 45.
This structure is by the combination of complex of the present invention, and the reaction vessel 45 that formation will be warmed up to high temperature (for example 850 ℃) is divided into the structure in zone 48 and zone 49.This device is by air introducing port 52 air supplies, one end of the oxide skin(coating) by having the oxide ion permeability is by the hollow member 37 of shutoff, oxide ion is transported to the zone 48 that natural gas exists, at hollow member 37 surfaces, partly oxidation natural gas.Zone 48 is because of being that reducibility gas becomes the extremely low state of partial pressure of oxygen, so can be that normal pressure also can be a pressurized state.Zone 49 sides become high partial pressure of oxygen by comparison, so, can pressurize, also can be the state of normal pressure.At this moment, if the poor sealing of complex, then the gas in two zones mixes beyond hollow member 37 surfaces, so, can not be controlled to the reaction that hope such as complete oxidation take place, under the perhaps the worst situation, owing to mixing the danger that produces blast.Under the situation of this complex, 3 kinds of boundary portion (40,44,47) are by silver or silver alloy (39,43,46) and sealed, so can make it work as high efficiency reactor.
Supply with natural gas on one side, remain on the occasion of certain pressurized state on one side, the same with the occasion of oxygen separator, for example the natural gas of pressurization is supplied with by introducing port 50 with constant flow rate by volume control device, the forming gas that will be generated by partial oxidation uses counterbalance valve (end illustrates) to discharge from outlet 51, can realize in view of the above.On the other hand, one side air supply, remain on the occasion of certain pressurized state on one side, air pressurized is supplied with by introducing port 52 with constant flow rate by volume control device, with hollow member 37 use counterbalance valve (not shown go out) to discharge to seeing through the oxygen denuded air of not doing contribution from outlet 53, can realize in view of the above.
Such restriction during the special aerobic separator of zone 48 and zone 49 pressure balance.But the natural gas that imports to zone 48 is originally with high voltage supply, and the forming gas that is reclaimed simultaneously also is directly used in reaction thereafter under high pressure conditions situation is many, so in such occasion, make it work under the state of pressurization.Moreover the pressurization scope is, considers that the load that is added in reactor selectes, but below being generally about 3MPa, be preferably about 2MPa below.On the other hand, import to the air in zone 49, by pressurizeing with natural gas same degree ground and importing, can make the differential pressure that is added in two zones is Min., so be desirable, but owing to the departmental cost that causes pressurizeing improves, so pressure condition is selected aptly.
The end of oxide skin(coating) that the oxide ion permeability is arranged is by the hollow member 37 of shutoff, as described above, both can be only constitute by the oxide skin(coating) of oxide ion permeability, also can be in shutoff form the structure of the dense film of oxide ion permeability pottery on the porous ceramic matrix of drum of one end.Further, also can on the dense film of oxide ion permeability pottery, form repair layer.Which kind of situation no matter all forms a delivery of oxygen ion, does not make it the structure that sees through for other gas componant.Again, the most surperficial in the natural gas side of hollow member 37, formed the methane catalyst layer of oxidation partly.For this catalyst layer,, then can use any material if contain the material that catalytic activity is arranged.For example, preferably use general known substances such as Ni, Ru.
In the example that Fig. 6 enumerates, the material that makes flange component 38 and circuit board 42 serve as reasons different constitutes, and in order to realize both sealings, has used silver or silver alloy 43.This structure will be imagined the complex of hollow member 37 and flange component 38 and safeguard under the situation of (replacing etc.) the convenience excellence as an assembly of elements.On the other hand, compared with this convenience, the occasion of the simplicity of playback device structure directly makes up hollow member 37 if be formed on the circuit board 42, use the structure of silver or silver alloy 43 encapsulation boundary portions, then also can omit 38-41.
Like this, according to the present invention, can provide the complex that the sealing of high reliability excellence is at high temperature arranged, improving for present sealing becomes bottleneck, the slow extensive fields of exploitation, can improve the possibility of practicability.Particularly, by the partial oxidation that is used for manufacturing installations such as pure oxygen, oxygen-enriched air, appropriate hydrocarbon gas is barrier film reactor, SOFC, oxygen ion pump, oxygen purification devices and the heat exchanger etc. of representative, can make big contribution to the raising of development rate.
[specific embodiment]
Below based on each concrete embodiment, clear and definite validity of the present invention.
(embodiment 1)
In fact, below added the oxygen separator that exemplifies with Fig. 5.
That is, form the structure of the dense film of oxide ion permeability pottery on hollow member 21 the has been formed in shutoff porous ceramic matrix of drum of one end, for oxide, dense film, porous matter matrix are SrCo 0.9Nb 0.1O xFlange component 22 and middle core component 25 have used the SUS304 steel, and circuit board 26 and oxygen separation container 29 have used the SUS310S steel.Dense film uses slurry coating process thickness with about 50 μ m on porous matter matrix to form.At a plurality of members of combination and the storing section that forms is inserted silver clay, heat treatment under the softening temperature of silver, form by silver constitute 23,27 and 30.
The compressed-air actuated pressure in zone 32 is remained on 1MPa,, confirmed that the oxygen of per minute 600cc separates generation 850 ℃ of results that experimentize.The oxygen purity of gained is about 98% as can be known, has sneaked into 2% nitrogen.But at length trace the result of reason, confirmed that in the dense film of the oxide ion permeability pottery of hollow member 21, the gas of denier leaks.
So, will except the surface impregnation of the hollow member 21 of open end in the used slurry of slurry coating process, with the inboard decompression of hollow member 21, optionally repair in view of the above and leak part.After the repairing, the hollow member 21 that is fired into has confirmed that the thickness of the dense film of oxide ion permeability pottery does not change, with above-mentioned same experiment in, can be with substantially identical speed separated oxygen, simultaneously, leakage is fully suppressed, and successfully obtains the oxygen of the purity more than 99.999%.Confirmed: because like this,, at high temperature can realize sealing completely so do not have one leakage in the boundary portion that is present in complex.
Again, apply 10 times with behind the above-mentioned oxygen separator cool to room temperature, be warmed up to 850 ℃ thermal cycle once more, result of experiment once more under 850 ℃ has then confirmed fully to reproduce the 1st time experiment.
(embodiment 2)
For the ability that makes apparatus of the present invention reaches to greatest extent, carried out the material of best complex and explored.At first, with the modulation of the method shown in following oxide.
As the raw material of sample, use La 2O 3, CaCO 3, SrCO 3, BaCO 3, Fe 2O 3, Co 3O 4, Nb 2O 5, Ta 2O 5, In 2O 3, SnO 2, V 2O 5, TiO 2, Cr 2O 3, MnO 2, CuO, ZnO, NiO, Li 2CO 3, MgO, after the weighing requirement, be dispersant respectively with ethanol, carry out 2 hours ball millings with zirconia ball and mix.The slurry that drying obtains is separated brokenly, is contained in the angle sheath of MgO system, carries out 900 ℃, 12 hours roasting in atmosphere.The roasting powder that pulverizing obtains is contained in the pressing mold of φ 12mm, and the single shaft moulding refills in the ice capsule, carries out the CIP moulding.In the sheath of the angle of MgO system, the formed body of gained is carried out burning till in 5 hours with the temperature of the best in 1150-1300 ℃ temperature range, obtain the sintered body of the disk shape of about φ 10mm.The optimum value of firing temperature is determined respectively by density, the outward appearance of the sintered body of gained.
The benchmark of estimating should be the oxide ion conductivity, but by the thick 2mm of reaching of thickness that makes sintered body, can make oxygen permeation rate is diffusion control speed, in the case, oxygen permeation rate and oxide ion conductivity proportionate relationship are set up, so replace by estimating oxygen permeation rate.The condition of estimating oxygen permeation rate is as follows.
Evaluation method: gas purging method, temperature: 850 ℃
Approaching side partial pressure of oxygen: 21kPa, the side of coming out partial pressure of oxygen: 1kPa, sample thickness: 2mm the results are summarized in the table 1.The unit of penetration speed is cc/mincm 2
Table 1
Chemical composition (in the protection domain) Penetration speed Crystal structure Chemical composition (protection domain is outer) Penetration speed Crystal structure
La 0.2Sr 0.8Co 0.9Nb 0.1O x SrCo 0.9Nb 0.1O x Sr 0.5Ba 0.5Co 0.8Nb 0.1O x Sr 0.5Ca 0.5Co 0.9Nb 0.1O x Sr 0.9Co 0.9Nb 0.1O x La 0.1SrCo 0.9Nb 0.1O x SrCo 0.7Fe 0.2Nb 0.1O x SrCo 0.9Ta 0.1O x SrCo 0.9In 0.1O x SrCo 0.9Sn 0.1O x SrCo 0.9V 0.1O x SrCo 0.8Ti 0.1O x SrCo 0.9Cr 0.1O x SrCo 0.9Mn 0.1O x SrCo 0.8Nb 0.1Li 0.1O x SrCo 0.8Nb 0.1Ni 0.1O x SrCo 0.8Nb 0.1Cu 0.1O x SrCo 0.8Nb 0.1Zn 0.1O x SrCo 0.8Nb 0.1Mg 0.1O x 1.38 1.92 1.98 1.75 1.88 1.75 1.52 1.89 1.96 1.90 1.65 1.55 1.62 1.73 1.80 1.83 1.90 1.75 1.79 Stable stable stable La 0.6Sr 0.4Co 0.8Nb 0.1O x La 0.6Sr 0.4Co 0.8Nb 0.1Cu 0.1O x SrCo 0.5Nb 0.5O x Sr 0.8Co 0.9Nb 0.1O x La 0.1Sr 1.1Co 0.8Nb 0.1O x SrCo 0.4Fe 0.5Nb 0.1O x SrCo 0.5Nb 0.1Cu 0.4O x 0.28 0.42 0.38 0.88 0.67 0.51 0.62 Stable unstable unstable stable
As shown in Table 1, have the mixed conducting oxide of the chemical constitution formula of having included protection domain of the present invention in, crystal structure is stable, and high oxide ion conductivity is arranged.
The 2nd example
In order to use a plurality of oxygen to carry the property potteries, make the oxygen delivery application device of high reliability and Cheap highly effective, it is impracticable that the ceramic-metal that the pottery of avoiding being used for will the conveying function of oxide ion being arranged remains on the basket of device engages.
The present invention is about the joint of joint, oxide ion conductive pottery and the hardware of mixed conducting pottery and hardware, and found that of studying of the joint of electronic conductivity pottery and hardware: by at junction surface use silver or silver alloy, can make and to give air-tightness under the high temperature, simultaneously the circulation patience excellence of high temperature-room temperature and the ceramet complex structure body of maintainability excellence the junction surface.
By using silver or silver alloy at oxide ion conductive pottery, mixed conducting pottery or electronic conductivity pottery and the junction surface of hardware, in hardware, except can using the stainless steel that constitutes by iron, chromium, nickel or general heat-resisting alloy etc., can also be extensive use of all metal materials.This is because the chemical stability height of silver or silver alloy at high temperature side reaction can not take place at the junction surface with hardware, so can maintain the fissility of normal temperature.But, because the present invention is as the oxygen delivery application device operation at high temperature of target, thus this metal material be defined as under hot conditions (for example 550 ℃-950 ℃) do not have the extreme oxidation of hardware self or fusion and so on as structural elements the time the material of deterioration.
The silver that is used for the junction surface is chemically stable metal, in addition, is the metal that has in the softening feature in the operating temperature district of the used oxygen delivery application device of the present invention.By softening, can expect to realize sealing.In addition, coefficient of linear thermal expansion is about 23 * 10 -6/ ℃, have and the approaching value of oxygen conveying property pottery.As long as have such feature, just can be applicable to the present invention, even with silver be base alloy engagement member also susceptible of proof same effect is arranged.For example, gold, copper, palladium are to controlling the example of the useful alloy element of softening temperature and thermal coefficient of expansion.In addition, also can add Zn, Cd, In, Sn, Mn, Ti, Co, Li, Cr, Fe, Ga, Ni etc.The kind of alloy element and addition, any as long as the characteristic that does not change above-mentioned silver widely just can be selected, but from keeping the characteristic aspect of above-mentioned silver, silver-colored content wishes to be more than the 35 quality %.
Secondly, Fig. 7 shows 1 example of ceramet complex structure body provided by the invention.Fig. 7 is the figure of a part in the cross section of diagram junction.If such junction is arranged, then can not limit the shape of ceramet complex structure body, even and with the complex of other members also it doesn't matter.In Fig. 7,101a represents any of oxide ion conductive pottery, mixed conducting pottery or electronic conductivity pottery, 102 expression grafting material silver or silver alloy, 103 expression hardwares.This ceramet complex structure body has the metal part, so for this complex structure body is installed on the metal system basket of oxygen delivery application device, can use common solder technology.In addition, hardware 103 also can be the metal system basket of oxygen delivery application device itself.
Fig. 8 shows 1 example again of ceramet complex structure body provided by the invention.Fig. 8 is the same with Fig. 7, is the figure of a part in the cross section of diagram junction.In Fig. 8,101a and 101b represent any of oxide ion conductive pottery, mixed conducting pottery or electronic conductivity pottery, and 101a and 101b can be that pottery of the same race also can be the xenogenesis pottery.101a and 101b are the conjugants that engages by grafting material 104.This conjugant engages with hardware 103 by the grafting material of silver or silver alloy.
Aforementioned ceramic to ceramic engages, and promptly the grafting material of 101a and 101b also can use silver or silver alloy, but is not limited to this.For example, the powder with 101a or the same composition of 101b is distributed in the solvent, the slurry of gained is coated in the junction surface, make its sintering, should " solid reaction process " also can make its joint by using.
In addition, the conjugant that engages about the porous body of the DB of oxide ion conductive pottery or mixed conducting pottery and mixed conducting pottery or electronic conductivity pottery, its joint method is not limited to the joint that undertaken by silver or silver alloy, also can select any gimmicks such as solid reaction process.
Further, surface at the porous body of mixed conducting pottery or electronic conductivity pottery, coating makes the oxide ion conductive pottery, the perhaps powder of the mixed conducting pottery slurry that is distributed in the solvent to be become, and make its sintering, newly form the oxide ion conductive pottery thus, the perhaps occasion of the DB of mixed conducting pottery, perhaps at the oxide ion conductive pottery, the perhaps surface of the DB of mixed conducting pottery, coating makes the mixed conducting pottery, the perhaps powder of the electronic conductivity pottery slurry that is distributed in the solvent to be become, and make its sintering, newly form the mixed conducting pottery thus, perhaps occasion of the porous body of electronic conductivity pottery etc. all is to be used to obtain the oxide ion conductive pottery, the perhaps DB of mixed conducting pottery, with the mixed conducting pottery, perhaps the porous body of electronic conductivity pottery engages one of joint method of the conjugant that is become.Moreover, the slurry that makes the powder of pottery be distributed in the solvent to be become by coating, and make its sintering, so that the new pottery that forms is DB or porous body, this can accomplish by the composition adjustment and the barbecue constrained optimization that make slurry.
Ceramet complex structure body of the present invention, sandwich the liner of silver or silver alloy by composition surface at pottery or ceramic joined article and hardware, for example on one side apply light pressure about 3000Pa from the both sides of ceramic side and metal side to the junction surface, on one side more than 550 ℃, heat treatment below 950 ℃, thereby can form.
The extrude pressure of this pottery and hardware as described in the embodiment 1 of back, engages if hold up material, with the deadweight of material, can apply the pressure of this degree, may not apply power wittingly.On the contrary, under the condition that applies too big power, softening silver spues from the junction surface, and adaptation mouth fissility all reduces sometimes.So applied pressure is suitable below 1MPa.
Best heat treatment temperature is according to the kind of liner, for example be processed into clay flake, with sheet metal be processed into etc., the perhaps composition of silver alloy and how much variation, but be more than 550 ℃, below 950 ℃.If below 550 ℃, even all can not suppressing gas, then any combination leaks, again, when being higher than 950 ℃, become fusion (silver point is 961 ℃) state, can not become the junction surface of uniform thickness, so also become the structure of air-tightness deterioration.
In above-mentioned method, can access the ceramet complex structure body that can perform well in oxygen delivery application device, but occasion 550 ℃-950 ℃ scope operations, sandwiched in room temperature under the state of liner, the temperature that only is raised to regulation promptly engages to be finished, can directly utilize on former state ground as the target complex structure body, make complex structure body so also can implement heat treatment in advance.
The liner that the present invention uses is processed into ring-type by the noble metal clay flake of silver or silver alloy is sheared, and can easily make.
It is special that the noble metal clay flake does not need to use, for example, can use the spy to open disclosed noble metal powder, cellulose-based water-soluble binder and the surfactant of containing of flat 7-70604 communique, the clay that remainder is made of water and unavoidable impurities well.
Process the liner that obtains with the noble metal clay flake, owing to be rich in elastic force, so have by heat treatment, the feature of in the process of slowly removing organic principle, moderately shrinking, and because the noble metal powder that disperses in the clay is a micro mist, so because reasons such as easy sintering have at 550 ℃ low temperature and can realize hermetic seal, also good this feature of maintainability.
On the other hand, if with aforementioned clay flake relatively, though best heat treatment temperature height some, be processed into ring-type by the precious metal sheets of silver or silver alloy is sheared, also can make composite construction body and function liner.
Use is by the advantage of the liner of the precious metal sheets processing of silver or silver alloy, with the clay ratio, can suppresses cost low.Though suppressed cost, not a halfpenny the worse on sealing and maintainability.
The thickness of liner is preferably more than the 0.1mm, below the 1mm.When being 0.1mm when following, coarse insufficient to the composition surface of landfill pottery side, sealing is poor sometimes, and when be 1mm when above, heat treatment temperature approaches the occasion of the fusing point of liner, causes sometimes to expect that liquid outward falls fissility generation obstacle.
Fig. 9 has represented to use the example of the oxygen delivery application device of a plurality of ceramet complex structure bodies of the present invention.This is only to carry oxide ion by air pressurized, obtains the example of oxygen manufacturing installation of the pure oxygen of normal pressure.In Fig. 9, described 2 ceramet complex structure bodies for convenience, but this also can be several.
On the surface of the mixed conducting ceramic porous article 105 of the tube shape that has sealed an end, formed the conjugant of mixed conducting ceramic dense body 106 thinly, engaged with mixed conducting ceramic dense body 107 by silver 108.And then manage 109 by silver 108 and stainless steel (SUS310S) and engage, remain on the basket.Under the occasion of this example, stainless steel (SUS310S) pipe 109 itself forms the part of basket.The ceramet complex structure body is accommodated among the heat-insulating material 110, and by importing the compressed air that is heated to 850 ℃ from introducing port 111 to reative cell, the ceramet complex structure body remains on high temperature.By the air that imports from introducing port 111, oxide ion sees through mixed conducting ceramic dense body 106, and the pure oxygen that obtains is reclaimed by delivery outlet 112.Again, the oxygen denuded air of partial pressure of oxygen decline is discharged from outlet 113.
[specific embodiment]
Below based on the clear and definite validity of the present invention of each concrete embodiment.
(embodiment 1)
In order to form SrCo 0.5Fe 0.5O xComposition, weighing strontium carbonate 32.44g, cobaltosic oxide 8.79g, iron oxide 8.77g mix with ball mill in isopropyl alcohol 120g.Mix after 2 hours, drying was removed isopropyl alcohol, 900 ℃ of roastings 12 hours.Is the tube shape of an end shutoff with the roasting powder that obtains at hydrostatic pressing 200MPa compacted under, burns till in atmosphere 5 hours at 1200 ℃.
Obtain the tube shape mixed conducting earthenware of the end shutoff of external diameter 13mm, internal diameter 9mm, length 50mm like this.In addition, prepared liner, the sealing liner is the pad that the silver clay sheet use cork perforator of thickness 0.3mm is cut into the ring-type of external diameter 13mm, internal diameter 9mm.The SUS310S pipe that is processed into external diameter 13mm, internal diameter 9mm is holded up, placed liner thereon,, hold up the tube shape mixed conducting earthenware of an end shutoff, point-blank arranged in series in order to clamp this.In liner portion, the pressure that the deadweight of the tube shape mixed conducting earthenware of an end shutoff produces has applied about 3500Pa.It was warmed up to 850 ℃ with 3 hours from room temperature in atmosphere, from 850 ℃ with 3 hours cool to room temperature.
Even the ceramet complex structure body that makes is conducted oneself with dignity sidewards and is added in the junction surface and also can not come off, confirmed good adaptation.In addition, the afterburning result who separates the junction surface, ceramic and silver-colored liner and silver-colored liner can separate absolutely with SUS310S, have confirmed that fissility is also good.
(embodiment 2)
The SUS310S pipe prepared of arranged in series embodiment 1, liner, and the tube shape mixed conducting earthenware of an end shutoff were warmed up to 850 ℃ with 3 hours from room temperature, the air-tightness of evaluation when this temperature in atmosphere in line.Figure 10 shows the skeleton diagram of estimating used device.The tube shape mixed conducting earthenware 114 inner alumina tubes that insert 115 by shutoff at one end import helium, will be from the gas gas chromatographic analysis of outlet 116 discharges.In addition, the basket 117 of alumina tube 115 pass-through facilities and when inserting leaks for fear of the gas at its position, has used the bonding agent 118 of epoxy system.Its result in discharging gas, except that helium, has detected and has seen through the oxygen of mixed conducting pottery, but fails to detect other gas such as nitrogen that the demonstration atmosphere enters from the outside.Because this situation is so confirmed that air-tightness is good.
(embodiment 3)
With the ceramet complex structure body heat treatment once more of adopting processing similarly to Example 1 and obtaining, estimate room temperature-high temperature (850 ℃) circulation patience.The highest with it repeatedly to 10 times, check air-tightness when the high temperature with embodiment 2 last the 10th time the samely.Its result has confirmed that air-tightness is good.Thereafter, cool to room temperature carries out evaluation similarly to Example 1, and the adaptation fissility is all good as a result.Because this situation, ceramet complex structure body of the present invention has confirmed circulation patience excellence.
(embodiment 4)
Discussed the effect of the heat treatment temperature that is used to obtain ceramet complex structure body of the present invention.The SUS310S pipe prepared of arranged in series embodiment 1, liner, and the tube shape mixed conducting earthenware of an end shutoff were warmed up to set point of temperature with 3 hours from room temperature in atmosphere in line, investigated cooled connecting state.Heat treatment temperature is warmed up to 1000 ℃ from 400 ℃ with 50 ℃ of scales.Its result is not having adaptation fully below 500 ℃, can not get the desirable effect of the present invention, but at susceptible of proof more than 500 ℃, below 950 ℃ good adaptation is arranged.In addition, when heat treatment temperature was brought up to 1000 ℃, the fissility of the complex structure body of gained reduced, and near the ceramic surface portion the composition surface is destroyed, with the junction surface fusion of silver.
(embodiment 5)
Use has been investigated zirconia (YSZ), the mixed conducting pottery La of the stabilized with yttrium oxide of oxide ion conductive pottery by the liner of the clay flake processing of silver 0.3Sr 0.7CoO x(LSC), electronic conductivity pottery La 0.9Sr 0.1MnO x(LSM) with as SUS310S, the YUS731 of hardware, the engagement characteristics of these 3 kinds of members of Incoloy800.YSZ uses commercial articles, and LSC and LSM use as embodiment 1 with the synthetic material of sintering process.Carry out similarly to Example 3 evaluation the results are summarized in table 2.In the table,, patience, be also deterioration not of air-tightness adaptation fissility even zero expression proceeds to 10 times repeatedly.By this result as can be known, complex structure body circulation patience of the present invention is all excellent.
The circulation patience of the various joints of table 2
SUS310S YUS731 Incoloy800
YSZ
LSC
LSM
(embodiment 6)
About the used liner of the present invention, the composition of its silver alloy of many variations has been investigated the adaptability at the grafting material of the object of the invention.At first, be produced on 9: 1-1: the alloy of 9 the range silver and the weight ratio of copper forms sheet and obtains liner.Estimate its adaptation fissility with method similarly to Example 1, estimate its air-tightness with similarly to Example 2 method, its result as can be known, aspect air-tightness and adaptation, the weight ratio of silver and copper is 9: 1-2: the 8th, good.Fissility is by weight surpassing 3.5: 6.5 o'clock deteriorations.Distinguished this be since when the content of silver be 35 quality % when following, the cause that silver-colored chemical stability can not be given full play to.
(embodiment 7)
About interpolation element, gold, palladium, zinc, the cadmium beyond the copper, carry out the investigation the same with embodiment 6.Confirmed: by making silver content is more than the 35 quality %, and any interpolation element all has good characteristic aspect adaptation, fissility and the air-tightness.
Below, in order to compare,, attempted the experimental evaluation same with present embodiment about ceramet complex structure body in the past with present embodiment.
(comparative example 1)
The La-Sr-Co-Fe that implements Si Gang and its joint research people (1988 annuals, Japanization association will, No. 7,1084-1089 page or leaf) report is oxide and mullite (mullite; Mullite) joint method of pipe carries out similarly to Example 1 adaptation and the evaluation of fissility, the evaluation of circulation patience similarly to Example 3.
As La-Sr-Co-Fe is the representative of oxide, makes La 0.2Sr 0.8Co 0.4Fe 0.6O xThe sintered body of forming, and the mullite pipe between, the silver-colored line of φ 1mm is done circlewise, fix heat treatment under the silver point temperature with silver paste.Its result, adaptation is good, but fissility is bad, can not separate pottery in non-destruction ground.In addition, about circulation patience, through 3 times repeatedly air-tightness promptly lose, the result who investigates the cause as can be known, micro-crack has taken place near the ceramic segment engaging.
(comparative example 2)
The same with comparative example 1, for whether other prior aries that confirm to enumerate in specification have the desirable characteristic of the present invention, implement the joint method of prior art, carry out similarly to Example 1 adaptation and the evaluation of fissility, the evaluation of circulation patience similarly to Example 3.It the results are summarized in table 3.As can be known, arbitrary technology does not all reach 10 times circulation patience, so the patience hurdle in table has reached circulation patience several times with numeral.
The engagement characteristics of table 3 prior art
Oxide-engagement member-joint the other side Adaptation Fissility Patience
キ system etc. SrCo 0.8Fe 0.2-Jin-quartz 3
バ ウ ミ-ス -etc. La 0.3Sr 0.7CoO-glass-quartz 1
Yi Teng etc. La 0.5Sr 0.5The CoO-pottery is bonding-aluminium oxide × 1
By table 3 clear and definite prior art do not have the engagement characteristics that can be applicable to oxygen delivery application device.
The 3rd example
The present invention is that the oxide ion that is made of principal part and blade of a sword portion is carried and use complex structure body, is for making principal part partly carry on a shoulder pole different functions with the blade of a sword, and with different material formation principal part and blade of a sword portion, and the complex structure body of joint.
At first, principal part is shared optionally and carried this function of oxide ion efficiently.By using oxide ion conveying property pottery, optionally carry oxide ion, by attenuate oxide ion conveying property pottery, making becomes dense film, can carry oxide ion expeditiously.Secondly, by on the porous ceramic matrix, forming aforementioned dense film, can guarantee mechanical strength.Oxide ion is carried the dense film of property pottery, Bao Yuehao more in the scope of 2 kinds can the isolation from oxygen dividing potential drop different mists.Specifically, below 1mm, below the preferred 0.1mm, most preferably below the 0.05mm.The ceramic matrix that has formed dense film is a porous matter, must make the porosity greatly to the degree of the conveying that can not hinder the oxygen composition and make the little degree of supporting aforementioned dense film to the remarkable reduction that does not cause mechanical strength of the porosity.Specifically, be more than 10%, below 70%, preferred more than 20%, below 60%, the porosity more than 30%, below 50% most preferably.The thickness of porous ceramic matrix in order not hinder the conveying of oxygen composition, is got over Bao Yuehao, but then, and must be thick to the degree that can fully guarantee as the mechanical strength of support.Specifically, below 20mm, below the preferred 5mm, most preferably below the 3mm.
Further, if do not hinder the material of the conveying of oxygen composition, then also can have other layer according to purposes.
On the other hand, the function that the blade of a sword is partly carried on a shoulder pole has following 3 functions.Be: (1) enhance mechanical strength; (2) provide fixing means; (3) electrical characteristics function.
For this 3 functions being described, the preferred concrete example that respectively illustrates complex structure body disclosed by the invention of Figure 11 A-Figure 11 C.Figure 11 A is the figure in the cross section of diagram tubular body, and blade of a sword portion engages with the bottom surface of principal part is whole.In this case, principal part is identical with the internal diameter of blade of a sword portion, the part that the external diameter of blade of a sword portion is only represented with x greatly than the external diameter of principal part, but that the internal diameter of principal part and blade of a sword portion there is no need is identical, for example, also can be the formation shown in Figure 11 B and Figure 11 C.But Figure 1B is bonded into the bond strength that can guarantee principal part and blade of a sword portion.Moreover, in the example of each figure of Figure 11 A-Figure 11 C, the cross section of respectively being cut into disk of principal part and blade of a sword portion is a concentric circles, and the relative position that engages also is the identical position relations of these concentrically ringed central shafts, but at part or all of blade of a sword portion, if its outside dimension radially is bigger than the outside dimension of the major diameter direction of tubulose principal part, then also can be the position relation of the off-centre of concentrically ringed central shaft dislocation.The cross section of respectively being cut into disk of principal part and blade of a sword portion also can be askew from concentrically ringed shape.Further, also can be that as shown in Figure 12, the part of blade of a sword portion is than the big structure of outside dimension of the major diameter direction of tubulose principal part discontinuously when seeing complex structure body of the present invention from above.
Secondly, 3 functions that the blade of a sword is partly carried on a shoulder pole are described.
(1), is meant more to strengthen the mechanical strength that depends on the porous ceramic matrix in fact about the enhancing of mechanical strength.Situation is seen thus, can use the compact substance pottery of mechanical strength excellence in blade of a sword portion.
(2) about the providing of fixing means, as described later, be meant that the complex structure body that the tubulose that will be made of principal part that is engaged and blade of a sword portion is provided is fixed on the means of metal system reaction vessel.For this reason, at part or all of blade of a sword portion, its outside dimension radially must be bigger than the outside dimension of the major diameter direction of principal part.About reaching what kind of degree particularly, carry kind to change according to oxide ion with the ability that will give with device, but the x during having represented from the outside dimension of the major diameter direction of principal part to each figure of Figure 11 A-Figure 11 C of the length of blade of a sword portion outside dimension radially can select in the scope more than the 2mm, below the 200mm.
At this, how to provide fixing means about blade of a sword portion, Yi Bian use each figure explanation of Figure 13 A and Figure 13 B, Yi Bian the reason that clear and definite x selects in the scope of 2mm-200mm.
Each figure of Figure 13 A and Figure 13 B is that Figure 11 A that will illustrate as the preferred concrete example of complex structure body disclosed by the invention takes out as representational structure, thereby conceptually shows its fixing means.Among each figure of Figure 13 A and Figure 13 B, engaged the complex structure body of principal part 201 and blade of a sword portion 202, engaged with hardware 204,, used stationary fixture 203 as its fixing means by engagement member 205.Stationary fixture 203 also can use welding, screw thread, other any means to engage with hardware 304, but also fixing complex structure body of the deadweight that only relies on stationary fixture 203, in this case, stationary fixture 203 does not contact mutually with hardware 204.
Clear and definite by Figure 13 A and Figure 13 B, bigger than the outside dimension of the major diameter direction of principal part in part or all of blade of a sword portion by its outside dimension radially, can use stationary fixture 203, fixedly become easy.But aforementioned x value is during less than 2mm, under the situation of Figure 13 A, the contact area of blade of a sword portion 202 and hardware 204 is insufficient, and under the situation of Figure 13 B, the contact area of blade of a sword portion 202 and stationary fixture 203 is insufficient, so it is complex structure body comes off sometimes, fixing insufficient.On the other hand, when at random increasing x,, when surpassing 200mm, not remarkable with integrated relevant effect of the present invention carrying out becoming obstacle aspect integrated.
(3), be the function that embodies in the occasion that makes blade of a sword portion have electrical characteristics about the electrical characteristics function.The concrete example of the occasion that respectively illustrates SOFC of Figure 14 A-Figure 14 C.
Figure 14 A is to have formed the complex structure body shown in that the principal part 206 of oxide ion conductive dense film and the 208a of blade of a sword portion constitute, Figure 11 A on mixed conducting porous ceramic matrix, and then, formed electronic conductivity porous layer 207 on the surface of principal part.This complex structure body is a tubular body, supplies with the side mist different with outside partial pressure of oxygen within it.For example, when the outside is the high mist of partial pressure of oxygen, inboard during for the low mist of partial pressure of oxygen, on the surface of electronic conductivity porous layer 207, produce positive potential, on the surface of mixed conducting porous ceramic matrix, produce negative potential, in the time of will drawing as terminal separately, can be used as the battery utilization.This battery is the insulating ceramics of compact substance by making the 208a of blade of a sword portion in constituting, and the reaction vessel of device also can directly be made hardware former state ground by containing metal member not on the loop of battery.
, can consider the structure shown in Figure 14 B and Figure 14 C in that thereby hardware is used the occasion that constitutes battery as the loop of battery.The 208b of blade of a sword portion uses the electronic conductivity or the mixed conducting pottery of compact substance, and at this moment, blade of a sword portion plays a part as electrode.Hardware is the part of cell circuit, in the time of therefore on being fixed on the reaction vessel of device, implements electric insulation between reaction vessel and hardware.
Like this, in the present invention, the due electrical characteristics of blade of a sword portion are any of electronic conductivity, oxide ion conveying property or electrical insulating property.Moreover, make blade of a sword portion what kind of electrical characteristics be arranged, can select aptly according to purposes or its using method of complex structure body.
As above-mentioned, have 3 functions by making blade of a sword portion, promptly (1) enhance mechanical strength, (2) provide fixing means, (3) electrical characteristics function, can reach purpose of the present invention for the first time.Secondly, have aforementioned 3 functions in order to make blade of a sword portion, blade of a sword portion must be electronic conductivity, oxide ion conveying property or the electrical insulating property pottery of compact substance.For example, when there not being blade of a sword portion, when only assembling oxide ion delivery application device with principal part of the present invention, 1. the mechanical strength of principal part is not high, and can not absorb with the ceramic segment of the difference of the coefficient of thermal expansion of metal easily destroyedly, does not 2. have fixing means, the integrated difficulty that becomes, 3. must new additional electrical loop in the reaction vessel side, install complicated, or the like problem can not solve.In addition, even used the occasion of metal in blade of a sword portion, can not solve aforesaid 1., 3..
At this, about complex structure body disclosed by the invention, the preferred concrete example beyond each figure that respectively illustrates Figure 11 A-Figure 11 C of Figure 15-Figure 18.They are the same with each figure of Figure 11 A-Figure 11 C, illustrate the cross section of tubular body, and the x among the figure represents the length from the outside dimension of the major diameter direction of principal part to blade of a sword portion outside dimension radially.
The structure that each figure expression of Figure 15 A-Figure 15 C engages with blade of a sword portion with the outside of principal part, Figure 15 A is the structure of enumerating as the example of the SOFC of representing with earlier figures 14B.As Figure 15 B and Figure 15 C, with whole structure that engages with principal part of blade of a sword portion, aspect bond strength, relatively be favourable with Figure 15 A, but, also can be the structure of Figure 15 A in the scope that can fully guarantee bond strength.
Each figure of Figure 16 A and Figure 16 B, the structure that expression engages with blade of a sword portion with the inner face of principal part, Figure 16 A is the structure of enumerating as the example of the SOFC of representing with earlier figures 14C.In this occasion, blade of a sword portion cross section is the tubular body of L font.Even in the case, Figure 16 B is also favourable than Figure 16 A aspect bond strength, but in the scope that can fully guarantee bond strength, also can be the structure of Figure 16 A.Any structure can both suit according to the purposes of complex structure body to select.
The complex structure body of each figure expression of Figure 17 A-Figure 17 C, Figure 18 A-Figure 18 C, based on the complex structure body of each figure of each figure of Figure 11 A-Figure 11 C and Figure 15 A-Figure 15 C, the cross section that makes blade of a sword portion is the tubular body of L font respectively.That is, each figure of Figure 17 A-Figure 17 C, the bottom surface of principal part and blade of a sword portion engage, each figure of Figure 18 A-Figure 18 C, the outside of principal part and blade of a sword portion engage.By like this, can not increase the used material of blade of a sword portion significantly, can increase the bonding area of blade of a sword portion and hardware efficiently, see from this point to can be described as favourable structure.
Secondly, in the present invention, oxide ion carry the property pottery dense film, porous ceramic matrix, and the pottery of blade of a sword portion all be the occasion of mixed conducting oxide, can make the complex structure body of manufacturing installations such as can performing well in pure oxygen, oxygen-enriched air and barrier film reactor.When making all potteries be the mixed conducting oxide, in the coupling of coefficient of thermal expansion be favourable aspect the eliminating of the unwanted chemical reaction of joint interface.
About oxide ion carry the property pottery dense film, and the pottery of porous ceramic matrix be in particular what kind of material, from the distortion of porous ceramic matrix begin temperature or kick off temperature than oxide ion carry be chosen as the high material of the densification temperature of property ceramic dense film good.This with complex structure body of the present invention in to make the method for principal part relevant nearly.
Moreover, in this said densification temperature, be that to make the relative density of its material for example be necessary firing temperature more than 94%.
The principal part of this complex structure body is at first after making the porous ceramic matrix, to make by forming oxide ion conveying property ceramic dense film thereon.Porous ceramic after the technology of for example synthetic the same with the common pottery mixing-roasting through raw meal, in the roasting powder, can obtain the polyvinylalcohol microsphere powder by moulding-burn till.This be because, in the stage of burning till, the polyvinyl alcohol micropowder is removed by oxidation gasification, remaining ceramic segment is sintered, and forms firm network.Like this, when making porous ceramic, the micropowder that mixes in the roasting powder can not be a polyvinyl alcohol also, also can be other organic compound, carbon dust and sawdust.The oxide ion that forms conveying property ceramic dense film also has all formation methods thereon.For example, make the roasting powder be distributed to the slurry that forms in the solvent, adopt coating process or infusion process or electrophoresis electrodeposition process etc. on the porous ceramic matrix, to pile up the roasting powder, burn till that it is also passable.
At this moment, if the densification temperature that oxide ion is carried the property ceramic dense film begins temperature or kick off temperature height than the distortion of porous ceramic matrix, when burning till dense film, the porous ceramic matrix begins distortion or decomposes so.Even the porous ceramic matrix does not have the occasion of the damage of this degree, by the firing process of dense film, vesicularity also reduces sometimes.So, must begin temperature or kick off temperature from the distortion of porous ceramic matrix than selecting the high material of the densification temperature of oxide ion conveying property ceramic dense film.
The distortion of the compact substance pottery of blade of a sword portion begins the relation of the densification temperature of temperature or kick off temperature and oxide ion conveying property ceramic dense film, changes according to manufacturing process.For example, before forming oxide ion conveying property ceramic dense film, occasion at porous ceramic matrix and blade of a sword portion joint, because above-mentioned reason, even about blade of a sword portion compact substance pottery, also must carry the high material of the densification temperature of property ceramic dense film than oxide ion and select from its distortion beginning temperature or kick off temperature.On the other hand, after forming oxide ion and carrying the property ceramic dense film, carry the porous ceramic matrix of property ceramic dense film and the occasion of blade of a sword portion, may not need to consider the aforementioned relation relevant with firing temperature at the joint aforesaid oxides ion that has been covered.
The dense film of oxide ion conveying property pottery, the preferred mixed conducting oxide that uses the following composition formula of usefulness (1) expression that the cubic system perovskite type crystal structure is arranged.
[La aA b][B1 cB2 dB3 (1-c-d)]O x …(1)
Perovskite type crystal structure general expression ABO 3-δExpression, except that cubic system, known have a lot of crystallographic systems such as three prismatic crystals, iris, hexagonal crystal.Its reason is the distortion of crystal structure, the regular irregular alignment or the AO of oxygen defect 3Atomic layer pile up difference, or the like.Again, when oxygen defect becomes many, 3-δ reduces at 2.5 o'clock from 3 in the aforementioned component formula, and it also is known being transformed into the brown Mi Lanaite Alcoa of other crystal structure structure.At these a lot of ABO 3-δAmong the Ca-Ti ore type crystal of forming, in the oxide of cubic system, found high oxide ion conductivity as can be known.
The inventor is conceived to the cubic system perovskite type crystal structure, investigates the big compositing range of oxide ion conductivity simultaneously, draws compositing range disclosed by the invention.
That is, be equivalent to aforementioned component formula ABO 3-δThe position of A of general expression be [La aA b], A is the combination of the element more than a kind or 2 kinds selected, 0≤a<0.5,0.5<b≤1 from Sr, Ba, Ca.The scope that limits a and b in this wise is because along with increasing La, the cubic system stabilisation, but too when increasing, the cause that the oxide ion conductivity reduces.
On the other hand, be equivalent to aforementioned component formula ABO 3-δThe position of the B of general expression is [B1 cB2 dB3 (1-c-d)], B1 is Co, the perhaps combination of the element of Co and Fe, Co/Fe ratio are more than 1; B2 is the combination of the element more than a kind or 2 kinds selected among Nb, Ta, In, Sn, V, Ti, Cr, Mn; B3 is the combination of the element more than a kind or 2 kinds selected among Li, Ni, Cu, Zn, Mg; 0.6≤c<1,0<d≤0.4.Limiting the position that is equivalent to B in this wise is because following reason.That is,, select Sr (Co, Fe) O as the basic composition of cube brilliant perovskite structure that high oxide ion conductivity is arranged xSystem, the result about the replacement at B position is studied finds to have 2 substituted element series that present different effects.At first, B2 is serial with cube crystal structure stabilisation, but because the valence mumber height, so be substituted element series with the effect that reduces oxygen defect.On with cube crystal structure stabilisation, the element of B2 series is necessary, but then, when B2 is 0.4 when above, then becomes the reason that makes the oxide ion conductivity low.So, as the scope of d regulation 0<d≤0.4.On the other hand, B3 series increases oxygen defect owing to valence mumber is low, the result has the effect that improves the oxide ion conductivity, but if replace too in large quantities, then be transformed into other crystal structures such as brown Mi Lanaite Alcoa structure from the Ca-Ti ore type rock-steady structure, the oxide ion conductivity reduces.So,, also be necessary for replacement amount less than 0.4 even for B3 series.And, be the combination of the element of Co or Co and Fe as B1, Co/Fe is than being to be reason according to such more than 1: when Fe than Co for a long time, also cause the oxide ion conductivity and reduce.
Moreover the chemical composition that the present invention limits is desirable, if the cubic system perovskite type crystal structure is stable, and can not damage the oxide ion conductivity greatly, even then the dissimilar metal of impurity level is blended in the oxide of composition formula (1) and also has no relations.
Complex structure body of the present invention, to be applicable to that oxide ion delivery application device is a purpose, if the reaction vessel with this device is that metal is made as prerequisite, then this complex structure body can be sought to be suitable on oxide ion delivery application device by making the complex structure body that engages with hardware most effectively.At this moment, hardware engaged to as if the blade of a sword portion of complex structure body, this is from the function of described blade of a sword portion can be self-evident before this.
For the hardware of this occasion, can use the stainless steel that constitutes by iron, chromium, nickel or general heat-resisting alloy etc. in a wide range.But target application of the present invention, be to be prerequisite with the operation under the high temperature, so (for example 850 ℃) deterioration when not having extreme oxidation of hardware self or fusion etc. as structural elements under hot conditions, this becomes of the present invention and the hardware relative restrictions.
Carry the joint method of using complex structure body about oxide ion of the present invention, not restricted by what, by engaging, as long as oxide ion carry property ceramic dense film, porous ceramic matrix, and blade of a sword portion compact substance pottery not because of distortion or decomposition etc. damage, then use what kind of method can.For example, in the joint of principal part and blade of a sword portion, the ceramic raw material powder identical with principal part or blade of a sword portion is dispersed in the solvent, the slurry of gained is coated in the junction surface, and makes its sintering (making it solid phase reaction), also can make its joint thus.In addition, in the joint of blade of a sword portion and hardware, by the metal that will under the processing temperature of device, soften, for example silver is used for engaging, can guarantee air-tightness, and the thermal expansion difference of the pottery of blade of a sword portion and hardware is engaged member and absorbs, can solve the problem of pottery cracking.Also can use the spy and open disclosed high temperature liner in the flat 7-57748 communique again.
Figure 19 has represented to use a plurality of oxide ions to carry examples with the oxide ion delivery application device of complex structure bodies, and this is only to carry oxide ion by air pressurized, obtains the example of oxygen manufacturing installation of the pure oxygen of normal pressure.In Figure 19, for convenience, described 2 complex structure bodies, but it also can be several.
Complex structure body 211 of the present invention uses stationary fixture 212, makes it to suppress blade of a sword portion and is fixed on the hardware 214.The hardware of this occasion becomes the part of the basket of device.On the composition surface of blade of a sword portion and hardware, insert and used the liner 213 of softening silver at high temperature, play air seal.Complex structure body 211 is accommodated in the heat-insulating material 215, imports the compressed air that is heated to 850 ℃ from introducing port 216 to reative cell, and complex structure body remains on high temperature thus.By the air that imports from introducing port 216, oxide ion is by the dense film of the mixed conducting pottery of formation complex structure body principal part, and the pure oxygen that obtains reclaims from delivery outlet 218.Again, the oxygen denuded air of partial pressure of oxygen attenuating is discharged from outlet 217.
[specific embodiment]
Below based on each concrete embodiment, clear and definite validity of the present invention.
Make principal part with method described below.
At first, make the porous ceramic of the tubular body of an end shutoff by following main points.
As raw material, use SrCO 3, Co 3O 4, Nb 2O 5, for forming Sr (Co 0.9Nb 0.1) O x, after the weighing requirement, be dispersant with the isopropyl alcohol, carry out 24 hours ball millings with zirconia ball and mix.Slurry after the dry mixed is separated brokenly, is contained in the angle sheath of MgO system, carries out 850 ℃, 12 hours roasting in atmosphere.In the roasting powder that obtains, add the PVA of 30wt%, carry out mixing in 2 hours with ball mill and pulverize.Use rubber die (the ラ バ one プ レ ス) method of dashing to press under the 200MPa the mixed powder moulding that obtains at CIP.This formed body is carried out 450 ℃, 5 hours ungrease treatment in the sheath of the angle of MgO system, then carry out burning till in 5 hours processing at 1275 ℃.At this firing temperature, the porous ceramic tubular body be can't see distortion and is decomposed.Like this, obtain the porous ceramic of tubular body of the end shutoff of the about φ 12mm of external diameter, long 100mm, material thickness 2mm.The porosity is 45%.
Then, on this porous ceramic, form the dense film of mixed conducting pottery by following main points.Moreover, as the dense film of mixed conducting pottery, find selected (La here 0.05Sr 0.95) (Co 0.95Nb 0.05) O xOccasion, densification temperature is 1200 ℃, owing to begin temperature or kick off temperature is low than the distortion of porous ceramic, so confirmed to satisfy the condition as dense film.
As raw material, use La 2O 3, SrCO 3, Co 3O 4, Nb 2O 5, in order to form (La 0.05Sr 0.95) (Co 0.95Nb 0.05) O x, after the weighing requirement, be dispersant with the isopropyl alcohol, carry out 24 hours ball millings with zirconia ball and mix.Slurry after the dry mixed is separated brokenly, is contained in the angle sheath of MgO system, carries out 850 ℃, 12 hours roasting in atmosphere.The roasting powder that obtains is dispersed in makes slurry in the water, dry in the coating of the outside of above-mentioned porous plastid, in 1200 ℃, atmosphere, carry out 5 hours sintering.The operation of this coating and barbecue is carried out 3 times repeatedly, form the dense film of mixed conducting pottery.The thickness of formed film is supposed thin film densification to solid density, and the weight change of the sample before and after then being formed by film is calculated the result who obtains, and is about 0.1mm as can be known.
Secondly make blade of a sword portion by the following stated main points.
The above-mentioned roasting powder that is used to make porous ceramic is contained in the mould of φ 20mm, and single shaft is shaped to the ingot sheet, carries out the CIP moulding again under 200MPa pressure.The formed body that obtains is carried out burning till in 1275 ℃, 5 hours in the sheath of the angle of MgO system.Obtain the sintered body of about φ 17mm plate-like.It is cut to the disk of 2mm, portion of disk center is being scraped out diameter 8mm size, make the sintered body of ring-type.
Principal part and blade of a sword portion, the structural engagement of pressing Figure 11 A.Joint method is, the slurry of above-mentioned dense film manufacturing usefulness is coated in the composition surface of principal part and blade of a sword portion, in atmosphere, 1200 ℃ of heat treatment 1 hour.
Use the complex structure body that obtains like this, estimate oxygen permeation rate.Between the blade of a sword portion of stainless steel 310S pipe and above-mentioned complex structure body, use the liner of silvery to engage, in air, reduce pressure the inboard cruelly in the outside.Measure the partial pressure of oxygen of depressurised side, based on the difference that sees through the partial pressure value of the occasion that does not have by the oxygen of sintered body, obtain oxygen permeation rate.Specimen temperature is 750 ℃.Measurement result has confirmed 1.5cc/cm 2The penetration speed of min.This value representation sees through the volume under the standard state of oxygen in the per unit surface area of mixed conductor, per minute, can be described as extremely excellent value.Having or not of the leakage of the gas by sample is the mist that the outside is become air and helium, uses helium leak detector to investigate.Its result can't see gas leaks.
Moreover the powder of partly gathering from dense film part, porous ceramic body portion and the blade of a sword of this complex structure body uses powder x-ray diffraction device investigation crystal structure in room temperature.Its result all is the cubic system perovskite type crystal structure as can be known.
According to the present invention, the complex that the sealing of high reliability excellence is at high temperature arranged can be provided, become the possibility that bottleneck, the slow extensive fields of exploitation can improve practicability for the improvement of present sealing.Particularly, be barrier film reactor, SOFC, oxygen purification devices and the heat exchanger etc. of representative by the partial oxidation that is used for manufacturing installations such as pure oxygen, oxygen-enriched air, appropriate hydrocarbon gas, can make big contribution to the raising of development rate.
According to the present invention, can give air-tightness high temperature under to pottery and the junction surface of hardware, the while can be sought the circulation patience excellence of high temperature-room temperature and the ceramet complex structure body of maintainability raising is achieved.
According to the present invention,, can seek the circulation patience excellence of high temperature-room temperature and liner that maintainability improves simultaneously and be achieved giving air-tightness under the high temperature with the junction surface of aforementioned ceramet complex structure body.
According to the present invention, in basket, possess aforementioned ceramet complex structure body and form, can give air-tightness under the high temperature, make the circulation patience excellence of high temperature-room temperature and maintainability improve, can realize at an easy rate that high efficiency oxygen delivery application device is achieved simultaneously the junction surface of aforementioned pottery and aforementioned metal member.
According to the present invention, oxide ion transfer efficiency excellence is provided, adapts to the oxide ion that has excellent intensity on a plurality of integrated and structures when using simultaneously and carry and use complex structure body, can be assembled into high efficiency oxide ion delivery application device thus.

Claims (5)

1. an oxide ion is carried and is used complex structure body, it is characterized in that, be to have an end by the principal part of the tubular body of shutoff, the complex structure body that forms with blade of a sword portion with the peristome side engagement of aforementioned principal part, the aforementioned principal part dense film that oxide ion is carried the property pottery that on the porous ceramic matrix, has been covered, aforementioned blade of a sword portion is the electronic conductivity by compact substance, oxide ion conveying property, or the tubular body of electrical insulating property pottery formation, on part or all of aforementioned blade of a sword portion, more than the big 2mm of outside dimension of its outside dimension radially than the major diameter direction of the principal part of aforementioned tubular body, the scope that 200mm is following, wherein, the porosity of aforementioned porous ceramic matrix is more than 10% below 70%, and its thickness is below the 20mm; The dense film of aforesaid oxides ion conveying property pottery has the cubic system perovskite type crystal structure, and be the mixed conducting oxide of representing with following composition formula, in following formula, A is the combination of the element more than a kind or 2 kinds selected from Sr, Ba, Ca; B1 is Co, and the perhaps combination of the element of Co and Fe, Co/Fe ratio are more than 1; B2 is the combination of the element more than a kind or 2 kinds selected among Nb, Ta, In, Sn; B3 is the combination of the element more than a kind or 2 kinds selected among Li, Ni, Cu, Zn, Mg; And 0≤a<0.5,0.5<b≤1,0.6≤c<1,0<d≤0.4,0.9≤a+b≤1.1, x make the electric charge of aforesaid compound become neutral number.
[La aA b][B1 cB2 dB3 (1-c-d)]O x
2. carry according to the oxide ion of claim 1 record and use complex structure body, it is characterized in that the distortion of the aforementioned porous ceramic matrix of this composite construction body and function begins temperature or the kick off temperature material formation higher than the densification temperature of the dense film of aforesaid oxides ion conveying property pottery.
3. carry according to the oxide ion of claim 1 record and use complex structure body, it is characterized in that the aforesaid oxides ion is carried the dense film of property pottery, aforementioned porous ceramic matrix and carried the blade of a sword portion of property pottery as oxide ion is the mixed conducting oxide.
4. carry according to the oxide ion of claim 1 record and use complex structure body, it is characterized in that, aforementioned blade of a sword portion engages with hardware.
5. an oxide ion delivery application device is characterized in that, has used the oxide ion conveying complex structure body of a plurality of claim 4 records.
CNB2005100914193A 2000-09-08 2001-09-07 Ceramic-metal composite, composite structure for transporting oxide ions, and composite having sealing property Expired - Fee Related CN100336580C (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP2000273165A JP2002083517A (en) 2000-09-08 2000-09-08 Composite structure for oxygen ion transport and applied device for oxygen ion transport
JP273165/2000 2000-09-08
JP162931/2001 2001-05-30

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
CNB018153453A Division CN1238097C (en) 2000-09-08 2001-09-07 Ceramic-metal composite, composite structure for transporting oxide ions, and composite having sealing property

Publications (2)

Publication Number Publication Date
CN1743056A CN1743056A (en) 2006-03-08
CN100336580C true CN100336580C (en) 2007-09-12

Family

ID=18759164

Family Applications (1)

Application Number Title Priority Date Filing Date
CNB2005100914193A Expired - Fee Related CN100336580C (en) 2000-09-08 2001-09-07 Ceramic-metal composite, composite structure for transporting oxide ions, and composite having sealing property

Country Status (3)

Country Link
JP (1) JP2002083517A (en)
CN (1) CN100336580C (en)
ZA (1) ZA200301964B (en)

Families Citing this family (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004337833A (en) * 2003-01-17 2004-12-02 Toshiba Ceramics Co Ltd Member for separating gas
DE102005005464B4 (en) * 2005-02-04 2007-06-14 Uhde Gmbh Composites of ceramic hollow fibers, process for their preparation and their use
JP2006273658A (en) * 2005-03-29 2006-10-12 Nippon Steel Corp Composite structure and its forming process
JP4808526B2 (en) * 2006-03-20 2011-11-02 新日本製鐵株式会社 Composite structure, method for producing composite structure, membrane oxygen separator, and membrane reactor
JP5013769B2 (en) 2006-08-03 2012-08-29 株式会社ノリタケカンパニーリミテド Oxygen separation membrane
KR101579308B1 (en) 2008-02-25 2015-12-21 가부시키가이샤 노리타케 캄파니 리미티드 Ceramic product and ceramic member bonding method
US11721841B2 (en) 2012-10-18 2023-08-08 Ambri Inc. Electrochemical energy storage devices
US10541451B2 (en) 2012-10-18 2020-01-21 Ambri Inc. Electrochemical energy storage devices
WO2015058010A1 (en) 2013-10-16 2015-04-23 Ambri Inc. Seals for high temperature reactive material devices
US11387497B2 (en) 2012-10-18 2022-07-12 Ambri Inc. Electrochemical energy storage devices
US11211641B2 (en) 2012-10-18 2021-12-28 Ambri Inc. Electrochemical energy storage devices
JP5210450B1 (en) 2012-11-07 2013-06-12 直芳 可知 Fuel cell and fuel cell system
WO2016141354A2 (en) 2015-03-05 2016-09-09 Ambri Inc. Ceramic materials and seals for high temperature reactive material devices
WO2017145903A1 (en) * 2016-02-25 2017-08-31 京セラ株式会社 Light-absorbing member, hydrogen production member, and hydrogen production device
EP3510647A4 (en) * 2016-09-07 2020-04-15 Ambri Inc. Seals for high temperature reactive material devices
US11929466B2 (en) 2016-09-07 2024-03-12 Ambri Inc. Electrochemical energy storage devices
WO2018187777A1 (en) 2017-04-07 2018-10-11 Ambri Inc. Molten salt battery with solid metal cathode

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH05156581A (en) * 1991-12-06 1993-06-22 Tokyo Seiko Co Ltd Steel cord
JPH06285620A (en) * 1993-03-31 1994-10-11 Isuzu Motors Ltd Brazing joined body and its joining method
US5376167A (en) * 1991-12-19 1994-12-27 Institut Francais Du Petrole Purifying device for hydrogen comprising a base made of an alloy of the same composition as that of the tubes
JPH07265673A (en) * 1994-03-28 1995-10-17 Ngk Insulators Ltd Joined body of metal coated ceramic to metal and gaseous hydrogen separating device using the same
JPH08132226A (en) * 1994-11-02 1996-05-28 Nippon Seisen Co Ltd Brazed structure of metal porous body and its production

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH05156581A (en) * 1991-12-06 1993-06-22 Tokyo Seiko Co Ltd Steel cord
US5376167A (en) * 1991-12-19 1994-12-27 Institut Francais Du Petrole Purifying device for hydrogen comprising a base made of an alloy of the same composition as that of the tubes
JPH06285620A (en) * 1993-03-31 1994-10-11 Isuzu Motors Ltd Brazing joined body and its joining method
JPH07265673A (en) * 1994-03-28 1995-10-17 Ngk Insulators Ltd Joined body of metal coated ceramic to metal and gaseous hydrogen separating device using the same
JPH08132226A (en) * 1994-11-02 1996-05-28 Nippon Seisen Co Ltd Brazed structure of metal porous body and its production

Also Published As

Publication number Publication date
CN1743056A (en) 2006-03-08
ZA200301964B (en) 2003-11-17
JP2002083517A (en) 2002-03-22

Similar Documents

Publication Publication Date Title
CN1238097C (en) Ceramic-metal composite, composite structure for transporting oxide ions, and composite having sealing property
CN100336580C (en) Ceramic-metal composite, composite structure for transporting oxide ions, and composite having sealing property
CN1235665C (en) Composite ceramic membrane oxygen separation method
CN1028493C (en) Novel solid multi-component membranes, electrochemical reactor and use of membranes and reactor for oxidation reactions
CN1272866C (en) Fuel cell module, separator structure used therein and structure for gas supply to fuel cell
CN1178297C (en) Heat sink material and method of manufacturing the heat sink material
CN1061176C (en) Electrochemical reactor for reacting oxygen-consuming gas with oxygen-containing gas
CN1250483C (en) Dielectric ceramic composite and electronic device
CN1148761C (en) Rare earth permanent magnet and method for producing the same
CN1021337C (en) Insulation formed of precipitated silica and fly ash
CN1089629C (en) Method and reactor for electrochemical conversion of material e. g. soot particles being insoluble in fluid
CN1303525A (en) Membrane electrode assemblies
CN1505072A (en) Dielectric ceramic, method for making the same, and monolithic ceramic capacitor
CN1475457A (en) Method for mfg. piezoelectric ceramics and piezodlectric elements
CN1949420A (en) Method of producing ceramic laminates, laminate electronic components and manufacturing method thereof
CN101080261A (en) Honeycomb filter manufacturing method and honeycomb filter
CN1071535A (en) The silver-rich conductor composition that thermal cycle and aging bonding force are high
CN1741311A (en) Proton conductive solid electrolyte, and fuel cell using the same electrolyte
CN1723581A (en) Solid oxide fuel cell and method for producing same
CN1635658A (en) Middle and low temperature ceramic oxide fuel cell and preparation process
CN1265490C (en) Electrode module
CN1029272C (en) Method of manufacturing oxide superconductor, and method of manufacturing composite oxide powder which is precursor of oxide superconductor
CN1856886A (en) Multilayer piezoelectric device
CN1294535A (en) Thermal decomposer for waste
CN1906793A (en) Storing method and storably treated body of high polymer electrolyte fuel cell stack

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20070912