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  • C04B2235/00—Aspects relating to ceramic starting mixtures or sintered ceramic products
  • C04B2235/70—Aspects relating to sintered or melt-casted ceramic products
  • C04B2235/96—Properties of ceramic products, e.g. mechanical properties such as strength, toughness, wear resistance
  • C04B2235/9669—Resistance against chemicals, e.g. against molten glass or molten salts
  • C04B2235/9692—Acid, alkali or halogen resistance

Definitions

• the invention relates to a refractory product comprising chromium oxide, especially used as inner coating of gasifier reactor, or "gasifier".
• a gasifier used to gasify coal is known.
• the coal gasification process known for about fifty years, is currently experiencing a strong development. It makes it possible, for example, from very diverse hydrocarbon materials, for example coal, petroleum coke, biomass, wood, charcoal or even heavy oils to be recycled, to produce synthesis gases serving as a share of clean energy source, and secondly of basic compounds for the chemical industry. This process also makes it possible to eliminate undesirable components, for example NOx, sulfur or mercury, before any discharge into the atmosphere.
• the principle of gasification consists of a controlled partial combustion, under pressure and in the presence of steam or oxygen, at a temperature of between 1000 and 1600 ° C.
• gasifiers There are different types of gasifiers, fixed bed, fluidized or driven. These gasifiers differ in the way in which the reactants are introduced, the manner in which the fuel-fuel mixture is carried out, the temperature and pressure conditions, and the process for removing ash or slag liquid residue resulting from the reaction.
• the composition of the slags in the gasifiers is typically SiO 2 , FeO or Fe 2 O 3 , CaO and Al 2 O 3 . It may also include other oxides from the gasifier feed products.
• FR 2 883 282 discloses an internal refractory coating of a gasifier having at least one region of a sintered material comprising, in percentages by weight, at least 40% chromium oxide (Cr 2 O 3 ) and at least 1% d zirconium oxide (Zr0 2 ), at least 20% by weight of said zirconium oxide (Zr0 2 ) being stabilized in the cubic and / or quadratic form.
• This coating thus has a better resistance to corrosion.
• WO 2008 109222 proposes a protective treatment of the refractory products constituting the refractory coating of the gasifiers.
• this object is achieved by means of a sintered refractory product comprising, in percentages by weight, more than 10% of chromium oxide (Cr 2 O 3 ), more than 2% of hafnium oxide. (Hf0 2 ), more than 1% of zirconium oxide (Zr0 2 ), the total content of oxides of chromium, hafnium and zirconium (Cr 2 0 3 + Hf0 2 + Zr0 2 ) being greater than 70% .
• hafnium oxide makes it possible to improve the resistance to thermal shocks and also to preserve or even improve the resistance to infiltration and the attack by the slags.
• a product according to the invention may still have one or more of the following optional features:
• hafnium oxide (Hf0 2 ) in the product is greater than 2.5%, or even greater than 3%, or even greater than 4%, in percentages by weight.
• the content of hafnium oxide (Hf0 2 ) in the product is less than 50%, or even less than 40%, or even less than 30%, or even less than 20%, or even less than 15%, or even less at 10%, or even less than 7%, or even less than 5%, in percentages by weight.
• more than 50%, more than 75%, or even more than 90% of the hafnium oxide of the product is contained in the matrix, in percentage by mass.
• the content of chromium oxide (Cr 2 O 3 ) is greater than 20%, even greater than 30%, even greater than 45%, even greater than 50%, or even greater than 60%, greater than 65%, and / or less than 95%, in percentages by weight.
• the content of zirconium oxide (Zr0 2 ) is greater than 4.5%, or even greater than 6%, or even greater than 8%, or even greater than 10%, or even greater than 15%, and / or less at 50%, less than 40%, in percentages by mass.
• more than 20%, more than 30%, more than 40%, more than 50%, more than 60% of the zirconium oxide in percentage by weight, is stabilized in the cubic and / or quadratic form ( or "tetragonal").
• the only zirconium oxide present in the matrix preferably represents more than 2.5% of the total mass of the product.
• the total content of oxides of chromium, hafnium and zirconium is greater than 80%, greater than 85%, greater than 90%, in percentage by mass.
• said product comprises at least one dopant, acting as stabilizer for zirconium oxide or not, chosen from CaO, MgO, Y 2 O 3 TiO 2 and their mixtures, preferably CaO and / or Y 2 O 3 , preferably Y 2 0 3 .
• dopant acting as stabilizer for zirconium oxide or not, chosen from CaO, MgO, Y 2 O 3 TiO 2 and their mixtures, preferably CaO and / or Y 2 O 3 , preferably Y 2 0 3 .
• the content of calcium oxide (CaO) is less than 4.0%, or even less than 3.0%, or even less than 2.0%, or even less than 1.0%, in percentages by weight.
• the magnesium oxide (MgO) content is less than 4.0%, or even less than
• the content of yttrium oxide (Y 2 O 3 ) is less than 4.0%, or even less than 3.0%, or even less than 2.0%, in percentages by weight.
• the content of yttrium oxide (Y 2 O 3 ) in the product is greater than 0.3%, preferably greater than 0.5%, preferably greater than 0.7% by weight percent.
• the content of titanium oxide (TiO 2 ) is less than 4.0%, or even less than 3.0%, or even less than 2.0%, or even less than 1.0%, in percentages by weight.
• the sum of the contents of oxides of calcium, magnesium, yttrium and titanium is less than 6.0%, or even less than 5.0% or even less than 4.0%, or even less than 3.0%, and / or greater than 0.5%, greater than 1.0%, or even greater than 2.0%, in percentages by weight.
• the dopant acts, at least in part, as a stabilizer for zirconium oxide.
• more than 50%, more than 75% or even more than 90%, more than 95%, even substantially 100% of the dopant, in particular calcium oxide and / or yttrium is contained in the matrix, in percent by mass.
• the content of aluminum oxide (Al 2 O 3 ) is greater than 1%, or even greater than 1, 5%, and / or less than 20%, or even less than 10%, or even less than 8%, even less than 5%, in percentages by weight.
• the content of silicon oxide (SiO 2 ) is greater than 0.5%, even greater than 0.7%, or even greater than 1%, and / or less than 3%, preferably less than 1.5%. %, in percentages by mass.
• the sum of the contents of chromium (Cr 2 O 3 ), zirconium (ZrO 2 ), hafnium (HfO 2 ), aluminum (Al 2 O 3 ) and silicon (SiO 2 ) oxides, calcium (CaO), magnesium (MgO), yttrium (Y 2 O 3 ) and titanium (TiO 2 ) is greater than 95%, preferably greater than 98%, in percentages by weight, the other constituents of product being preferably impurities.
• the impurities conventionally comprise iron, for the most part in Fe 2 O 3 form, and alkali metal oxides such as Na 2 0 and K 2 0. It is considered that such levels of impurities do not call into question the advantages provided by the invention.
• the oxides represent more than 90%, more than 95%, more than 99%, or even substantially 100% of the mass of the product.
• the open porosity of the product is greater than 5%, greater than 8%, greater than 10% and / or less than 25%, less than 20%, and even less than 15%.
• the product is in the form of a layer applied against the inner wall of a gasifier reactor or in the form of a block assembly arranged to protect said wall.
• a layer or all the blocks of the assembly consist of a product according to the invention.
• the granulate represents more than 60%, more than 70%, and / or less than 90%, or less than 80% of the mass of the product, the 100% complement being constituted by the matrix.
• the structure of the product has a granulate consisting, for more than 90%, or even more than 95% or even more than 97% of its mass, of chromium oxide, said granulate being bound by a matrix constituted , for more than 90%, or even more than 94% of its mass,
• zirconium oxide and / or chromium oxide and / or aluminum oxide optionally a dopant selected from CaO, MgO, Y 2 O 3 , TiO 2 , and mixtures thereof, the dopant acting as stabilizer of zirconium oxide or not.
• the dopant may be CaO and / or Y 2 0 3 , preferably Y 2 0 3 .
• the structure of the product has a granulate consisting, for more than 90%, of more than 95%, or even more than 97% of its mass, of zirconium oxide and / or hafnium oxide.
• the granulate being bound by a matrix consisting, for more than 90% or even more than 94% of its mass, of zirconium oxide and / or chromium oxide and / or aluminum oxide, and optionally hafnium oxide and optionally a dopant selected from CaO, MgO, Y 2 0 3 , TiO 2 and mixtures thereof, the dopant acting as a stabilizer for zirconium oxide or not .
• the dopant may be CaO and / or Y 2 O 3 , preferably Y 2 O 3 .
• the structure of the product has a granulate consisting, for more than 90%, of more than 95%, or even more than 97% of its mass, of zirconium oxide and / or hafnium oxide. and / or chromium oxide, said granulate being bound by a matrix consisting, for more than 80% or even more than 90% of its mass, of hafnium oxide and zirconium oxide doped with CaO and / or or Y2O 3 and optionally chromium oxide.
• the content of Al 2 O 3 in the matrix is greater than 1%, or even greater than 1, 5%, and / or less than 10%, or even less than 8%, or even less than 5%, in percentage by weight. mass on the basis of the mass of the oxides of the product.
• the matrix comprises at least 1.5% hafnium oxide, in percent by weight based on the mass of the product oxides.
• the invention also relates to a gasifier comprising a reactor provided with an inner wall coated, at least partially, with a refractory coating comprising a refractory product according to the invention, or even constituted by such products.
• Said refractory product may be in the form of a layer or in the form of a block.
• the invention also relates to a preform adapted to lead, by sintering, to a sintered refractory product according to the invention, and a particulate mixture adapted to lead, by shaping, to a preform according to the invention.
• the invention finally relates to a manufacturing method comprising the following successive steps:
• d) preferably, drying the preform, preferably in air or humidity controlled atmosphere, preferably so that the residual moisture of the preform is between 0 and 0.5%, e) baking of the preform, preferably in an oxidizing atmosphere, at a temperature between 1300 and 1600 ° C so as to form a sintered refractory product.
• the charge is adapted to lead, at the end of step e), to a sintered refractory product according to the invention.
• the sources of zirconium oxide may contain hafnium oxide, typically less than 2% hafnium oxide.
• hafnium oxide is preferably added to the feedstock from a source of hafnium oxide comprising more than 50%, more than 75%, more than 90%, or even substantially 100% by weight. % hafnium oxide.
• a source of hafnium oxide comprising more than 50%, more than 75%, more than 90%, or even substantially 100% by weight.
• % hafnium oxide For example, a powder of particles of hafnium oxide is added.
• the hafnium oxide provided by the zirconium oxide source is then taken into account. Definitions
• preform conventionally means a set of bound particles by means of a binder, usually temporary, and whose microstructure will evolve during sintering.
• a preform may in particular be in the form of a block or a layer, for example projected onto a wall of a reactor.
• particle is meant a solid object within a powder, or “particulate mixture”.
• particles having a size greater than 150 ⁇ called “grains”, and those having a size less than or equal to 150 ⁇ , called “fine particles” or “matrix particles”. All the grains constitute the “granulate”.
• the set of matrix particles constitutes the "matrix fraction”.
• grains and matrix particles are also called “granulate” and “matrix fraction” after they have been joined in the form of a preform. "Granulate” also refers to grains bonded by the matrix after sintering.
• particle mixture is meant a dry mixture of particles (unrelated).
• the "size" of a particle is the average of its largest dimension dM and its smallest dimension dm: (dM + dm) / 2.
• the size of the particles of a particulate mixture is evaluated classically by a particle size distribution characterization performed with a laser granulometer.
• the laser granulometer may be, for example, a Partica LA-950 from the company HORIBA.
• the percentiles or "percentiles" (D 10 ), 50 (D 50 ), 90 (D 90 ) and 99.5 (D 99.5 ) of a powder are the particle sizes corresponding to the percentages, by mass, of 10%, 50%, 90% and 99.5%, respectively, on the cumulative particle size distribution curve of the powder particles, the particle sizes being ranked in ascending order. For example, 10% by weight of the particles of the powder have a size less than D 10 and 90% by weight of the particles have a size greater than D 10 . Percentiles can be evaluated using a particle size distribution using a laser granulometer.
• the “maximum size” is the 99.5 percentile (D 99.5 ) of said powder.
• the “median size” of a powder is called the percentile D 50 , ie the size dividing the particles into first and second populations equal in mass, these first and second populations comprising only particles having a size upper or lower respectively to the median size.
• block is meant a solid object obtained by molding a filler comprising a particulate mixture (unlike a coating layer).
• matrix is meant a crystallized phase or not, ensuring a continuous structure between the grains and obtained during sintering from the matrix fraction.
• Interconnecting is a heat treatment by which refractory particles of a preform are transformed to form a matrix which bonds other particles of said preform together.
• Refractory product means a product having a melting point or dissociation greater than 1000 ° C.
• impurities is meant the inevitable constituents introduced involuntarily and necessarily with the raw materials or resulting from reactions with these constituents. Impurities are not necessary constituents, but only tolerated. Preferably, the mass quantity of the impurities is less than 2%, less than 1%, less than 0.5%, or even substantially zero.
• precursor of a compound or an element is meant a constituent capable of supplying said compound, or said element respectively, during the implementation of a manufacturing method according to the invention.
• the contents of oxides refer to the overall contents for each of the corresponding chemical elements, expressed in the form of the most stable oxide, according to the usual convention of the industry.
• the sintered refractory product according to the invention consists of bound grains surrounded by a matrix.
• the grains may have various chemical analyzes, in particular chromium oxide.
• the aggregate may consist, for more than 90% or more of
• zirconium oxide and / or hafnium oxide and / or chromium oxide in particular chromium oxide.
• the matrix preferably comprises hafnium oxide.
• the only hafnium oxide present in the matrix is preferably more than 1%, even more than 2%, or even more than 3% of the total mass of the product.
• the matrix preferably comprises zirconium oxide.
• the only zirconium oxide present in the matrix is preferably more than 2.5%, or even more than 5% or even more than 10% of the total mass of the product.
• the zirconium oxide may or may not be stabilized by a dopant.
• the matrix may consist, for more than 90% or even more than 94% of its mass, of zirconium oxide and / or of hafnium oxide and / or chromium oxide and / or aluminum oxide, and optionally a dopant selected from CaO, gO, Y 2 0 3 , TiO 2 , and mixtures thereof, the dopant acting as stabilizer for zirconium oxide or not.
• the dopant is CaO and / or Y 2 O 3 , preferably Y 2 O 3 .
• the product comprises as a percentage by weight based on the oxides, for a total of 100%,
• Steps a) to e) are steps conventionally used to manufacture sintered products.
• step a) a charge is prepared comprising:
• a particulate mixture consisting of particles of the oxides intended to constitute the sintered refractory product and / or particles of precursors of these oxides
• the composition of the particulate mixture of the filler is determined according to the final composition of the block.
• the particulate mixture consists of more than 90%, more than 95%, even substantially 100% by weight of particles having a size less than 20 mm.
• the grains represent more than 60% and / or less than 90%, less than 80% of the mass of the particulate mixture, the 100% complement consisting of the matrix particles.
• the manner of determining the amounts of oxides or precursors of oxides in the feed is well known to those skilled in the art.
• those skilled in the art know that the chromium, aluminum and zirconium oxides present in the feedstock are found in the refractory product manufactured. Some oxides can also be provided by the additives.
• the composition of the feedstock may therefore vary, in particular as a function of the quantities and the nature of the additives present in this feedstock.
• the chromium oxide may be provided as a mixture of sintered or fused particles of chromium oxide.
• the source of zirconium oxide comprises more than 80%, preferably more than 90%, by weight of zirconium oxide.
• the zirconium oxide may be provided in the form of an unstabilized zirconium oxide powder and / or stabilized zirconium oxide.
• the zirconium oxide can be stabilized by means of a stabilizing dopant and / or by heat treatment at a very high temperature (typically greater than 1700 ° C.).
• a very high temperature typically greater than 1700 ° C.
• the dopant is selected from CaO, MgO, Y 2 O 3 , TiO 2 and mixtures thereof.
• the zirconium oxide is preferably introduced, for more than 70%, more than
• the zirconium oxide of the matrix fraction is provided in stabilized form by a dopant.
• the zirconium oxide is doped with more than 3%, or even more than 4%, or even more than 5% by said dopant, in weight percent.
• the dopant is preferably Y 2 0 3 and / or CaO.
• the hafnium oxide may be contributed, in part, by the source of zirconium oxide.
• at least 1.5% by weight is added of a powder comprising, in percentage by mass, more than 70%, more than 80%, more than 90%, or substantially 100% hafnium oxide.
• the hafnium oxide is preferably introduced, for more than 70%, more than 80%, more than 90%, or even substantially 100% of its mass, in the form of matrix particles.
• the aluminum oxide may in particular be provided in the form of a mixture of particles of calcined or reactive alumina, or even of white corundum.
• the yttrium oxide of the matrix fraction is provided by a powder comprising more than 80%, preferably more than 90%, or even more than 95% or substantially 100% by weight of oxide of yttrium.
• the yttrium oxide and / or calcium oxide CaO of the matrix fraction is provided by the zirconium oxide source.
• the additives can be added to the load to ensure sufficient plasticity during the shaping step b) and to give sufficient strength to the preform obtained at the end of steps c) and d).
• usable additives well known to those skilled in the art, mention may be made in a nonlimiting manner:
• temporary binders that is to say, removed in whole or in part during the drying and cooking
• organic such as resins, derivatives of cellulose or lignone, polyvinyl alcohols
• the amount of temporary binder is between 0.1 and 6% by weight relative to the mass of the particulate mixture of the filler
• shaping agents such as magnesium or calcium stearates; hydraulic binders such as a CaO aluminate cement;
• deflocculants such as alkaline polyphosphates or methacrylate derivatives; sintering promoters such as titanium dioxide or magnesium hydroxide;
• Additions of clay type that will facilitate implementation and help sintering. These additions provide alumina and silicon oxide, and some oxides of alkali or alkaline earth metals, or even iron oxide, depending on the type of clay.
• the amounts of additives are not limiting. In particular, the quantities conventionally used in the sintering processes are appropriate.
• the clay content in the feedstock is greater than 1.0%, greater than 1.5%, and / or less than 5.0%, less than 3.0%, mass percent based on oxides.
• an additive provides one or more of the oxides included in the composition of the refractory product, it is preferably taken into account to determine the composition of the particulate mixture.
• the charge comprises, in percentage by mass:
• the grains and the matrix particles together represent more than 94%, preferably more than 95% of the mass of the filler.
• the mixture of the various constituents of the charge is continued until a substantially homogeneous mass is obtained.
• the charge is preferably packaged.
• it is thus ready-to-use.
• the invention also relates to a particulate mixture as described above and to a filler prepared or likely to have been prepared in a step a).
• step b) the charge is placed in a mold and then shaped.
• a specific pressure of 400 to 800 Kg / cm 2 is suitable.
• the pressing is preferably performed uniaxially or isostatically, for example by means of a hydraulic press. It can be advantageously preceded by a manual or pneumatic tamping operation and / or vibration.
• step c) the preform thus obtained is demolded.
• step d) the drying can be carried out at a moderately high temperature. Preferably, it is carried out at a temperature of between 1 and 200 ° C. It typically lasts between 10 hours and one week depending on the format of the preform, until the residual moisture of the preform is less than 0.5%.
• the invention also relates to a preform obtained in step c) or in step d).
• step e) the dried preform is cooked.
• the duration of the cooking between 3 and 15 days cold cold, varies depending on the composition but also the size and shape of the preform.
• the baking cycle is preferably carried out conventionally, under air, at a temperature of between 1300 ° C and 1600 ° C.
• the sintered refractory product obtained at the end of step e) is in the form of a block having a mass greater than 1 kg and / or having all dimensions greater than 100 mm.
• the sintered refractory product obtained at the end of step e) proved to be particularly resistant to the stresses encountered inside the gasifier reactors, in particular resistant to infiltration by the slags or the ash. fusion.
• the firing step e) can be carried out, totally or in part, after assembly of the preform in the reactor.
• the blocks are assembled by means of suitable expansion joints, according to techniques well known to those skilled in the art.
• the invention also relates to a refractory product according to the invention in the form of a coating of a reactor, in particular a gasifier.
• a filler for example manufactured according to step a) above, may be applied in a layer on the inner surface of the reactor wall, for example by casting, vibrocolding or spraying, depending on the requirements and with a great flexibility, then sintered in situ during the preheating of the reactor, so as to achieve a coating of a refractory product according to the invention.
• Sintering preferably takes place at atmospheric pressure, preferably under an oxidizing atmosphere and preferably at a temperature between 1300 and 1600 ° C.
• chromium oxide powder with a purity of 98% Cr 2 0 3 by mass, and consisting of at least 90% by mass of particles having a size greater than 20 microns but less than 5 mm (G1 powder) ,
• powder of a solid solution Zr0 2 -Hf0 2 comprising 80% by weight of hafnium oxide and 20% by weight of zirconium oxide, and consisting of at least 90% by mass of particles having a size greater than 20 microns but less than 5 mm (powder G2),
• corundum powder and a solid solution Zr0 2 -Hf0 2 comprising 40% by weight of hafnium oxide, 10% by weight of zirconium oxide and 50% by weight of alumina, and consisting of less than 90% by mass of particles having a size greater than 20 microns but less than 5 mm (powder G3),
• pigmented chromium oxide powder > 98% Cr 2 0 3 ) whose median size (D 50 ) is less than 2 microns (powder P1),
• zirconium oxide powder (> 98% by weight of Zr0 2 ) stabilized with 4% by weight of CaO, the particle size being less than 50 microns, the size median being about 12 ⁇ , and said particles having about 70% of zirconium oxide in quadratic and / or cubic form (powder P2), alumina powder (> 98% by weight of Al 2 O 3 ) of which the median size (D 50 ) is less than 10 microns (powder P3),
• hafnium oxide powder > 97% by mass of Hf0 2 ) whose median size (D 50 ) is less than 2 microns (powder P4),
• additives RR40 clay with an alumina content greater than 30%.
• the tested products were manufactured according to steps a) to e) described above.
• step a the raw materials as indicated in Table 1 were mixed with 1.3-2% RR40 clay and about 3% water and 0.3-0.7% water. Binders (magnesia stearate and Bretax C) were added to the particulate mixture as a percentage based on said particulate mixture.
• step b) compaction of the charge inside the mold was carried out at a pressure of 600 Kg / cm 2 so as to form a preform.
• step d) the cooking was carried out in air at a temperature of between 1400 and 1600 ° C to form a sintered refractory product.
• Density and open porosity measurements were performed according to the ISO 5017 standard on products prior to any corrosion.
• the slag used having the following mass composition:
• the basicity index B of this slag that is to say the mass ratio (CaO + MgO + Fe 2 O 3) (SiO 2 + Al 2 O 3 ) was typically of the order of 0.6.
• the weight ratio CaO / SiO 2 was of the order of 0.4.
• the corrosion indicator (1c) is equal, for a given section of the immersed portion of the test piece, to the ratio of the percentage of surface loss of the test piece of the reference example to the percentage of surface loss of the test piece.
• the sample of the example considered, multiplied by 100. is therefore 100 for the reference product and a value greater than 100 indicates a better resistance to corrosion.
• the depth of CaO penetration from the slag is measured using a microprobe obtained on a metallographic section.
• the penetration indicator (Ip) is equal to the ratio of the penetrated depth of the test specimen of the reference example to the penetrated depth of the specimen of the example considered, multiplied by 100. Thus, Ip is 100 the reference product and a value greater than 100 indicates better resistance to slag penetration.
• Product No. 1 is the reference product.
• Table 1 makes it possible to verify that the presence of hafnium oxide and a high content of Cr 2 O 3 + Hf0 2 + Zr0 2 make it possible to improve the resistance to thermal shocks. It also shows that the presence of hafnium oxide makes it possible to maintain or even improve the corrosion resistance (index 1c).
• the refractory product according to the invention advantageously makes it possible to improve the resistance to thermal shocks by maintaining a good resistance to corrosion by the slags encountered in the gasifier reactors.
• zirconium oxide doped with yttrium oxide may have a favorable effect for the resistance to penetration of the slag (Ip).
• the application of the sintered refractory product according to the invention is not limited to a gasifier.

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