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    METHOD FOR MAKING DOLOMITE POROUS, MANUFACTURING METHOD OF POROUS DOLOMITE MATERIAL, POROUS DOLOMITE MATERIAL OBTAINED BY THE MANUFACTURING METHOD AND UTILIZATION METHOD OF THE POROUS DOLOMITE MATERIAL

    New search for: ITAYA YUKI
    New search for: KUNINISHI TAKESHI
    New search for: HAYASHI SHINTARO

    PROBLEM TO BE SOLVED: To provide a method for making dolomite porous enhancing adsorption performance by making porous with enhancing pore volume of dolomite without depending on difference of a composition due to production place of a dolomite ore which is a raw material and settings of burning conditions such as temperature, a manufacturing of a porous dolomite material, the porous dolomite material obtained by the manufacturing method and a utilization method of the porous dolomite material.SOLUTION: There is provided a method for making dolomite porous and high adsorption by burning so that the content of a retained CaMg(CO)phase in a dolomite burnt article analyzed using a Rietveld method by powder X-ray diffraction of the dolomite burnt article is 0.4≤x≤35.4 (mass%) and adjusting retained amount of the CaMg(CO)phase, and the porous dolomite material can be used for exhaust gas adsorption or virus inactivation.SELECTED DRAWING: None

    【課題】本発明は、原料となるドロマイト鉱石の産地による組成の相違や温度等の焼成条件の設定等に左右されることがなく、ドロマイトの細孔容積を高めることで多孔質化して吸着性能を向上させた、ドロマイトの多孔質化方法、多孔質ドロマイト材の製造方法、該製造方法により得られた多孔質ドロマイト材及び該多孔質ドロマイト材の利用方法を提供する。【解決手段】本発明のドロマイトの多孔質化方法は、ドロマイト焼成物の粉末X線回析によるリートベルト法を用いて解析したドロマイト焼成物中の残留CaMg(CO3)2相の含量が、0.4≦x≦35.4(質量%)となるように焼成してCaMg(CO3)2相の残留量を調整することで、ドロマイトを多孔質化して高吸着性とする、ドロマイトの多孔質化方法であり、多孔質ドロマイト材は、特に、排ガス吸着用もしくはウィルス不活化用として利用できる。【選択図】なし

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    METHOD FOR MAKING DOLOMITE POROUS, MANUFACTURING METHOD OF POROUS DOLOMITE MATERIAL, POROUS DOLOMITE MATERIAL OBTAINED BY THE MANUFACTURING METHOD AND UTILIZATION METHOD OF THE POROUS DOLOMITE MATERIAL

    New search for: ITAYA YUKI
    New search for: KUNINISHI TAKESHI
    New search for: HAYASHI SHINTARO

    PROBLEM TO BE SOLVED: To provide a method for making dolomite porous enhancing adsorption performance by making porous with enhancing pore volume of dolomite without depending on difference of a composition due to production place of a dolomite ore which is a raw material and settings of burning conditions such as temperature, a manufacturing of a porous dolomite material, the porous dolomite material obtained by the manufacturing method and a utilization method of the porous dolomite material.SOLUTION: There is provided a method for making dolomite porous and high adsorption by burning so that the content of a retained CaMg(CO)phase in a dolomite burnt article analyzed using a Rietveld method by powder X-ray diffraction of the dolomite burnt article is 0.4≤x≤35.4 (mass%) and adjusting retained amount of the CaMg(CO)phase, and the porous dolomite material can be used for exhaust gas adsorption or virus inactivation.SELECTED DRAWING: None

    【課題】本発明は、原料となるドロマイト鉱石の産地による組成の相違や温度等の焼成条件の設定等に左右されることがなく、ドロマイトの細孔容積を高めることで多孔質化して吸着性能を向上させた、ドロマイトの多孔質化方法、多孔質ドロマイト材の製造方法、該製造方法により得られた多孔質ドロマイト材及び該多孔質ドロマイト材の利用方法を提供する。【解決手段】本発明のドロマイトの多孔質化方法は、ドロマイト焼成物の粉末X線回析によるリートベルト法を用いて解析したドロマイト焼成物中の残留CaMg(CO3)2相の含量が、0.4≦x≦35.4(質量%)となるように焼成してCaMg(CO3)2相の残留量を調整することで、ドロマイトを多孔質化して高吸着性とする、ドロマイトの多孔質化方法であり、多孔質ドロマイト材は、特に、排ガス吸着用もしくはウィルス不活化用として利用できる。【選択図】なし

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    METHOD FOR MAKING DOLOMITE POROUS, MANUFACTURING METHOD OF POROUS DOLOMITE MATERIAL, POROUS DOLOMITE MATERIAL OBTAINED BY THE MANUFACTURING METHOD AND UTILIZATION METHOD OF THE POROUS DOLOMITE MATERIAL

    New search for: ITAYA YUKI
    New search for: KUNINISHI TAKESHI
    New search for: HAYASHI SHINTARO

    PROBLEM TO BE SOLVED: To provide a method for making dolomite porous enhancing adsorption performance by making porous with enhancing pore volume of dolomite without depending on difference of a composition due to production place of a dolomite ore which is a raw material and settings of burning conditions such as temperature, a manufacturing of a porous dolomite material, the porous dolomite material obtained by the manufacturing method and a utilization method of the porous dolomite material.SOLUTION: There is provided a method for making dolomite porous and high adsorption by burning so that the content of a retained CaMg(CO)phase in a dolomite burnt article analyzed using a Rietveld method by powder X-ray diffraction of the dolomite burnt article is 0.4≤x≤35.4 (mass%) and adjusting retained amount of the CaMg(CO)phase, and the porous dolomite material can be used for exhaust gas adsorption or virus inactivation.SELECTED DRAWING: None

    【課題】本発明は、原料となるドロマイト鉱石の産地による組成の相違や温度等の焼成条件の設定等に左右されることがなく、ドロマイトの細孔容積を高めることで多孔質化して吸着性能を向上させた、ドロマイトの多孔質化方法、多孔質ドロマイト材の製造方法、該製造方法により得られた多孔質ドロマイト材及び該多孔質ドロマイト材の利用方法を提供する。【解決手段】本発明のドロマイトの多孔質化方法は、ドロマイト焼成物の粉末X線回析によるリートベルト法を用いて解析したドロマイト焼成物中の残留CaMg(CO3)2相の含量が、0.4≦x≦35.4(質量%)となるように焼成してCaMg(CO3)2相の残留量を調整することで、ドロマイトを多孔質化して高吸着性とする、ドロマイトの多孔質化方法であり、多孔質ドロマイト材は、特に、排ガス吸着用もしくはウィルス不活化用として利用できる。【選択図】なし

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    Title:

    METHOD FOR MAKING DOLOMITE POROUS, MANUFACTURING METHOD OF POROUS DOLOMITE MATERIAL, POROUS DOLOMITE MATERIAL OBTAINED BY THE MANUFACTURING METHOD AND UTILIZATION METHOD OF THE POROUS DOLOMITE MATERIAL

    Additional title:

    ドロマイトの多孔質化方法、多孔質ドロマイト材の製造方法、該製造方法により得られた多孔質ドロマイト材及び該多孔質ドロマイト材の利用方法

    Contributors:

    ITAYA YUKI (author) / KUNINISHI TAKESHI (author) / HAYASHI SHINTARO (author)

    Publication date:

    2016-11-17

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Japanese

    Classification:

    IPC:  C01F COMPOUNDS OF THE METALS BERYLLIUM, MAGNESIUM, ALUMINIUM, CALCIUM, STRONTIUM, BARIUM, RADIUM, THORIUM, OR OF THE RARE-EARTH METALS , Verbindungen der Metalle Beryllium, Magnesium, Aluminium, Calcium, Strontium, Barium, Radium, Thorium oder der Seltenen Erden / A01N PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF , Konservieren von Körpern von Menschen, Tieren, Pflanzen oder deren Teilen / A01P BIOCIDAL, PEST REPELLANT, PEST ATTRACTANT OR PLANT GROWTH REGULATORY ACTIVITY OF CHEMICAL COMPOUNDS OR PREPARATIONS , Biozide Wirkung, Schädlinge vertreibende, Schädlinge anlockende oder Pflanzenwachstum regulierende Wirkung von chemischen Verbindungen oder Mitteln / B01D SEPARATION , Trennen / B01J Chemische oder physikalische Verfahren, z.B. Katalyse oder Kolloidchemie , CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY / C04B Kalk , LIME

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