High surface area permeable material
First Claim
1. A method of producing an integral, three-dimensional structure providing a plurality of separate, interpenetrating, three-dimensional domains or channels, each of said domains or channels being a closed system of connected porosity or permeability with multiple interconnections only with respect to its respective domain or channel, each of said domains or channels being interpenetrating within said structure, which comprises filling or impregnating with a settable or curable liquid a porous, permeable, three-dimensional structure characterized by having a single interpenetrating, three-dimensional, multiple-connected channel or flowpath therein defined by solid material making up said three dimensional structure such that said flowpath or channel is occupied by said settable or curable liquid, removing said settable or curable liquid from said three-dimensional structure such that the surface of the solid material originally making up said three-dimensional structure and defining said flowpath or channel therein is coated with said settable or curable liquid, curing or setting said curable or settable liquid on said surface and removing from said structure the resulting coated solid material originally making up said structure thereby creating a second interpenetrating, three-dimensional, multiple-connected channel or flowpath within said structure, said second channel or flowpath being defined by the resulting cured or set curable or settable liquid coating the surface of the solid material originally making up said structure.
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Abstract
Three-dimensional structures providing a plurality of separate interpenetrating, three-dimensional domains or channels or flowpaths, each of said domains or channels or flowpaths being a closed system of connected porosity or permeability and each of said domains or channels or flowpaths being interpenetrating within said structure, have been prepared. These structures are prepared from porous permeable precursor materials having a single three-dimensional domain or channel or flowpath as described above. Suitable precursor materials are provided by the abundant porous carbonate skeletal material of marine life, e.g. the coral Porites skeletal aragonite. For example, by coating the surfaces of such materials with a liquid material capable of being cured or set to a solid, followed by curing or setting and dissolution, e.g. chemical etching, of the coated skeletal material, there is produced a three-dimensional structure in accordance with this invention possessing two separate interpenetrating, three-dimensional domains or channels or flowpaths defined by the residual cured or set coating material. The resulting structure of this invention can be adapted such that a fluid can be applied to one side or face of the structure to flow into and out of such structure via only one of said channels or flowpaths and when so adapted can be employed in apparatus for the treatment or handling of one or more of the fluid streams flowing therethrough.
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Citations
13 Claims
- 1. A method of producing an integral, three-dimensional structure providing a plurality of separate, interpenetrating, three-dimensional domains or channels, each of said domains or channels being a closed system of connected porosity or permeability with multiple interconnections only with respect to its respective domain or channel, each of said domains or channels being interpenetrating within said structure, which comprises filling or impregnating with a settable or curable liquid a porous, permeable, three-dimensional structure characterized by having a single interpenetrating, three-dimensional, multiple-connected channel or flowpath therein defined by solid material making up said three dimensional structure such that said flowpath or channel is occupied by said settable or curable liquid, removing said settable or curable liquid from said three-dimensional structure such that the surface of the solid material originally making up said three-dimensional structure and defining said flowpath or channel therein is coated with said settable or curable liquid, curing or setting said curable or settable liquid on said surface and removing from said structure the resulting coated solid material originally making up said structure thereby creating a second interpenetrating, three-dimensional, multiple-connected channel or flowpath within said structure, said second channel or flowpath being defined by the resulting cured or set curable or settable liquid coating the surface of the solid material originally making up said structure.
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5. A method of producing an integral, three-dimensional structure providing a plurality of separate, interpenetrating, three-dimensional domains or channels, each of said domains or channels being a closed system of connected porosity or permeability with multiple interconnections only with respect to its respective domain or channel, each of said domains or channels being interpenetrating within said structure, which comprises filling or impregnating with a settable or curable liquid a porous, permeable, three-dimensional structure characterized by having a single interpenetrating, three-dimensional, multiple-connected channel or flowpath therein defined by the solid material making up said three-dimensional structure such that said flowpath or channel is occupied by said settable or curable liquid, removing said settable or curable liquid from said three-dimensional structure such that the surface of the solid material originally making up said three-dimensional structure and defining said flowpath or channel therein is coated with said settable or curable liquid, curing or setting said curable or settable liquid on said surface, skin coating and skin impregnating the outside surfaces of said three-dimensional structure with a curable or settable liquid, setting or curing said settable or curable liquid thereon, removing from opposite or opposed surfaces of said skin coated or skin impregnated three-dimensional structure a portion of said set for cured liquid to expose the solid material originally making up said three-dimensional structure and skin etching the resulting exposed solid material originally making up said three-dimensional structure to remove the same, coating and filling the resulting exposed and etched spaces with a settable or curable liquid and setting or curing the same, removing the outside surface portions of the resulting filled spaces from said opposite or opposed surfaces or sides or said resulting treated three-dimensional structure such that said structure presents at said opposite or opposed surfaces or sides said spaces filled with said cured or set liquid, removing the coating of cured or set liquid from the other sides or remaining surfaces of the resulting treated three-dimensional structure to expose the solid material originally making up said three-dimensional structure and removing, such as by etching or dissolution, said solid material from said three-dimensional structure, thereby establishing a first flowpath in the resulting structure originally defined by the solid material making up said three-dimensional structure and a second flowpath defined by the void space originally present in said three-dimensional structure, said first flowpath capable of having a direction of flow across said three-dimensional structure from one side to the other side and transversely with respect to said second flowpath and said second flowpath capable of having a directional flow transversely with respect to said first flowpath in the direction from one end to the other end of said resulting structure.
- 6. A method of producing an integral, three-dimensional structure providing a plurality of separate, interpenetrating, three-dimensional domains or channels, each of said domains or channels being a closed system of connected porosity or permeability with multiple interconnections only with respect to its respectively domain or channel, each of said domains or channels being interpenetrating within said structure, which comprises depositing a first solid coating on the solid material of a porous, permeable, three-dimensional structure having a single first interpenetrating, three-dimensional, multiple-connected channel or flowpath defining said three-dimensional, multiple-connected channel or flowpath such that there is formed on the surface of said solid material defining said first channel or flowpath therein a continuous first solid coating thereon and removing from said structure the coated solid material originally making up said structure and defining said single first channel or flowpath, thereby creating a second interpenetrating, three-dimensional, multiple-connected channel or flowpath within said structure, said first and second channel or flowpath being defined by the first solid coating deposited on the surface of the solid material originally defining said single first channel or flowpath.
Specification