Abstract: A filter media suitable for use in filtering fluids is provided. The filter media comprises a first component, said first component having a core with an Al2O3 content of at least 10 wt % and a nanoalumina coating that at least partially coats the core.

Abstract: A coalescence media for separation of water-hydrocarbon emulsions, the coalescence media comprising an emulsion-contacting sheet formed as a single dry layer from a wet-laid process using a homogenously distributed, wet-laid furnish of (a) a mixture of fibrous components of (a1) at least one type of a first group of cellulose and/or cellulose-based fibers, and (a2) at least one type of a second group of fibers selected from the group consisting of fibrillated fibers and glass microfibers, and (b) at least one non-fibrous component selected from the group consisting of (b1) a dry strength additive, and (b2) a wet strength additive. The fibrous components of the coalescence media constitute at least about 70% of the coalescence media, and includes a pore structure sufficient to coalesce water droplets having a droplet size of <3.5 ?m in biodiesel blends or in surfactant stabilized water-hydrocarbon emulsions.

Abstract: A coalescence media for separation of water-hydrocarbon emulsions, the coalescence media comprising an emulsion-contacting sheet formed as a single dry layer from a wet-laid process using a homogenously distributed, wet-laid furnish of (a) a mixture of fibrous components of (a1) at least one type of a first group of cellulose and/or cellulose-based fibers, and (a2) at least one type of a second group of fibers selected from the group consisting of fibrillated fibers and glass microfibers, and (b) at least one non-fibrous component selected from the group consisting of (b1) a dry strength additive, and (b2) a wet strength additive. The fibrous components of the coalescence media constitute at least about 70% of the coalescence media, and includes a pore structure sufficient to coalesce water droplets having a droplet size of <3.5 ?m in biodiesel blends or in surfactant stabilized water-hydrocarbon emulsions.

Abstract: A coalescence media for separation of water-hydrocarbon emulsions comprises an emulsion-contacting sheet formed of: (a) at least one component of the group consisting of natural fibers, cellulose fibers, natural-based fibers, and cellulose-based fibers, at least one component of the group consisting of high-surface-area fibrillated fibers, surface-area-enhancing synthetic material, glass microfibers, and nanoceramic functionalized fibers; and (c) at least one component of the group consisting of a dry strength additive, and a wet strength additive, wherein the fibrous components of the media constitute at least about 70% of the media. In preferred embodiments, the coalescence media comprises kraft fibers, fibrillated lyocell fibers, glass microfibers or nanoceramic functionalized fibers, a wet strength additive, and a dry strength additive. Preferably, the coalescence media is formed as a single, self-supporting layer from a wet-laid process using a homogenously distributed, wet-laid furnish.

Abstract: A coalescence media for separation of water-hydrocarbon emulsions comprises an emulsion-contacting sheet formed of: (a) at least one component of the group consisting of natural fibers, cellulose fibers, natural-based fibers, and cellulose-based fibers, at least one component of the group consisting of high-surface-area fibrillated fibers, surface-area-enhancing synthetic material, glass microfibers, and nanoceramic functionalized fibers; and (c) at least one component of the group consisting of a dry strength additive, and a wet strength additive, wherein the fibrous components of the media constitute at least about 70% of the media. In preferred embodiments, the coalescence media comprises kraft fibers, fibrillated lyocell fibers, glass microfibers or nanoceramic functionalized fibers, a wet strength additive, and a dry strength additive. Preferably, the coalescence media is formed as a single, self- supporting layer from a wet-laid process using a homogenously distributed, wet-laid furnish.

Abstract: A coalescence media for separation of water-hydrocarbon emulsions comprising an emulsion-contacting sheet formed as single dry layer from a wet-laid process using a homogenously distributed, wet-laid furnish including two or more constituents of the group consisting of: (1) up to about 80% cellulose or cellulosic fibers; (2) up to about 50% synthetic fibers; (3) up to about 60% high-surface-area fibrillated fibers; (4) up to about 70% glass microfiber; (5) up to about 80% of a surface-area-enhancing synthetic material; (6) up to about 5% of a wet-laid-paper, dry strength additive; (7) up to about 5% of a wet-laid-paper, wet strength additive; (8) up to about 30% of a strength-enhancing component; and (9) up to about 30% binder resin for the finished sheet (where percent denotes percent of dry weight of the finished sheet).

Abstract: Filtration media is comprised of a mixture of glass and synthetic polymeric fibers. Binder fibers are also preferably incorporated into the mixture of glass and synthetic polymeric fibers so as to achieve a structurally coherent mass of such fibers. Most preferably, a combination of thermoplastic and at least partially water soluble binder fibers will be present in the fibrous filtration media of this invention so as to promote structural integrity during processing and end use applications. In this regard, the fibrous filtration media is preferably made by wet-laying an aqueous slurry mixture of glass fibers and synthetic fibers onto a foraminous forming member (e.g., a forming wire) using conventional Fourdrinier or foam-type fiber wet-laying processes. Thereafter, the slurry mixture is dewatered to form a fibrous dewatered sheet of the glass and synthetic fibers. If present, the binder fibers are physically dispersed in the slurry mixture when laid onto the forming member.