Aspects of the present disclosure are directed to liquid containers and liquid container lids and/or filters. Some embodiments of the present disclosure relate to liquid container lids having a filling aperture and/or a drinking aperture.
B65D 47/08 - Fermetures avec dispositifs de décharge autres que des pompes avec goulottes ou tubes de déversementFermetures avec dispositifs de décharge autres que des pompes avec tuyères ou passages pour la décharge ayant des fermetures articulées ou à charnières
B65D 47/12 - Fermetures avec dispositifs de décharge autres que des pompes avec goulottes ou tubes de déversementFermetures avec dispositifs de décharge autres que des pompes avec tuyères ou passages pour la décharge ayant des fermetures amovibles
A47G 19/22 - Récipients à boissons ou soucoupes utilisés dans le service de table
2.
POLYMERIC HYBRID PARTICLE CONTAINING NANO PARTICLES AND USES
A polymeric hybrid particle or composition comprising of polymers, such as polystyrene or methylated polystyrenes with cyclic amines and their halogenated forms, and nanoparticles (NPs). The method for the preparation thereof and uses as nano-adsorbent, or a biocide, or a dual function combination of biocide and adsorbent for use in a fluid system for the purpose of purification or remediation are also disclosed.
A01N 59/00 - Biocides, produits repoussant ou attirant les animaux nuisibles, ou régulateurs de croissance des végétaux, contenant des éléments ou des composés inorganiques
Provided is a granular filtration media comprising a mixture of granular filtration media and less than 5% of nanofibers based on the dry weight, method of making the same and uses of the same for removing contaminants from water, including metals, heavy metals, synthetic or natural organic matters, colloidal or suspended particles to improve the chemical safety and purity of water for the purpose of water purification, specifically, one embodiment of the present invention disclosed is use of the granular filtration media to remove particulate lead from high pH water.
A water treatment composition includes a water soluble film formed into a sealed pouch. The pouch contains a composite of a phosphate removing substance, a polymer flocculant, or an enzyme, or any combination. The phosphate removing substance, the polymer flocculant, and the enzyme are bound to each other within the composite. The pouch is added to a body of water. The pouch dissolves to release the compounds and treat the water.
A method includes the steps, adding divalent calcium to an aqueous medium containing sulfate anions in solution and forming insoluble calcium sulfate in the aqueous medium; adding a water-soluble chitosan to the aqueous medium and forming a chitosan sulfate complex; adding a water-soluble anionic polymer to the aqueous medium to form aggregates comprising the chitosan sulfate complex with the anionic polymer; andremoving the aggregates from the aqueous medium to remove the sulfate anions.
Methods for clarifying water, reducing turbidity of water, and removing phosphate from water include adding a water treatment composition having an aluminum-containing coagulant, and a natural non-charged polysaccharide, such as guar. The aluminum-containing compound can include polyaluminum chloride, aluminum chlorohydrate, polyaluminum chlorohydrate, aluminum sulfate, sodium aluminate, polyaluminum sulfate, polyaluminum silicate chloride, polyaluminum silicate sulfate, or a combination thereof.
End-of-life apparatus for use in water purification cartridges are disclosed. The apparatus includes a water-disintegrable tablet configured to disintegrate a predetermined amount after contacting a predetermined volume of water flow. The tablet prevents the stoppage of water until the tablet has been contacted by the predetermined amount of water. The various end-of-life apparatus use different means to stop the water flow when the tablet has disintegrated a predetermined amount.
B01D 35/00 - Dispositifs filtrants ayant des particularités non couvertes spécifiquement par les groupes , applications non couvertes spécifiquement par les groupes Dispositifs auxiliaires pour la filtrationStructure du carter de filtre
Formulations, methods, and products for preventing or decreasing insolubilization of chitosan-containing compositions are provided. By employing embodiments discussed herein, the ability of a chitosan-containing composition to properly solubilize at a desired time may be preserved.
A gravity-fed water treatment system is described that purifies water by inactivating bacteria, protozoa, and viruses. In this system, water is first filtered to remove bacteria and protozoa. This can be accomplished by multiple means, such as ceramic filters containing activated carbon. The filtered water then flows into a purification cartridge housing a purification media, such as the compounds or polymers containing N-halamine described by Worley et al. and Bridges et al. This same purification cartridge also houses an adsorptive media that reduces any residual halogen concentrations in the treated water. The contact quality in the purification media chamber is such that the viral particles are saturated with halogens, becoming irreversibly inactivated.
C02F 1/76 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par oxydation au moyen d'halogènes ou de composés halogénés
C02F 1/68 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par addition de substances spécifiées, pour améliorer l'eau potable, p. ex. par addition d'oligo-éléments
11.
DUAL POLYMER SYSTEM FOR WATER RECOVERY AND SEPARATION OF SUSPENDED SOLIDS FROM AQUEOUS MEDIA
A method uses anionic and cationic polymers added in, any order or simultaneously, to aqueous media for the removal of substances. The sequential addition of the two biopolymers, anionic xanthan, followed by cationic chitosan, causes the rapid formation of very large and cohesive fibrillar aggregates that may exhibit high solids to liquid ratios and that quickly settle out from the aqueous media. The aqueous media can be easily separated from the large fibrillar aggregates by settling under gravity or by filtration through a porous containment device, such as a synthetic or non-synthetic woven or non-woven fabric including a geotextile fabric or a solid containment device containing a solid mesh screen.
Methods for increasing the growth and biomass of algae and algae lipids by growing the algae in the presence of a polycationic substance such as soluble or insoluble chitosan and/or chitin are disclosed. Also disclosed are methods of harvesting algae from an aqueous environment by growing the algae in aggregated clumps and/or mats (formed by the inclusion of soluble or insoluble chitosan and/or chitin or other polycationic or cationic substances) that can be easily removed from the aqueous environment either by filtration, surface skimming, and/or growing in a porous containment device, such as a natural or synthetic fabric, and removing the fabric from the aqueous environment containing the aggregated algae. The methods disclosed have direct applications in biofuel and energy production, agricultural feedstock production, nutrient production, greenhouse gas reduction, removal of microconstituents from water, and water reclamation.
Chitosan-containing blends and methods of dissolving and using chitosan are disclosed. A blend includes a solid acid or a solid agent that generates a proton in situ in the presence of water mixed together with a dry solid chitosan, and may optionally contain other components. The blends are in a dry, free-flowing, particulate form. Methods of dissolving a blend typically comprise adding a quantity of the blend to a low volume of water and mixing until the chitosan and solid acid or solid agent are dissolved and then further diluting this mixture by the addition of water, or used as-is. Devices containing the blends are also described along with methods of using the devices, such as for controlled release of solubilized chitosan in a body of water, such as a stream, containing impurities (e.g., particles, sediment, or suspended matter or dissolved substances) to cause flocculation or precipitation of such impurities.
A01N 43/04 - Biocides, produits repoussant ou attirant les animaux nuisibles, ou régulateurs de croissance des végétaux, contenant des composés hétérocycliques comportant des cycles avec un ou plusieurs atomes d'oxygène ou de soufre comme uniques hétéro-atomes du cycle avec un hétéro-atome
14.
PURIFIER INSERT WITH A TABLET DISPENSER AND INDICATOR
A water purifier that can be placed between an upper canister and a lower canister. The upper canister may include filters. Unfiltered water placed in the upper canister drains by gravity through the filters and water purifier into the lower canister. The water purifier includes a dispenser, a purifying media, and an indicator. Filtered, but unpurified, water passes from the upper canister into the water purifier, which houses the dispenser in which a material containing a chlorine and/or bromine compound is located. As water contacts the material, halogen is eluted to the filtered water. The purifying media contacts the unpurified water with halogen. The purifying media binds with the halogen, thereby maintaining the activity of the purifying media to purify the unpurified water. The water purifier may include an indicator to indicate when the material needs replacing.
Appliances; kitchen fixtures and kitchen products
incorporating water filters and water purification systems;
outdoor gear incorporating water filters or water
purification systems; pools and spa applications
incorporating water filters or water purification systems;
purification systems; water purifier pitchers and sports
bottles; water storage and treatment tanks.
Appliances; kitchen fixtures and kitchen products
incorporating water filters and water purification systems;
outdoor gear incorporating water filters or water
purification systems; pools and spa applications
incorporating water filters or water purification systems;
purification systems; water purifier pitchers and sports
bottles; water storage tanks and water treatment.
