A method of forming a gas treatment element for use in a gas treatment apparatus, such as a desiccant dryer, is disclosed. The element is formed by casting a sheet material by phase inversion of a dope mixture including a solvent, an adsorbent material such as a desiccant and a polymer binder. Layers of the sheet material are located adjacent one another and this is most readily achieved by rolling the sheet material to form the gas treatment element.

A support nanofunctionalised with photocatalytic nanoparticles made of polymeric material, preferably transparent or translucid, characterised by a nanoroughness, measured by means of an electron microscope, comprised between 10 and 150 nm and a macroroughness, measured by means of an electron microscope, comprised between 100 and 600 m, wherein said nano and macro-roughness are diffused internally and/or superficially. A process for preparing the nanofunctionalised support is also described. Further, an use of the nanofunctionalised support as a photocatalyst activated by UV and/or visible light, for the decontamination of a fluid, preferably air and/or water, from organic contaminants, bacteria, moulds, odours and a combination thereof is described. Finally, a filtration device comprising at least one nanofunctionalised support of the invention associated with at least one source of UV and/or visible light configured to irradiate said at least one nanofunctionalised support is described.

An air filter for use in a residential HVAC system includes filtration media including a base layer and a sorbent layer including adhesive fibers and sorbent particles.

An adsorbent assembly for use in an adsorption heating and/or cooling system is described. The adsorbent assembly includes an array of adsorbent articles in which at least one adsorbent article is arranged in at least one of the following compatible arrangements (i)-(iii): (i) in contact with at least one other adsorbent article along matable engagement surfaces of respective contacting articles, with the contacting articles being configured to form a communicating gas flow passage through the contacting articles or at peripheral portions thereof; (ii) in a tube comprising at least one matable engagement surface that is in contact with a complementary matable engagement surface of another tube containing at least one adsorbent article; and (iii) in contact with a deformable foil member that is in contact with at least one other adsorbent article and/or a heat transfer member.

A ceramic membrane, and a process for producing a ceramic membrane. In the process for the production of a ceramic membrane the ceramic membrane is produced by additive manufacturing. The ceramic membrane comprises a membrane portion comprising pores. A nano-and/or micro-particle is formed in-situ from a nano- and/or micro-particle precursor during the additive manufacturing process and/or post-processing step. The ceramic membrane comprises the in-situ formed nano- and/or micro-particle, or residue thereof, arranged within the pores of the membrane portion. Also described is a water treatment module including the ceramic membrane.

Textured sorbent material sheets provide for enhanced performance in vapor adsorbing applications over conventional sheets, systems, canisters and other emissions control equipment. The textured sorbent material sheets can be formed as part of a small, lightweight system, canister, or can be integrated into a fuel tank.

A method of manufacturing an erosion, sediment and pollution control product comprises heat treating a rice hull filler material for sterilizing the rice hull filler material and increasing the pollutant affinity of the rice hull filler material; filling a tubular containment member with the rice hull filler material in a manner allowing fluid to flow through the containment member and the rice hull filler material. The containment member is a geotextile which may include cellulose based threads treated to be hydrophobic.

The present disclosure is directed to the removal of contaminants from a contaminated surface in the field. According to one embodiment, the present disclosure is directed to a textile comprising immobilized contaminant surface removal media for contacting a contaminated surface and removal of contamination. According to a further embodiment, the present disclosure is directed to a hand mitt comprising at least one outward facing textile side comprising immobilized contaminant surface removal media. According to another embodiment, the present disclosure is directed to a process for the removal of contaminants from a surface comprising contacting a contaminated surface with a textile comprising immobilized contaminant surface removal media and thereafter disposing of the textile including removed contaminants.

This invention relates to modified MOF materials, methods of preparing them and processes using them. A modified MOF of the invention is modified by impregnating a MOF with an inorganic metal salt. The starting MOF contains at least one linker or ligand which contains an aryl amino group as part of its structure. These modified MOFs are able to adsorb either basic or acidic toxic industrial compounds (TIC). The modified MOFs can be used to remove TICs from various gaseous streams such as air.

An erosion, sediment and pollution control product comprises a geotextile which includes cellulose based threads treated to be hydrophobic and cellulose based filler within the tubular geotextile. The geotextile may be knitted and may include lyocell threads and wherein the lyocell threads are treated to be hydrophobic, and are treated with food grade mineral oil. A method of making a tubular knitted geotextile comprises the steps of: supplying cellulose based threads to a circular knitting machine and knitting a tubular substrate, treating the cellulose based threads with one of mineral oil, beeswax, paraffin, petroleum jelly, lanolin, plant-based oils, and combinations thereof, whereby the threads are rendered hydrophobic.