• 专利标题:   Method of adsorbing vapors in article having enclosed volume involves providing enclosed volume sorbent material sheet product, and contacting vapors with sorbent material sheet product, where sorbent material sheet product comprises sorbent material and binder that holds sorbent material in place.
  • 专利号:   US2023166235-A1, WO2023102461-A1
  • 发明人:   BUTTERWORTH S L
  • 专利权人:   CALGON CARBON CORP, CALGON CARBON CORP
  • 国际专利分类:   A61G017/06, B01D053/04, B01J020/20, B01J020/26, B01J020/28, B01J020/02
  • 专利详细信息:   US2023166235-A1 01 Jun 2023 B01J-020/20 202350 English
  • 申请详细信息:   US2023166235-A1 US060682 01 Dec 2022
  • 优先权号:   US264759P, US060682

▎ 摘  要

NOVELTY - Method of adsorbing vapors in article having enclosed volume involves providing enclosed volume sorbent material sheet product, and contacting vapors with sorbent material sheet product, where sorbent material sheet product comprises sorbent material and binder that holds sorbent material in place USE - Sorbent material sheets used to adsorb vapors which are released by the contents of the enclosed volumes, while providing flexibility and without releasing particles which could contaminate the contents of the enclosed volume. ADVANTAGE - The sorbet materials have carbon sheet improves by the addition of materials prior to or during sheet processing. These materials provide beneficial properties such as enhanced porosity or adsorption of inorganic gases such as hydrogen sulfide or other volatile gases. The sorbent materials can be processed simultaneously into a single sheet with distinct sections or a performance gradient from one side of the sheet to the other. The sorbent material sheets described above are combined into a sorbent material sheet product. The combination of the sorbent material sheets takes advantage of one or more of the above described features, such as increased surface area/volume ratio, reduced void space, improved sorbent performance, etc. In general, the individual sorbent material sheets are arranged next to each other to form a sorbent material sheet product that comprises sheets that are stacked, rolled, wound, folded, and/or laminated such that the surfaces of the sorbent material sheets are in close proximity to, or adjacent to each other. Whatever the arrangement, the goal is to maximize the surface area of the sheets exposed to the vapor, fluid, and/or gas stream and thus the performance of the sorbent material sheets.