FILTERING DEVICE FOR FILTERING A FLUID AND PROCESS FOR FILTERING A FLUID

Information

  • Patent Application
  • 20230294045
  • Publication Number
    20230294045
  • Date Filed
    May 26, 2021
    3 years ago
  • Date Published
    September 21, 2023
    a year ago
  • Inventors
    • MAZZOCATO; Luigino
  • Original Assignees
    • GEM INNOVATIONS SRL
Abstract
The present invention refers to a filtering device for filtering a fluid containing dissolved solutions and optionally colloidal substances, including solvents and solutes, comprising a first filter unit (12) serving to remove substances in a first filtering step by way of a membrane filtration, said removed substances having a molecular weight above a defined limit value, a second filter unit (19), disposed downstream of the first filter unit (12), for the treatment of the permeate of the first filter unit (12), wherein the second filter unit (19) comprises a filter bed comprising at least one filter material of the group comprising graphene, modified graphene, graphite, activated carbon and a zeolite compound, and a third filter unit (20), disposed downstream of the second filter unit (19), for the treatment of the permeate of the second filter unit (19), wherein the third filter unit (20) comprises a porous membrane, through which the liquid to be filtered flows in a cross-flow. The present invention provides a device with the possibility of filtration with high working pressure, avoiding possible clogging inside the adsorbing material and easy regeneration and reactivation of the adsorbing material.
Description
Claims
  • 1. A filtering device for filtering a fluid, comprising (i) at least one first filter unit serving to remove substances in a first filtering step by way of a membrane filtration, said removed substances having a molecular weight above a defined limit value,(ii) a second filter unit, disposed downstream of the first filter unit, for the treatment of the permeate of the first filter unit, wherein the second filter unit comprises a filter bed comprising at least one particle filter material and(iii) a third filter unit, disposed downstream of the second filter unit, for the treatment of the permeate of the second filter unit, wherein the third filter unit comprises a porous membrane, wherein the filtering device comprises a rotatable mixing device within a receptacle containing the second filter unit, arranged above the filter bed and/or in the upper zone of the filter bed, within the filter bed, and wherein the rotatable mixing device is moveable within the in an axial direction relative to the upper zone of the filter bed.
  • 2. (canceled)
  • 3. The filtering device according to claim 1, wherein the second filter unit within the receptacle comprises at least one automatic cleaning system comprising an inlet for a cleaning solution arranged at the receptacle upstream of the filter bed of the second filter unit.
  • 4. The filtering device according to claim 1, comprising an ultrasonic system or a vibrating system as a cleaning device, assigned to the second filter unit and/or to the third filter unit.
  • 5. The filtering device according to claim 1, wherein a receptacle containing the second filter unit is provided with a cooling or heating system in order to maintain the filter bed at a predetermined temperature or within a predetermined temperature range.
  • 6. The filtering device according to claim 1, wherein the rotatable mixing device comprises a perforated plate with holes and/or slots and/or a wedge-shaped wire system.
  • 7. The filtering device according to claim 1, wherein the rotatable mixing device comprises knifes or whisks or an helicoidally shaped dustpan as mixing elements, which preferably extend from the lower surface of the plate and which extend into the filter bed.
  • 8. The filtering device according to claim 1, comprising a vacuum system including a vacuum pump and a vacuum conduct connected to the upper part of the receptacle containing the second filter unit, adapted to create a vacuum within the receptacle in a sector above the filter bed.
  • 9. The filtering device according to claim 1, comprising a first receptacle which comprises at least one second filter unit with a filter bed and at least one third filter unit with a porous membrane, further comprising a second receptacle which comprises at least one second filter unit with a filter bed and at least one third filter unit with a porous membrane, wherein said first receptacle and said second receptacle are arranged in parallel or in series.
  • 10. The filtering device according to claim 9, wherein the filter bed of the second filter unit in the first receptacle comprises different filter material than the filter bed of the second filter unit in the second receptacle.
  • 11. The filtering device according to claim 9, further comprising a cleaning and/or regeneration system adapted to clean the filter bed of the second filter unit in the first receptacle in a cleaning modus while the filter bed of the second filter unit in the second receptacle is operating in a filter modus and vice versa to clean the filter bed of the second filter unit in the second receptacle in a cleaning and/or regeneration modus while the filter bed of the second filter unit in the first receptacle is operating in a filter modus.
  • 12. The filtering device according to claim 1, wherein the filter bed of the second filter unit comprises nanoplatelets, sheets or flakes of graphene, modified graphene, graphene oxide or graphite in combination with a spacing material in granular form selected from selected from chemically or otherwise activated carbon, diatomaceous earth, zeolite, silver, silver chloride, bentonite, iron oxide and phosphorene.
  • 13. The process for filtering a fluid, containing dissolved and optionally colloidal substances, and/or further impurities like bacteria and/or virus, by means of a filtering device wherein said fluid is a liquid which is filtered in a filtering device according to claim 1, and wherein the process comprises different phases, namely at least one filtering phase, wherein the liquid is passed through first filter unit, the second filter unit and consequently passed through the third filter unit and at least one regeneration phase, wherein particles detached from the filter bed of the second filter unit are recovered and recirculated to the second filter bed and/or at least one regeneration phase, wherein the membrane system of the third filter unit is regenerated by means of a cleaning liquid circulated through the third filter unit.
  • 14. The process according to claim 13, wherein the filtering device comprises a first receptacle which comprises at least one second filter unit with a filter bed and at least one third filter unit with a porous membrane, and the filtering device further comprises a second receptacle which comprises at least one second filter unit with a filter bed and at least one third filter unit with a porous membrane, wherein said first receptacle and said second receptacle are arranged in parallel or in series and wherein the filter bed of the second filter unit in the first receptacle is cleaned in a cleaning modus while the filter bed of the second filter unit in the second receptacle is operating in a filter modus and vice versa the filter bed of the second filter unit in the second receptacle is cleaned in a cleaning modus while the filter bed of the second filter unit in the first receptacle is operating in a filter modus.
  • 15. The process according to claim 13, wherein in the filtering phase a pressure is created to push the liquid through the second filter unit by means of at least one pressure creating device, selected from the group comprising a pump, arranged upstream of the second filter unit, the perforated plate with holes and/or slots of the mixing device of the second filter unit and valves arranged downstream of the second filter unit, wherein the pressure within the second filter unit in the filtering phase is higher than in a regeneration phase or in a cleaning phase.
  • 16. The process according to claim 13, wherein the liquid to be filtered and purified is one of the group comprising beverages, pharmaceutical products, chemical products, cosmetic products.
  • 17. The process according to claim 16, wherein the filtering and purifying process serves to at least one of: recovery of flavorings, in particular terpenes, recovery of organic acids, in particular malic acid, filtration of sugars, purification of hemicellulosic hydrolysates, recovery of polyphenolic substances, purification of drugs as antipyretics, selection or purification of natural drug-like substances, recovery or purification of resveratrol, recovery of plant or algae extracts, filtration or purification of glycolic, salicylic or retinoic acid.
  • 18. The process according to claim 13, wherein the dissolved or optionally colloidal substance to be removed is one of the group comprising caffeine, odor substances, coloring substances.
  • 19. The process according to claim 13, wherein valuable substances, which are retained in at least one of the filter units are recovered from the respective retentate and/or from the filter material of the respective filter unit.
  • 20. The filtering device according to claim 11, wherein when the filtering device is in particular applied in an oenology sector, and more generally in a beverage sector, graphene and the other materials are combined or blended within themselves and with polymers such as Polyvinylpolypyrrolidone (PVPP) or Polyvinylpyrrolidone (PVP).
  • 21. The filtering device according to claim 1, wherein the filter bed of the second filter unit comprises at least one filter material of the group comprising, graphene, modified graphene, graphite, activated carbon, and a zeolite compound.
  • 22. The filtering device according to claim 1, wherein there is a void above the filter bed between the filter bed itself and any further structure which forms part of the receptacle, which receives the filter bed.
  • 23. The process according to claim 11, where the pressure to push the liquid through the second filter unit and a corresponding pressure drop within the filter bed are adjusted in accordance with a particle size of the filter material of the filter bed, where the mixing device applies mixing to the compact filter material of the filter bed to remove cohesion between granules of the filter material of the filter bed reducing the pressure drop in the filter bed.
Priority Claims (1)
Number Date Country Kind
20176481.8 May 2020 EP regional
PCT Information
Filing Document Filing Date Country Kind
PCT/EP2021/064118 5/26/2021 WO