An aircraft fuel deoxygenation system includes a boost pump, a contactor-separator, and a centrifuge-separator pump. The boost pump is adapted to receive fuel from a fuel source and inert gas from an inert gas source, and is configured to mix the fuel and inert gas and supply a fuel/gas mixture. The contactor-separator is coupled to receive the fuel/gas mixture and is configured to remove oxygen from the fuel and thereby generate and supply deoxygenated fuel with entrained purge gas and separated purge gas. The centrifuge-separator pump is coupled to receive the deoxygenated fuel with entrained purge gas and is configured to separate and remove the entrained purge gas from the deoxygenated fuel and supply the deoxygenated fuel and additional purge gas.

A disposable filter for a sink including a substantially inverted disposed conical filter having a rounded conical apex and a continuous horizontally disposed circular bottom rim. A circular top rim is continuously disposed on a top surface of the bottom rim of the filter. A concave-shaped indentation is continuously disposed through each of an exterior edge of the bottom rim and an outer surface of the top rim. A plurality of tabs is attached to the outer surface of the top rim. An adhesive layer is disposed on a bottom surface of the bottom rim of the filter. The filter is removably disposed atop an exterior surface of a sink, with an exterior edge of the indentation disposed around an exterior surface of a base of a faucet.

A disposable filter for a sink including a substantially inverted disposed conical filter having a rounded conical apex and a continuous horizontally disposed circular bottom rim. A circular top rim is continuously disposed on a top surface of the bottom rim of the filter. A concave-shaped indentation is continuously disposed through each of an exterior edge of the bottom rim and an outer surface of the top rim. A plurality of tabs is attached to the outer surface of the top rim. An adhesive layer is disposed on a bottom surface of the bottom rim of the filter. The filter is removably disposed atop an exterior surface of a sink, with an exterior edge of the indentation disposed around an exterior surface of a base of a faucet.

A fluidic filter for filtering a fluid includes a filter housing having an inlet part, an outlet part and a housing part, and a filter element having an inlet side and an outlet side. The filter element is housed inside the housing part of the filter housing and includes a first flow passage that extends along a longitudinal direction of the filter element and is connected to the outlet part, and a plurality of ridges extending along the longitudinal direction. A plurality of second flow passages respectively are formed between ridges and an inner surface of the housing part, allowing the fluid to flow from the inlet side of the filter element along the longitudinal direction. At least a portion of the plurality of ridges facing the second flow passages is permeable to the fluid so as to allow passage of the fluid from the second flow passages to the first flow passage. A tip portion of each of the plurality of ridges is joined to the inner surface of the housing part along a part of the tip portion of the respective ridge in the longitudinal direction.

A fluidic filter for filtering a fluid includes a filter housing having an inlet part, an outlet part and a housing part, and a filter element having an inlet side and an outlet side. The filter element is housed inside the housing part of the filter housing and includes a first flow passage that extends along a longitudinal direction of the filter element and is connected to the outlet part, and a plurality of ridges extending along the longitudinal direction. A plurality of second flow passages respectively are formed between ridges and an inner surface of the housing part, allowing the fluid to flow from the inlet side of the filter element along the longitudinal direction. At least a portion of the plurality of ridges facing the second flow passages is permeable to the fluid so as to allow passage of the fluid from the second flow passages to the first flow passage. A tip portion of each of the plurality of ridges is joined to the inner surface of the housing part along a part of the tip portion of the respective ridge in the longitudinal direction.

According to one embodiment, there is provided a chemical liquid supply system including a chemical liquid supply apparatus and a monitoring apparatus. The chemical liquid supply apparatus includes a nozzle, a filter, a first pressure gauge, and a second pressure gauge. The first and the second pressure gauge are disposed on the pipeline, respectively at a chemical liquid supply-source side and chemical liquid delivery side of the filter. The monitoring apparatus is configured to determine a state of the filter based on first differential pressure time information in which a differential pressure is acquired in a period until a time point of a lapse of a predetermined time since a start of pneumatic feeding of the chemical liquid to the nozzle. The differential pressure is a difference between a first pressure value measured by the first pressure gauge and a second pressure value measured by the second pressure gauge.

The present invention describes a method and an automatic system for recovering protein powder meal, crude and pure omega-3 oil and purified distilled water from a mixture of animal tissue processed in a filter-drier-reaction tank. Animal tissue, for example fish, and organic solvent are directly or indirectly fed into the filter-drier-reaction tank. The filter-drier-reaction tank mixes, heats, and separates solid and heavy liquid portions of the mixture, the organic solvents are automatically recycled back in to the system after distillation. The solid portion is retained in the filter-drier-reaction tank and baked. Solid protein powder product (the protein powder meal) is thus recovered.

A process for the separation of electrolyte from the carbon in a solid carbon/electrolyte cathode product formed at the cathode during molten carbonate electrolysis. The processes allows for easy separation of the solid carbon product from the electrolyte without any observed detrimental effect on the structure and/or stability of the resulting solid carbon nanomaterial.

A process for the separation of electrolyte from the carbon in a solid carbon/electrolyte cathode product formed at the cathode during molten carbonate electrolysis. The processes allows for easy separation of the solid carbon product from the electrolyte without any observed detrimental effect on the structure and/or stability of the resulting solid carbon nanomaterial.

According to a system and method for evaluating the dissolution quality of a binder solution for a secondary battery electrode, by preparing an electrode slurry with a binder solution having a predetermined amount or more of cumulative filtration amount or a predetermined level or less of flow rate reduction rate, the quality of an electrode for a secondary battery may be improved.