Abstract: The present invention provides a novel apparatus for culturing mammalian cells, whereby a plastic housing encasing a double membrane bag or bags supplies nutrients and oxygen to mammalian cells for propagation thereof. The double membrane bag contains a first bag formed of a microfiltration or ultrafiltration membrane disposed within a second membrane bag formed of a liquid impermeable, gas permeable membrane. This apparatus has a first chamber containing oxygen, a second chamber containing cells and a third chamber containing nutrients.

Abstract: This invention relates to a system and method for rapidly and efficiently dewatering or separating particles by electrofiltration in which the suspension of solids is first demineralized.The suspension of solids may be demineralized by electrodialysis, dialysis, filtration, diafiltration or washing on a rotating-drum continuous-suction filter.

Abstract: An electrofiltering process for dewatering or separating particles from a liquid or a colloidal suspension, which comprises the use of an electrofilter with separated, submerged electrodes, consisting of a cathode assembly and an anode assembly, wherein the filtrate is recirculated from the cathode assembly of the electrofilter into the anode assembly where it is utilized as anolyte. An initial electrolytic solution containing a soluble compound of an alkali or alkaline earth metal, such as NaOH or NaHCO.sub.3, is added to the anode assembly as anolyte. A direct current is applied to the electrofilter, so that negatively charged particles in the suspension will migrate towards the anode assembly and form a caked deposit or slurry layer on the outside of the assembly. Simultaneouslly, the electrode reactions at the cathode will split water into hydrogen gas and hydroxide. This hydroxide is diluted with filtrate passing into the cathode assembly.

Abstract: A system and apparatus for dewatering a suspension of solids in a carrier liquid by means of an electrically augmented vacuum filter having an anodic electrode structure comprising an anode and a liquid impervious wall, wherein the wall is a non ion selective membrane which is permeable to both cations and anions. The non ion selective membrane being impervious to the suspension solids, carrier liquid, electrolyte and gaseous electrode reaction products. This non ion selective membrane comprises a substrate and a solid polymeric film, wherein the substrate is a cloth support and the solid polymeric film comprises a cation exchange resin, an anion exchange resin and a binder. The charge transfer numbers of the non ion selective membrane t.sup.30 is in the range of 0.20 to 0.80 and t.sup.- in the range of 0.80 to 0.20, respectively.

Abstract: A method and system for reducing the sulfur concentration of wastewater which is to be disposed of through anaerobic treatment. Wastewater high in sulfur content is fed to a reactor having a pH level less than 6, such that the sulfate and/or sulfite compounds in the wastewater are converted by sulfate reducing bacteria into sulfide gas, thereafter exhausting the sulfide gas from the reactor. It is preferred that two anaerobic reactors be connected in series, such that the first reactor contains sulfate reduce bacteria and/or acid-forming bacteria, and the second reactor contains methane-forming bacteria and/or acid-forming bacteria.

Abstract: An electrically augmented crossflow filter device in which a feed stream containing solid particulate matter is flowed between opposed walls while a pressure differential is imposed across a first of said walls comprising a filter medium to produce a flow of filtrate therethrough in a direction perpendicular to the direction of flow of the feed stream. At the same time, an electric field is imposed on the feed stream in a direction perpendicular to the direction of the flow of the feed stream, causing the solid particulate matter in the feed stream to tend to move toward the second of said walls which comprises an ion-pervious member. Cake formation on the latter ion-pervious wall is limited or precluded by the velocity of the feed stream while the feed stream thickens in passing between the walls to form the product stream. The electrode which is located behind the second, or ion-pervious, wall is immersed during operation in a protective stream of a selected electrolyte.

Abstract: A system and method for dewatering or separating particles from a liquid or a colloidal suspension which comprises the use of an electrofilter with separated, submerged electrodes wherein the electrode used for collecting the solid particles comprises an assembly of an ion-selective membrane shell, coated with or having bonded on its interior, a conductive metal composite catalyst layer, and a conductive structural material core such as graphite within the shell. The electrode assembly does not require the use of an electrolytic solution within the shell, but may be operated with one. A direct current is applied to the electrofilter so that the particles in the suspension will migrate towards the electrode assembly and form a caked deposit or slurry layer on the outside of the membrane. In one embodiment, the electrode assembly can be removed from the electrofilter cell so that the dewatered or separated solids may be removed from the outside surfaces of the membrane.

Abstract: A method and apparatus for measuring a colloidal potential are described using pulses of ultrasonic energy that are directed along a path within a liquid suspension of colloidal particles. A vibration potential is measured at at least a pair of positions along the path. The positions are known relative to the source of ultrasonic pulses. The vibration potential measurements are then used to derive a colloidal potential which is independent of its attenuation encountered by the ultrasonic energy inside the suspension. In one embodiment several potential measuring probes are used and in another embodiment one probe is moved between predetermined positions.