The present disclosure relates to a biocide generating system for inhibiting bio-fouling within a water system of a watercraft. The water system is configured to draw water from a body of water on which the watercraft is supported. The biocide generating system includes an electrode arrangement adapted to be incorporated as part of an electrolytic cell through which the water of the water system flows. The water system is configured such that biocide treated water also flows to one or more components of the water system that are positioned upstream of the electrode arrangement.

A method for purifying exosomes from a cell culture medium comprising combining at least three (03) treating stages of a sample containing exosomes in the following specific order: (A) filtering the sample containing exosomes by tangential flow filtration (TFF) to obtain a TFF-filtered sample; (B) centrifuging the TFF-filtered sample by sucrose cushion centrifugation (SCC) to obtain a SCC-centrifuged sample; and (C) purifying the SCC-centrifuged sample by bind-elute size exclusion chromatography (BE-SEC) to obtain a purified exosomes. The present invention provides a comprehensive and efficient approach for purifying exosomes from a cell culture medium, facilitating using exosomes in various biomedical applications.

The present invention provides a method for the production of whey proteins in a single step process using combination of chromatography and membrane filtration technique, comprising treating cotton cloth with a mixture of chlorosulphonic acid and chloroform and then subsequently treating it with chloroform, dilute NaOH, glycine and water to recover modified cotton cloth as the product, thereafter fixing product in a membrane filtration device equipped with modified flow pattern and then equilibrating it with equilibration buffer, followed by loading of whey for adsorption of protein on the product and washing of the product with equilibration buffer, thereafter elution of adsorbed proteins with elution buffer, and then regeneration of the product by treating it with dilute HCl and water to reuse the product.

A system and a method for removing solid buildup from a filter media is disclosed. A slurry is passed parallel across a cross-flow filter, the filter comprising a conductive filter media and the slurry comprising a carrier liquid and solids. A portion of the carrier liquid crosses through the filter media as a permeate while a thickened slurry continues parallel to the filter media. A blockage of at least a portion of the filter media is detected. The blockage comprises a portion of the solids. At least a portion of the filter media is heated to a melting temperature of the solids, such that a portion of the blockage melts, whereby the blockage is cleared.

According to one embodiment of the present invention, a control method for a water purifier comprises the steps of: filtering inflowing water so as to generate purified water; extracting the generated purified water; measuring the flow rate of the purified water extracted per unit time; flushing a filter part by using purified water generated in the filter part, when the extraction of the purified water is complete; and draining the flushed water to the outside through a residential water outlet of the filter part, wherein, in the purified water generation step, discharging of residential water generated in the purified water generation step is blocked according to the accumulated flow rate during a one-time extraction of the purified water, calculated on the basis of the flow rate of the purified water.

A disposable filter for filtering a working fluid including a housing having an inlet to be disposed in fluid communication with a working fluid and an outlet to be disposed in fluid communication with a machine. A filter media is disposed within the housing for filtering the working fluid passing through the disposable filter between the inlet and outlet. At least one accessory port is positioned adjacent to and fluidly connected to at least one of the inlet and the outlet for receiving an accessory for monitoring a characteristic of the working fluid passing through the inlet or the outlet of the disposable filter and/or an operational condition of the disposable filter or associated machinery.

A filter system for filtering a working fluid including a disposable filter having an inlet to be disposed in fluid communication with a working fluid and an outlet to be disposed in fluid communication with a machine. The disposable filter includes a sensor assembly or accessory for monitoring a characteristic of the working fluid passing through the disposable filter and/or an operational condition of the disposable filter. The disposable filter includes a communication module for communicating the monitored characteristic or operational condition to a controller. The controller is configured to analyze the received information and generate an optimal maintenance schedule and predicted remaining useful life of the machine, disposable filter, or working fluid. A method of operating the filter system is also provided.

A disposable filter including an integrated sensor is provided for filtering a working fluid and monitoring the working fluid and/or the performance of the filter. The filter includes a housing with an inlet and an outlet with filter media disposed within the housing in a flow path defined between the inlet and the outlet. The integrated sensor is disposed within the housing, where the integrated sensor monitors a characteristic of the working fluid or other performance characteristic of the filter. The sensor assembly may include a communication module. The sensor assembly may include a RF tank circuit with a capacitor plate, which may be disposed adjacent a bypass structure that is disposed adjacent the outlet. Movement of a moveable part of the bypass structure in response to a pressure buildup will cause a shift in a resonant frequency of the tank circuit.

Embodiments herein relate to multi-zone filtration monitoring systems and methods. In an embodiment, a filtration monitoring system is included having a plurality of filtration housings, a plurality of filter elements associated with the filter housings, a plurality of wireless communication tags associated with the filter elements, a plurality of zone antennas, and a wireless communication reader in wired communication with the plurality of zone antennas. The reader can be configured to wirelessly send data to and receive data from the wireless communication tags via the zone antennas. Other embodiments are also included herein.

A water purifier, a method, and a device for controlling the water purifier are provided. The water purifier may include: a filter device including an input end for water to be purified connected with a source of water to be purified, and an output end for purified water connected with a faucet; a water flow detection device for detecting water flow condition in the filter device; a control device electrically connected to the water flow detection device and a power assembly of the filter device. When there exists a requirement on water purification from a user, the control device the control device sends a corresponding state control instruction to the power assembly based on whether the water flow condition satisfies a pre-defined water supply condition. The state control instruction controls whether to switch a working state of the filter device.