A liquid processing apparatus includes: a storage tank that stores a processing liquid; a first circulation line that causes the processing liquid sent from the storage tank to pass through a first filter and to return to the storage tank; and at least one second circulation line that causes the processing liquid to pass through a second filter and to return to the storage tank, wherein the second circulation line is shorter in a flow path than the first circulation line, a second flow rate of the processing liquid flowing into the second circulation line is smaller than a first flow rate of the processing liquid flowing into the first circulation line at a downstream side of a location where the first circulation line and the second circulation line are joined, and the second filter is smaller in a filtration amount per unit time than the first filter.

A fluid filter device and method are disclosed. The fluid filter device includes a first disk having an opening forming an inlet and a second disk having an opening forming an outlet. A cylindrically shaped soft housing is disposed adjacent the first disk at one end and engaging with the second disk at its other end. A first cylindrical shaped permeable bag filter is encased by the soft housing. The bag filter has a closed end disposed adjacent the outlet, and the bag filter has an open end coupling with the first disk to form a seal around the inlet such that liquid entering the inlet permeates through the bag filter to a region between the bag filter and the soft housing before exiting the outlet.

A liquid filtration system comprising a filtration tank with: a separating roof on which are mounted groups of hoses fixed to respective support plates; a fluid distributor plate comprising a central portion without perforations, and a peripheral portion with a plurality of perforations, said distributor plate being located between the hoses and a lower inlet duct for the water to be filtered comprising an upper opening for supplying liquid to the holes near the central portion of the distributor plate and a lower opening for supplying liquid to the holes of the peripheral portion which are furthest from the central portion. The filter comprises a filter material, an outlet duct for the filtered water at the upper area of the tank, a regeneration circuit of the filter medium; a filter self-cleaning circuit and a control panel.

A method and apparatus for monitoring a water pressure in a filter tank are disclosed. The apparatus may include a pressure sensor disposed within a housing and configured to monitor the water pressure in the filter tank. The apparatus may also include a controller disposed within the housing, the controller communicatively connected to the pressure sensor and the controller configured to receive a sensor signal from the pressure sensor, and to determine the water pressure in the filter tank based on the sensor.

The systems and methods herein are directed a wastewater management system which can be used on a housing unit. The wastewater management system includes a septic tank, pump tank, pressure tank, and pods residing within a drainfield.

A nutrient concentration and water recovery system includes a first suspended solids settling tank configured to receive a flow stream that includes a waste stream with a sludge stream. A first centrifugal pump is coupled to the first suspended solids settling tank. The first centrifugal pump having corrosion resistant wetted parts and variable speed drives to transfer or pressurize process flow streams. A first level transmitter coupled to the first centrifugal pump that provides output signals in response to a level of a process material within the first suspended solids settling tank. The first level transmitter is mounted in the first suspended solids settling tank. A first flow transmitter coupled to the first level transmitter is configured to measure a specific volume of material transferred out of the first suspended solids settling tank. A first pump is coupled to the first flow meter and configured to transfer a flush water that includes suspended solids and inorganics. A vibrating screen is coupled to the first pump. A process tank is coupled to the submersible pump. A sedimentation removal system and a removal device coupled to the sedimentation removal system are provided and configured to remove inorganizes out of a suspension.

A water sediment filter assembly includes a screen member and a drain port which permits the removal of collected debris. The water sediment filter assembly includes a valve member which can be moved to different positions to permit the draining of collected sediment through the drain port.

A method of filtering a large volume of a medium using a pre-sterilizable, at least partially automated single-use filtration device which includes an unfiltrate inlet, a filtrate outlet, a main line running between the unfiltrate inlet and the filtrate outlet, filter elements arranged in the main line, a venting line and sensors for detecting specific process parameters and regulating means for adjusting specific process parameters, wherein the sensors and regulating means are connected to an external monitoring and control system which is adapted for evaluating and processing sensor data and for piloting the regulating means based on one or more control algorithms, comprises the following process steps: a) filling the single-use filtration device with medium with low flow; b) venting the single-use filtration device through the venting line; c) closing the venting line; d) rinsing the single-use filtration device, in particular the filter elements; e) filtering the medium by means of the filter elements; f) re-rinsing with high flow; and g) closing the main line; wherein the process steps f) and g) are optional.

The present invention relates to fluid filtering apparatuses, for applications such as water filtration, that utilizes screen filters, and in particular, to such a filtering apparatus having autonomously controlled self-cleaning capabilities. A self-cleaning filter apparatus including a filtering housing for filtering a fluid across a screen filter, a flushing chamber for housing filtered debris, and a control assembly for autonomously switching between filtering phases of the filter based on the differential pressure across the filter that is channeled along portions of the control assembly, the control assembly including a flush valve assembly, a three position two way (3/2) valve and a differential pressure (DP) switch.

A system for collecting debris created for small-scale outflow pipes, including a collection net made of durable lightweight mesh material, for capturing debris and allowing for free flow of fluid. The collection net configured to be attached to an outflow pipe using a fixed collar and a movable collar. The system designed such that the fixed collar fits securely on outflow pipe, and the movable collar fits such that it may move towards the fixed collar longitudinally along the outflow pipe. A pressure sensor attached to the fixed collar triggers an electrical signal to alert users when a threshold capacity of the collection net is exceeded, by the pressure imparted by movable collar onto the pressure senor. An electrical signal triggers control unit to alert users when a predefined threshold is exceeded, by indicating via an indicator that capacity limits of collected debris have been exceeded.