A system and method for predictive analysis of Seawater Reverse Osmosis (SWRO) desalination plants receives first data associated with a SWRO plant, including a first set of parameters associated with seawater, a second set of parameters associated with a permeate, and a third set of parameters associated with a brine. The system determines a fourth set of parameters by applying normalization techniques to the received first data. The system determines, based upon the fourth set of parameters, a set of membrane performance parameters associated with the SWRO plant, or a set of diagnostic indicators associated with at least one of the SWRO plant and the seawater. The system outputs the determined set of membrane performance parameters or the set of diagnostic indicators.

A method for controlling a hollow fiber nanofiltration membrane system with controllable power consumption, including the following steps. A filtration flow rate is determined by the program control system according to preset working conditions and the electricity price and the inlet water temperature obtained by a first monitoring module when the hollow fiber nanofiltration membrane assembly is started to perform a filtration process. The inlet water pressure change and the permeability change are monitored and recorded by a second monitoring module during the filtration process. A flushing mode and a flushing intensity of the cleaning system are determined by the program control system according to the inlet water pressure change and the permeability change during the filtration when the filtration process is completed.

Nitrox-mixtures production machine comprising: a molecular separator, which is structured so as to receive at inlet a flow of air and to provide at outlet an intermediate Nitrox mixture with high oxygen percentage; a low-pressure compressor, which is adapted to feed an airflow at inlet of the molecular separator; a mixing manifold, which communicates with the molecular separator so as to receive said intermediate Nitrox mixture, and is structured so as to mix the intermediate Nitrox mixture with fresh air coming from the outside, in order to provide at outlet a final Nitrox mixture with predefined composition; at least one oxygen sensor, which is adapted to measure the oxygen percentage present in said final Nitrox mixture; at least one pressure sensor, which is adapted to measure the air pressure in the molecular separator; and an electronic control device, which is connected to said at least one oxygen sensor and is adapted to regulate the flowrate of the airflow that is sucked in by the low-pressure compressor based on the signals coming from said at least one oxygen sensor and said at least one pressure sensor.

Nitrox-mixtures production machine comprising: a molecular separator, which is structured so as to receive at inlet a flow of air and to provide at outlet an intermediate Nitrox mixture with high oxygen percentage; a low-pressure compressor, which is adapted to feed an airflow at inlet of the molecular separator; a mixing manifold, which communicates with the molecular separator so as to receive said intermediate Nitrox mixture, and is structured so as to mix the intermediate Nitrox mixture with fresh air coming from the outside, in order to provide at outlet a final Nitrox mixture with predefined composition; at least one oxygen sensor, which is adapted to measure the oxygen percentage present in said final Nitrox mixture; and an electronic control device, which is connected to said at least one oxygen sensor and is adapted to regulate the flowrate of the airflow that the low-pressure compressor feeds at inlet of the molecular separator based on the signals coming from said at least one oxygen sensor.

A membrane filtration system, in particular for reverse osmosis, includes a plurality of stages. Each stage has at least one pump and one filter membrane. The stages are hydraulically interconnected in sequence by connecting lines. The system also includes a bypass line for each stage for diverting liquid flow around the stage. At least one bypass valve blocks the respective bypass line in the closed state. The system further includes a control and regulating unit that can actuate the respective bypass valve.

The invention concerns a subsea water processing system comprising an electrochemical unit that uses raw or treated seawater to generate high pH and low pH solutions that are used to clean at least one subsea process apparatus during a cleaning cycle by circulation through the at least one subsea process apparatus via acid or base flow lines connecting the electrochemical unit with the subsea process apparatus on-site.

Embodiments described herein relate to methods and systems for dewatering solutions via forward osmosis.

A system for separating a suspension of biological cells is disclosed comprising a single-use fluid circuit and a durable hardware component. The fluid circuit comprises a separator having a housing that includes an inlet for introducing the suspension of biological cells into the gap, a first outlet in communication with the gap for flowing a first type of cells from the separator, and a second outlet in communication with the second side of the filter membrane for flowing a second type of cells from the separator. The hardware component comprises a pump for flowing the suspension of biological cells to the inlet of the separator and at least one flow control device associated with the first outlet and the second outlet of the separator for selectively opening and closing the outlets so as to permit one of the first type of cells and the second type of cells to flow out of the separator in accordance with a predetermined duty cycle equal to the ratio of a target flow rate of first type of cells through the first outlet to the predetermined inlet flow rate.

A housing-free first dialyzer element has a hollow-fiber bundle, a fluid-permeable sheath wrapped around the periphery of the hollow-fiber bundle, cast elements at the axial ends of the hollow-fiber bundle, and end caps fastened to the cast elements for connection to an extracorporeal blood circulation. A second dialyzer element has a housing and can be closed, opened and reused. A dialyzer includes the housing-free first dialyzer element and the second dialyzer element that has a housing. A blood treatment device includes the second dialyzer element that has the housing, the second dialyzer element being rigidly fastened to a machine front. A method for reprocessing the second dialyzer element that has the housing can be used after blood treatment therapy.

A method of treating a fluid comprises introducing a feed fluid stream comprising multiple materials to first side of a semi-permeable membrane. A draw fluid stream having a higher temperature than the feed fluid stream is introduced to second, opposing side of the semi-permeable membrane to form a thermal gradient across the semi-permeable membrane. One or more of the multiple materials of the feed fluid stream is drawn through the semi-permeable membrane and into the draw fluid stream via thermal gradient osmosis. A fluid treatment system and a thermal gradient osmosis apparatus are also described.