Abstract: The present application discloses a control method, a control system, and a device for a grab of a portal crane. The control method for a grab of a portal crane includes: acquiring a height information of the grab; acquiring an amplitude variation information of a luffing mechanism; acquiring a slewing angle information of a rotation of a slewing mechanism; determining a horizontal relative position information of the grab relative to a center point of the slewing mechanism according to the amplitude variation information and the slewing angle information; determining an actual position information of the grab relative to the center point of the slewing mechanism according to the horizontal relative position information and the height information; acquiring a scanning information of a hull, and determining a position information of a material; and planning an operation route of the grab.

Abstract: The present application discloses a control method, a control system, and a device for a grab of a portal crane. The control method for a grab of a portal crane includes: acquiring a height information of the grab; acquiring an amplitude variation information of a luffing mechanism; acquiring a slewing angle information of a rotation of a slewing mechanism; determining a horizontal relative position information of the grab relative to a center point of the slewing mechanism according to the amplitude variation information and the slewing angle information; determining an actual position information of the grab relative to the center point of the slewing mechanism according to the horizontal relative position information and the height information; acquiring a scanning information of a hull, and determining a position information of a material; and planning an operation route of the grab.

Abstract: For storing supercooled water, a method cools a water flow with a specified mass flow rate to a specified temperature to form a supercooled water flow. The method conducts the supercooled water flow through a flow pipe with a specified pipe impedance to an ice tank. The method stores the supercooled water flow as ice in the ice tank.

Abstract: A dialysis system includes a filtration system capable of filtering a water stream, a water purification system capable of purifying said water stream in a non-batch process, a mixing system capable of producing a stream of dialysate from mixing one or more dialysate components with the water stream in a non-batch process, and a dialyzer system. The dialyzer may be a microfluidic dialyzer capable of being fluidly coupled to the stream of dialysate and a blood stream.

Abstract: A heat and mass exchange (HMX) device comprising a plurality of membranes arranged in a stack. Adjacent membranes are separated from one another by an airflow channel Each membrane of the stack comprises an array of integrated support structures that extend into the airflow channel and to the second membrane. The support structures comprise an adhesive material that is bonded to each membrane. The support structures divide the airflow channels into subchannels.

Abstract: A dialysis system includes a filtration system capable of filtering a water stream, a water purification system capable of purifying said water stream in a non-batch process, a mixing system capable of producing a stream of dialysate from mixing one or more dialysate components with the water stream in a non-batch process, and a dialyzer system. The dialyzer may be a microfluidic dialyzer capable of being fluidly coupled to the stream of dialysate and a blood stream.

Abstract: A dialysis system includes a filtration system capable of filtering a water stream, a water purification system capable of purifying said water stream in a non-batch process, a mixing system capable of producing a stream of dialysate from mixing one or more dialysate components with the water stream in a non-batch process, and a dialyzer system. The dialyzer may be a microfluidic dialyzer capable of being fluidly coupled to the stream of dialysate and a blood stream.

Abstract: A hybrid power and cooling system includes a cooling system that absorbs and removes heat from a space and includes a compressor for compressing a circulating refrigerant and a waste heat recovery system with an expander configured to use a working fluid to generate mechanical work by expansion using heat received from a heat source. The waste heat recovery system can be coupled to the compressor of the cooling system to drive the compressor by the generated mechanical work. The condensing heat of the fluid in the waste heat recovery system can be used to providing heating function.

Abstract: A dialysis system includes a filtration system capable of filtering a water stream, a water purification system capable of purifying said water stream in a non-batch process, a mixing system capable of producing a stream of dialysate from mixing one or more dialysate components with the water stream in a non-batch process, and a dialyzer system. The dialyzer may be a microfluidic dialyzer capable of being fluidly coupled to the stream of dialysate and a blood stream.

Abstract: A dialysis system includes a filtration system capable of filtering a water stream, a water purification system capable of purifying said water stream in a non-batch process, a mixing system capable of producing a stream of dialysate from mixing one or more dialysate components with the water stream in a non-batch process, and a dialyzer system. The dialyzer may be a microfluidic dialyzer capable of being fluidly coupled to the stream of dialysate and a blood stream.

Abstract: Disclosed are systems and methods of preparing dialysate for use in a home dialysis system that is compact and light-weight relative to existing systems and consumes relatively low amounts of energy. The method includes coupling a household water stream to a dialysis system; filtering the water stream; heating the water stream to at least about 138 degrees Celsius in a non-batch process to produce a heated water stream; maintaining the heated water stream at or above at least about 138 degrees Celsius for at least about two seconds; cooling the heated water stream to produce a cooled water stream; ultrafiltering the cooled water stream; and mixing dialysate components into the cooled water stream in a non-batch process.

Abstract: Disclosed are systems and methods of preparing dialysate for use in a home dialysis system that is compact and light-weight relative to existing systems and consumes relatively low amounts of energy. The method includes coupling a household water stream to a dialysis system; filtering the water stream; heating the water stream to at least about 138 degrees Celsius in a non-batch process to produce a heated water stream; maintaining the heated water stream at or above at least about 138 degrees Celsius for at least about two seconds; cooling the heated water stream to produce a cooled water stream; ultrafiltering the cooled water stream; and mixing dialysate components into the cooled water stream in a non-batch process.

Abstract: A dialysis system includes a filtration system capable of filtering a water stream, a water purification system capable of purifying said water stream in a non-batch process, a mixing system capable of producing a stream of dialysate from mixing one or more dialysate components with the water stream in a non-batch process, and a dialyzer system. The dialyzer may be a microfluidic dialyzer capable of being fluidly coupled to the stream of dialysate and a blood stream.

Abstract: A method for determining an encryption algorithm includes: determining whether an encryption algorithm of a target communication system is received when a handover is initiated by a user terminal; acquiring an encryption algorithm corresponding to the target communication system according to predefined relationships between target communication systems and encryption algorithms when the encryption algorithm of the target communication system is not received; sending the acquired encryption algorithm to the user terminal. By applying the method of the present invention, the success rate of the handovers between systems increases.