A magnetic-field generator (10) is provided to be used in construction of a cell sheet (12), and include s a magnetic circuit assembly (24) configured to generate a magnetic field for the construction of the cell sheet (12) using magnetic force caused by the magnetic field wherein the magnetic force is substantially transverse to a plane defined by the cell sheet (12), and a power control system (44) configured to generate and control electric power to magnetically charge the magnetic circuit assembly (24) using the electric power.

A magnetic separator includes a housing defining a product flow path through which material may pass. The magnetic separator further includes a drawer moveable between a first position and a second position and at least one magnet operatively connected to the drawer. The at least one magnet is positioned within the product flow path in the first position of the drawer. The at least one magnet is withdrawn from the flow path when in the second position.

A magnetic separator includes a housing defining a product flow path through which material may pass. The magnetic separator further includes a drawer moveable between a first position and a second position and at least one magnet operatively connected to the drawer. The at least one magnet is positioned within the product flow path in the first position of the drawer. The at least one magnet is withdrawn from the flow path when in the second position.

A method and system for separating valuable material, such as precious metals and rare earth elements, from a raw material, such as coal, is disclosed. The system may include a crusher or pulverizer for producing finely crushed material. This crushed material may be made into a slurry and placed into an econosizer for separating material by its specific gravity. High specific gravity material may be further refined using magnets, separators, or centrifuges, among other disclosed components of the system.

A filter for treating a fluid in a piping of a heating and/or cooling system, in particular of domestic and/or industrial type, includes: a main body internally having at least one chamber, a first mouth and a second mouth respectively comprising a first duct and a second duct allowing the fluid to enter and/or exit the at least one chamber, wherein the first mouth has a first longitudinal axis and the second mouth has a second longitudinal axis, in particular the second mouth being positioned on the main body in such a way that its second longitudinal axis is substantially perpendicular to the first longitudinal axis of the first mouth; a filtering element for treating the fluid, housed at least partially in the chamber, in particular the filtering element having at least one magnetic element adapted to intercept and trap the ferrous impurities that are present in the fluid to be treated.

The invention relates to a magnetic particle manipulation apparatus for moving magnetic particles within a tubular device, wherein the tubular device includes a gel-like medium layer and a liquid layer alternately stacked within a vessel and is filled with the magnetic particles. The magnetic particle manipulation apparatus of the invention includes a vessel holding portion, a vessel pressing portion and a magnetic field applying portion. The magnetic field applying portion includes a magnetic force source. At least one of the magnetic field applying portion and the vessel holding portion includes a moving mechanism capable of moving the magnetic force source. The vessel is pressed by the vessel pressing portion. The magnetic force source is moved relatively to the vessel holding portion by the moving mechanism, so as to move the magnetic particles.

Magnetic actuators comprising at least one linear subarray are presented. Systems comprising such magnetic actuators and methods for using such magnetic actuators to isolate magnetic particles in a fluid are also presented. Magnetic actuators comprising at least four uniform magnets are also presented, as are systems comprising such magnetic actuators and methods for using such magnetic actuators to isolate magnetic particles in a fluid.

Magnetic actuators comprising at least one linear subarray are presented. Systems comprising such magnetic actuators and methods for using such magnetic actuators to isolate magnetic particles in a fluid are also presented. Magnetic actuators comprising at least four uniform magnets are also presented, as are systems comprising such magnetic actuators and methods for using such magnetic actuators to isolate magnetic particles in a fluid.

A method for filtering magnetic particles includes spinning a filter including a plurality of pores within a substrate. The method further includes applying, subsequent to spinning the filter, an external magnetic field to the filter. The method includes disposing a solution including a first particle and a second particle onto the filter. The first particle includes a magnetic particle of interest. The method further includes separating the first particle from the second particle by capturing the first particle within a pore of the plurality of pores within the substrate.

A manufacturing method of an operation pipe, which use a gel to perform operations such as separation, extraction, purification, elution, recovery, analysis and the like of target components that are biological components such as nucleic acids. More specifically, a manufacturing method of an operation pipe, with which it is possible to perform operations such as separation, extraction, purification, elution, recovery, analysis and the like of target components in a sealable pipe by operating magnetic particles in the pipe under a magnetic field from outside of the pipe.