Class / Patent application number | Description | Number of patent applications / Date published |
137806000 | Utilizing diverse fluids | 6 |
20080257435 | Fluid Displacement Mechanism - A fluid displacement mechanism is disclosed. In an embodiment, first and second cavities are separated by a flexible membrane. The first cavity contains a non-conductive fluid and the second cavity contains a conductive fluid. First and second electrodes are positioned in the first and second cavities respectively such that the application of a voltage between the electrodes causes movement of the membrane by the build up of an electrostatic charge between the membrane and first electrode. | 10-23-2008 |
20080314464 | Device and Method for Producing Spherical Segmented Flow - The invention provides a device ( | 12-25-2008 |
20100139797 | Magnetically actuated microfluidic mixers - In one embodiment as described in this section, an apparatus for mixing of microfluidic streams on a chip is presented, which comprises a micro-channel and a plurality of magnetic valves on the chip. A guiding magnet produces a proximal magnetic field gradient to exert a force on a bead in a cavity when placed at in a vicinity of the chip. The bead-cavity combination form a magnetic valve. In one embodiment, the mouth of the cavity is tapered so to prevent the magnetic bead from completely blocking the corresponding micro-channel section to enhance the mixing of microfluidic streams at the narrowed fluid path. In one embodiment, magnetically actuated valves direct the flow in a microfluidic system in one of several flow paths wherein the mixing characteristics of the paths are different. | 06-10-2010 |
20120111436 | FLOATATION SEPARATION APPARATUS, METHOD OF FLOATATION SEPARATION, AND METHOD OF MANUFACTURING PRODUCTS USING THE SAME - By storing a liquid to be treated in a treatment tank main body | 05-10-2012 |
20140014212 | Thermodynamic Balancing of Combined Heat and Mass Exchange Devices - A carrier-gas mixture is directed through a fluid flow path in a combined heat and mass transfer device, which can be operated at sub-atmospheric pressure. Heat and mass are transferred from or to the carrier-gas mixture via interaction with a liquid composition that includes a vaporizable component in a liquid state to substantially change the content of the vaporizable component in the carrier-gas mixture via evaporation or condensation. The mass flow rate of the carrier-gas mixture is varied by extracting or injecting the carrier-gas mixture from at least one intermediate location in the fluid flow path, and/or the mass flow rate of the liquid composition is varied by extracting or injecting the liquid composition from at least one intermediate location in the fluid flow path; and the flow of the carrier-gas mixture or the liquid composition is regulated to reduce the average local enthalpy pinch in the device. | 01-16-2014 |
20150107709 | MICRODEVICE STRUCTURE OF MICROCHANNEL CHIP - A microdevice structure of microchannel chip is provided which includes one gas channel and at least one liquid channel. The microchannel connects the gas channel and each liquid channel. The most basic microdevice of the mirochannel chip comprises micropressure sensor, microvalve, micropiston and micropump which are controlled by digital pressure gas microcircuit in the chip. Each microdevice isolates the gas phase and liquid phase by microhole without any movable component and any special ventilate or elastic material. The gas-liquid interface is driven by the pressure difference of gas phase and liquid phase to enable the microdevice to implement the functions, such as sensing pressure, switching fluid channel, transporting liquid effectively, and so on. All kinds of microdevices can be shaped on the hard material (for example glass) by etching, so as to integrate a great lot microdevices with low cost, and the structure of chip and these several microdevices can be formed by adopting other methods on other material. | 04-23-2015 |