摘要:
In an apparatus for continuously manufacturing microspheres, a dispersed phase (O) is supplied to a chamber 27 for the dispersed phase inside of a bulkhead member 26 via a supply port 23. Thereafter, the dispersed phase enters into a gap 31 between a plate 22 via a supply port 29 in a base 25. The dispersed phase which enters into the gap 31 grows microspheres (particles) having a certain diameter while passing through a microchannel 33 by pressure applied by, for example, a pump, and is mixed with a continuous phase (W), so that microspheres are produced. The thus-produced microspheres float or are suspended in the continuous phase without needing any particular external force in response to their specific gravity, allowing the microspheres to be generated and withdrawn from a withdrawal port 32 at a significantly reduced pressure in comparison to conventional methods and apparatus.
摘要:
Cross-flow microchannel apparatus for producing emulsions includes a pump 9 and a pump 11 which are driven to respectively supply a continuous phase to a concave portion 4 via a supply pipe 10, a supply hole 6 and a supply port 18 and a dispersed phase to a space between the outside of a base 3 and the inside of a concave portion 2 formed in a case 1 via a supply pipe 12 and a supply hole 7. Then, by applying a predetermined pressure to the dispersed phase, the dispersed phase is formed into fine particles via a microchannels 21 and mixed with the continuous phase, thereby forming emulsions. The emulsions are withdrawn to a tank and so on via a withdrawal port 19, a withdrawal hole 8, and a withdrawal pipe 13 for emulsions. The apparatus can alternatively be used to separate an emulsion by pumping the emulsion within the concave portion 4 via pipe 10, hole 6 and port 18, such that the emulsion is separated via the microchannels 21 into a continuous phase that is withdrawn from the hole 7, and a dispersed phase that is withdrawn from the hole 8.
摘要:
A dispersed phase (O) supplied inside a bulkhead member (17) through a supply port (14) enters a gap (20) between a plate (16) and a base (18) through a supply port (19) of the base (18) and the dispersed phase (O) having entered the gap (20) then enters a continuous phase (W) through a boundary section (21) by virtue of pressure applied by a pressurizing means such as a pump. Then, the dispersed phase is made into a particle having a predetermined diameter by a microchannel (24) in passing through this boundary section (21), thereby forming an emulsion (E) in which the dispersed phase (O) of the predetermined diameter is dispersed in the continuous phase (W).
摘要:
A method to efficiently and continuously produce microspheres of natural oils and fats having a high melting point, the average particle diameter of which is in dozens of &mgr;m and is uniform, comprising the steps of heating oils and fats having a high melting point to a temperature greater than the melting point thereof to liquify same holding the oils and fats in a liquid state, forming a dispersed phase of the liquid oils and fats, pressurizing the dispersed phase and forming emulsions by dispersing the dispersed phase into a continuous phase via a plurality of microchannels, and isolating microspheres of the oils and fats having a high melting point by removing the continuous phase from the emulsions.
摘要:
A microchannel apparatus includes a plural partition walls 4 formed as extensions of plural microchannels 1 toward a continuous phase, and a flow path 5 is formed between adjacent ones of the partition walls 4. A dispersed phase pumped into a continuous phase via each microchannel 1 generates nearly perfect spheres in the course of passing through the microchannel and the flow path 5 in between the partition walls 4, thereby producing emulsions comprising fine and homogenous microspheres.
摘要:
A method and an apparatus are provided for efficiently manufacturing microspheres having a uniform particle diameter. The apparatus comprises: case 1 having a lower body 1a and an upper body 1b. A seal ring 3, a first plate 4 which is comprised of a transparent plate such as a glass plate or a plastic plate, an annular spacer 5, an intermediate plate 6 which is comprised of a silicon substrate or the like, an annular spacer 7, a second plate 8 and a seal ring 9 are inserted in this order into a concave portion 2 formed in the lower body 1a. The upper body 1b is superposed thereon. Further, the upper body 1b is attached to the lower body 1a with bolts or the like.
摘要:
The resin microchannel substrate has a surface where a recess leading to a fluid supply port and a bank adjacent to the recess and having many micro grooves on a surface are formed. The grooves form microchannels connecting the inside of the recess and the outside of the recess when the surface of the substrate is firmly attached to a flat plate serving as a cover. The width and height of the microchannel are within a range of 1 to 300 μm, and the width/height ratio of the channel is within a range of 1:20 to 20:1.
摘要:
A microchannel array according to the present invention includes a first substrate 1, and a second substrate 11 bonded to the first substrate 1. Two sets, that is, a set of a first through-hole 9, a first recess 7, and a first groove 8 and a set of a second through-hole 4, a second recess 2, and a second groove 3 are formed on the first substrate 1. The different sets are separated by a partition 5. A cell differentation/proliferation speed after micro-injection can be increased by using such microchannel array.
摘要:
A microchannel array according to the present invention includes a first substrate 1, and a second substrate 11 bonded to the first substrate 1. Two sets, that is, a set of a first through-hole 9, a first recess 7, and a first groove 8 and a set of a second through-hole 4, a second recess 2, and a second groove 3 are formed on the first substrate 1. The different sets are separated by a partition 5. A cell differentation/proliferation speed after micro-injection can be increased by using such microchannel array.
摘要:
A cell culture plate has a plurality of flow channels, uneven pattern areas and through holes. The flow channels are formed between the uneven pattern areas, and culture solution flows from the flow channels into the uneven pattern areas or from the uneven pattern areas into the flow channels. The uneven pattern area has uneven patterns that create a cell culture space.