公开(公告)号：US20230311076A1

公开(公告)日：2023-10-05

申请号：US17910181

申请日：2020-03-12

Applicant: TOMOE ENGINEERING CO., LTD.

Inventor： Tatsuo HIRAMATSU ,  Satoshi SHIBATA ,  Keiichi HATANO ,  Tetsuya OGIHARA

IPC: B01F21/00 ,  B01F21/20 ,  B01F25/60 ,  B01F25/51 ,  B01F25/52 ,  B01F35/221 ,  C02F1/52 ,  C02F1/56

CPC classification number: B01F21/30 ,  B01F21/20 ,  B01F25/60 ,  B01F25/51 ,  B01F2101/305 ,  B01F35/2211 ,  B01F35/2213 ,  C02F1/5227 ,  C02F1/56 ,  B01F25/52

Abstract: A polymer flocculant mixing and dissolving system comprising: a mixing tank (2) in which a solid polymer flocculant is mixed with water used as a solvent; a liquid feed unit (3) for feeding an aqueous solution containing the polymer flocculant from the mixing tank; a regenerative mixer (4A,4B) used to mix and dissolve the polymer flocculant by applying pressure to the aqueous solution containing the polymer flocculant fed from the liquid feed unit while forming a vortex flow; a process channel (61) through which the aqueous solution that has passed through the regenerative mixer is fed to a downstream process; a circulation channel (62) through which the aqueous solution is returned to a position on an upstream side of the liquid feed unit; and a flow rate adjusting unit (6) for adjusting a balance between a flow rate of the aqueous solution flowing through the process channel and a flow rate of the aqueous solution flowing through the circulation channel. The polymer flocculant mixing and dissolving system can stably supply the solution in an amount required in the downstream process.

公开(公告)号：US11541361B2

公开(公告)日：2023-01-03

申请号：US15665208

申请日：2017-07-31

Applicant: NIHON SPINDLE MANUFACTURING CO., LTD. ,  UNIVERSITY OF HYOGO ,  KABUSHIKI KAISHA DAINICHI SEISAKUSHO

Inventor： Keiichi Asami ,  Yoshihiro Oka ,  Yoshimi Nishimura ,  Tomohiro Hashimoto ,  Katsuhiko Yonezawa

IPC: B01F23/50 ,  B01F23/53 ,  B01F23/64 ,  B01F25/52 ,  B01F25/53 ,  B01F25/64 ,  B01F35/71 ,  B01J19/08

Abstract: In order to provide a dispersion method and a dispersion apparatus capable of mixing a material to be processed and a dispersion medium having no affinity with each other using a single apparatus without using a dispersant, there are provided a quantitative supply mechanism quantitatively supplying a material to be processed, a suction stirring mechanism primarily including a suction stirring pump in which the material to be processed and a dispersion medium are subjected to negative pressure suction by a negative pressure suction force generated by rotation of a rotating blade and the suctioned material to be processed and the dispersion medium are stirred and mixed by the rotating blade and are allowed to pass through a throttle passage to cause cavitation, and a plasma generating mechanism generating a plasma in bubbles formed due to cavitation in a mixed liquid of the material to be processed and the dispersion medium.

公开(公告)号：US20250002383A1

公开(公告)日：2025-01-02

申请号：US18414308

申请日：2024-01-16

Applicant: NABAS Group, Inc.

Inventor： Dong Sik KIM

IPC: C02F1/78 ,  B01F23/23 ,  B01F23/232 ,  B01F23/233 ,  B01F23/237 ,  B01F23/2373 ,  B01F25/312 ,  B01F25/51 ,  B01F25/52 ,  B01F25/53 ,  B01F27/272 ,  B01F33/81 ,  C02F1/74 ,  C02F7/00

Abstract: [Summary]
This invention is about Nano Bubble and Hydroxyl Radical Generator and has the following detail features; Air inlet part; Inlet pipe for inflowing liquid connected to the above air inlet part; Pump connected to the above inlet pipe; Drive motor connected to the above pump; Rotating blade connected to drive axis of the above drive motor; Fixed blade connected to inside wall of the above pump, and arranged between the above rotating blade; The above rotating blade, the fixed blade or cylindrical blade surfaces of both blades are slanted in a direction. Therefore, this invention proposes Nano Bubble and Hydroxyl Radical Generator which increases dissolving rate of gas by accelerating finization and mix of air and liquid through inducing turbulence of air and liquid by way of constructing slant on surfaces of each blade.

公开(公告)号：US20240269360A1

公开(公告)日：2024-08-15

申请号：US18645730

申请日：2024-04-25

Applicant: FRESENIUS MEDICAL CARE DEUTSCHLAND GMBH

Inventor： Thierry EYRARD ,  Philippe LAFFAY ,  Benoit LUAIRE

IPC: A61M1/16 ,  A61K9/00 ,  A61K9/08 ,  A61K33/14 ,  B01F21/00 ,  B01F21/10 ,  B01F23/50 ,  B01F23/53 ,  B01F25/50 ,  B01F25/52 ,  B01F35/21

CPC classification number: A61M1/1656 ,  A61K9/08 ,  A61K33/14 ,  B01F21/02 ,  B01F21/10 ,  B01F23/53 ,  B01F25/50 ,  B01F25/52 ,  B01F35/2117 ,  B01F35/2133 ,  B01F35/2134 ,  A61K9/0019 ,  A61M2205/3393 ,  B01F21/30 ,  B01F23/511 ,  B01F23/56

Abstract: The invention relates to a method for manufacturing a liquid acid concentrate for hemodialysis machines, with the following steps. In a preliminary step a water source (120), an acid source (130), an electrolyte tank (140) containing a mixture of electrolytes in exactly the quantity needed for the manufacture of the liquid acid concentrate, and a sodium chloride source (150) are connected to a mixing tank (110). During Step a), the quantity of water needed for the manufacture of the batch of liquid acid concentrate is introduced into the mixing tank (110). At Step b), the quantity of acid needed for manufacture the liquid acid concentrate is introduced into the mixing tank (110), the solution is stirred until a homogeneous solution is obtained. Step c) is to repeat Sub-steps c1) and c2) until the electrolyte mixture contained in the electrolyte tank is completely dissolved. At Sub-step c1) part of the solution contained in the mixing tank (110) is transferred into the electrolyte tank (140) containing the electrolyte mixture, then at Sub-step c2) the solution contained in the electrolyte tank (140) is transferred into the mixing tank, leaving the still solid constituents in the electrolyte tank. At Step d) the quantity of sodium chloride needed to manufacture the liquid acid concentrate is introduced into the mixing tank (110). Finally, at Step e), the solution is stirred and recirculated by taking it from the bottom the mixing tank (110) and reintroducing it at the top of the mixing tank until a homogeneous liquid acid concentrate is obtained. Steps a) to d) can be performed in any order, Step a) preceding always Step c).

公开(公告)号：US20230330608A1

公开(公告)日：2023-10-19

申请号：US18211104

申请日：2023-06-16

Applicant: EnviroTech Water Treatment L.L.C.

Inventor： Stephen Michael Winter

IPC: B01F25/52 ,  B01F27/80 ,  B01F27/1125 ,  B01F33/50 ,  B01F35/21 ,  B01F35/22 ,  B01F35/221

CPC classification number: B01F25/52 ,  B01F27/80 ,  B01F27/1125 ,  B01F33/50 ,  B01F35/2111 ,  B01F35/2205 ,  B01F35/2207 ,  B01F35/22141 ,  B01F35/221422 ,  B01F2101/49

Abstract: A system includes a recirculation line, a mainline flow meter operable to measure a flowrate of fluid flowing through the recirculation line, a mixing chamber, an inlet line coupled between the recirculation line and the mixing chamber, at least one chemical injection port coupled to the inlet line, a dedicated feed pump operably associated with each chemical injection port, and an outlet line coupled between the mixing chamber and the recirculation line. The mixing chamber includes a plurality of mixing zones, a mixing blade assembly that includes at least one blade within each mixing zone, and a motor coupled to the mixing blade assembly and operable to rotate the mixing blade assembly. Each of the dedicated feed pumps is coupled to a separate chemical supply and is operable to pump a chemical to the corresponding chemical injection port for injection into the inlet line.

公开(公告)号：US12168206B2

公开(公告)日：2024-12-17

申请号：US18211104

申请日：2023-06-16

Applicant: EnviroTech Water Treatment L.L.C.

Inventor： Stephen Michael Winter

IPC: B01F25/00 ,  B01F25/52 ,  B01F27/1125 ,  B01F27/80 ,  B01F33/50 ,  B01F35/21 ,  B01F35/22 ,  B01F35/221 ,  B01F101/49

Abstract: A system includes a recirculation line, a mainline flow meter operable to measure a flowrate of fluid flowing through the recirculation line, a mixing chamber, an inlet line coupled between the recirculation line and the mixing chamber, at least one chemical injection port coupled to the inlet line, a dedicated feed pump operably associated with each chemical injection port, and an outlet line coupled between the mixing chamber and the recirculation line. The mixing chamber includes a plurality of mixing zones, a mixing blade assembly that includes at least one blade within each mixing zone, and a motor coupled to the mixing blade assembly and operable to rotate the mixing blade assembly. Each of the dedicated feed pumps is coupled to a separate chemical supply and is operable to pump a chemical to the corresponding chemical injection port for injection into the inlet line.

公开(公告)号：US20230119706A1

公开(公告)日：2023-04-20

申请号：US17980180

申请日：2022-11-03

Applicant: DIC Corporation

Inventor： Daijirou Anzai ,  Naoki Hada ,  Kazumi Oi

IPC: B01F21/10 ,  G05D7/01 ,  B01F25/52

Abstract: A resistivity regulating apparatus includes: a gas dissolving device that causes a regulating gas to dissolve in a liquid targeted for resistivity regulation to generate a treated liquid in which the regulating gas is dissolved in the liquid, the regulating gas being used to regulate a resistivity of the liquid; and a buffer tank to which the treated liquid discharged from the gas dissolving device is fed.

公开(公告)号：US20230038859A1

公开(公告)日：2023-02-09

申请号：US17757459

申请日：2020-12-15

Applicant: SHERWIN-WILLIAMS COATINGS DEUTSCHLAND GMBH

Inventor： Markus BAR ,  Peter DEININGER

IPC: B01F25/53 ,  B01F23/50 ,  B01F25/52 ,  B01F35/21 ,  B01F35/71 ,  B01F35/83

Abstract: The invention relates to a device for incorporation of dust-explosive pulverulent materials into readily inflammable liquids, wherein the device includes the following: at least one liquid circuit (10), wherein the liquid circuit comprises at least one liquid vessel (11), a pipeline system (12), and at least one pump (13), and wherein the liquid circuit is designed to accommodate a combustible liquid; at least one powder vessel (30) designed to accommodate at least one pulverulent material (31) to be incorporated into the liquid, and wherein the powder vessel is connected to the liquid circuit, especially to the pipeline system, in a fluid-conducting manner via a powder feed conduit (32).

公开(公告)号：US12115505B2

公开(公告)日：2024-10-15

申请号：US17980180

申请日：2022-11-03

Applicant: DIC Corporation

Inventor： Daijirou Anzai ,  Naoki Hada ,  Kazumi Oi

IPC: B01F21/00 ,  B01F21/10 ,  B01F25/52 ,  G05D7/01 ,  B01F35/80

CPC classification number: B01F21/10 ,  B01F25/52 ,  G05D7/01 ,  B01F35/80

Abstract: A resistivity regulating apparatus includes: a gas dissolving device that causes a regulating gas to dissolve in a liquid targeted for resistivity regulation to generate a treated liquid in which the regulating gas is dissolved in the liquid, the regulating gas being used to regulate a resistivity of the liquid; and a buffer tank to which the treated liquid discharged from the gas dissolving device is fed.

公开(公告)号：US11701628B2

公开(公告)日：2023-07-18

申请号：US16509581

申请日：2019-07-12

Applicant: EnviroTech Water Treatment L.L.C.

Inventor： Stephen Michael Winter

IPC: B01F25/00 ,  B01F25/52 ,  B01F27/80 ,  B01F27/1125 ,  B01F33/50 ,  B01F35/21 ,  B01F35/22 ,  B01F35/221 ,  B01F101/49

CPC classification number: B01F25/52 ,  B01F27/1125 ,  B01F27/80 ,  B01F33/50 ,  B01F35/2111 ,  B01F35/2205 ,  B01F35/2207 ,  B01F35/22141 ,  B01F35/221422 ,  B01F2101/49

Abstract: A system includes a recirculation line, a mainline flow meter operable to measure a flowrate of fluid flowing through the recirculation line, a mixing chamber, an inlet line coupled between the recirculation line and the mixing chamber, at least one chemical injection port coupled to the inlet line, a dedicated feed pump operably associated with each chemical injection port, and an outlet line coupled between the mixing chamber and the recirculation line. The mixing chamber includes a plurality of mixing zones, a mixing blade assembly that includes at least one blade within each mixing zone, and a motor coupled to the mixing blade assembly and operable to rotate the mixing blade assembly. Each of the dedicated feed pumps is coupled to a separate chemical supply and is operable to pump a chemical to the corresponding chemical injection port for injection into the inlet line.