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    • 2. 发明授权
    • Crystallization apparatus and crystallization method
    • 结晶装置和结晶方法
    • US06458332B2
    • 2002-10-01
    • US09801747
    • 2001-03-09
    • Hiroshi OoshimaHideo Noda
    • Hiroshi OoshimaHideo Noda
    • B01D900
    • B01F7/00175B01D9/0013B01D9/0031B01F7/00641B01F7/16B01F15/065Y10T117/10
    • The invention provides a crystallization apparatus that includes an agitation tank, a liquid circulation means for circulating a liquid or a slurry along a wall of the agitation tank, and one or more temperature difference creation means capable of creating a temperature difference at the wall of the agitation tank, wherein the temperature difference creation means is installed to the agitation tank. The temperature difference creation means is, for example, arranged at a region where liquid or slurry spouted by rotating the liquid spouting device contacts the wall of the agitation tank or a region below that region, and which increases or decreases the temperature of the spouted liquid or slurry compared to the temperature of surrounding liquid or slurry. Since the apparatus with this configuration has a large vaporization area and a large heat transfer area, the induction period for crystal generation can be shortened, and crystals with narrow size distribution and large size can be obtained. Furthermore, it is possible to obtain a specified crystal form, that is, it is possible to control crystal polymorphism.
    • 本发明提供了一种结晶装置,其包括搅拌槽,用于使液体或浆料沿着搅拌槽的壁循环的液体循环装置,以及一个或多个温度差产生装置,其能够在所述搅拌槽的壁处产生温度差 搅拌槽,其中温度差产生装置安装到搅拌槽。 例如,温差产生装置设置在通过旋转液体喷射装置而喷射的液体或浆料接触搅拌槽的壁或该区域下方的区域,并且其中喷射液体的温度升高或降低 或浆料与周围液体或浆料的温度相比较。 由于具有这种结构的装置具有大的蒸发面积和大的传热面积,因此可以缩短晶体生成的诱导期,并且可以获得具有窄尺寸分布和大尺寸的晶体。 此外,可以获得指定的晶体形式,即可以控制晶体多晶型。
    • 3. 发明授权
    • Agitator blade having agitators with open first and second ends and
inner fabrics therein
    • 搅拌器叶片具有开放的第一和第二端和内部织物的搅拌器
    • US5785424A
    • 1998-07-28
    • US577974
    • 1995-12-22
    • Yasuo NodaHideo NodaTakaya Inoue
    • Yasuo NodaHideo NodaTakaya Inoue
    • B01F7/00B01F15/00B01F7/26
    • B01F7/00241B01F7/00591
    • An agitator blade comprises one or more cylindrical local agitators which have inner fabrics therein and are radially mounted on a mounting frame, which in turn is secured to an agitator shaft. The inner fabrics can include, for example, one or more twisted plates, one or more orifice plates, a plurality of bent plates, which are disposed in an alternately inverted relationship with one another so that the facing bent peripheral side of the adjacent bent plates cross each other, a plurality of flat plates or one or more net-like sheets. The agitator shaft is rotated by a motor to drive the local agitators to mix the fluid throughly. When applied for agitation and mixing processes, the agitator blade of this invention can realize a high degree of mixing easily and reliably in a short period of time and with a small driving power. Further, the construction of this agitator blade is simple.
    • 搅拌器叶片包括一个或多个圆柱形局部搅拌器,其中具有内部织物并且径向地安装在安装框架上,安装框架又固定到搅拌器轴上。 内部织物可以包括例如一个或多个扭曲板,一个或多个孔板,多个弯曲板,它们彼此交替倒置地设置,使得相邻弯曲板的相对的弯曲周边侧 互相交叉,多个平板或一个或多个网状片。 搅拌器轴由马达旋转以驱动局部搅拌器以使流体通过。 当应用于搅拌和混合过程时,本发明的搅拌器叶片可以在短时间内和小的驱动力下容易且可靠地实现高度的混合。 此外,该搅拌器叶片的结构简单。
    • 4. 发明授权
    • Liquid ejection apparatus and liquid ejection method
    • 液体喷射装置和液体喷射方法
    • US06334704B2
    • 2002-01-01
    • US09742181
    • 2000-12-22
    • Hideo NodaTakaya Inoue
    • Hideo NodaTakaya Inoue
    • B01F510
    • B01F7/00591B01F3/0478
    • A liquid ejection apparatus has gutter bodies secured to an agitator shaft at predetermined inclination angles or gutter bodies or tubular bodies attached to these agitator shaft so that the size of the inclination angles are adjustable. The gutter bodies or tubular bodies of the liquid ejection apparatus are revolved around the agitator shaft so that liquid is ejected from the respective upper openings of the gutter bodies or tubular bodies. This liquid is distributed onto the inner surface of a tank, and/or into a space above a liquid surface, thereby washing the inner surface of the tank, maintaining the heat transfer area, and promoting evaporation of the liquid in the tank.
    • 液体喷射装置具有以预定倾斜角度固定到搅拌器轴的沟槽体,或者连接到这些搅拌器轴的沟槽体或管状体,使得倾斜角度的大小是可调节的。 液体喷射装置的沟槽体或管状体围绕搅拌器轴旋转,使得液体从沟槽体或管状体的相应上部开口排出。 这种液体分布在罐的内表面上和/或分散在液面之上的空间中,从而洗涤罐的内表面,保持传热面积,并促进液体在罐中的蒸发。
    • 6. 发明授权
    • Liquid ejection apparatus and liquid ejection method
    • 液体喷射装置和液体喷射方法
    • US06241381B1
    • 2001-06-05
    • US09556933
    • 2000-04-21
    • Hideo NodaTakaya Inoue
    • Hideo NodaTakaya Inoue
    • B01F716
    • B01F7/00591B01F3/0478
    • A liquid ejection apparatus has gutter bodies secured to an agitator shaft at predetermined inclination angles or gutter bodies or tubular bodies attached to the agitator shaft so that the size of the inclination angles are adjustable. The gutter bodies or tubular bodies of the liquid ejection apparatus are revolved around the agitator shaft so that liquid is ejected from the respective upper openings of the gutter bodies or tubular bodies. This liquid is distributed onto the inner surface of a tank, and/or into a space above a liquid surface, thereby washing the inner surface of the tank, maintaining the heat transfer area, and promoting evaporation of the liquid in the tank.
    • 液体喷射装置具有以预定倾斜角度固定到搅拌器轴的沟槽体,或者连接到搅拌器轴的沟槽体或管状体,使得倾斜角度的尺寸是可调节的。 液体喷射装置的沟槽体或管状体围绕搅拌器轴旋转,使得液体从沟槽体或管状体的相应上部开口排出。 这种液体分布在罐的内表面上和/或分散在液面之上的空间中,从而洗涤罐的内表面,保持传热面积,并促进液体在罐中的蒸发。
    • 9. 发明申请
    • CONCENTRATED ACID TREATMENT UNIT, CONCENTRATED ACID TREATMENT METHOD, PHASE-SEPARATION SYSTEM PLANT FOR BOTANICAL RESOURCE, AND CONVERSION METHOD
    • 浓缩酸处理单元,浓缩酸处理方法,用于植物资源的相分离系统植物和转化方法
    • US20110196136A1
    • 2011-08-11
    • US13125040
    • 2009-10-21
    • Masamitsu FunaokaKeigo MikameHideo Noda
    • Masamitsu FunaokaKeigo MikameHideo Noda
    • B01J19/18C08H7/00
    • C07G1/00C13K1/02
    • Provided is a Phase-Separation system plant for botanical resource, a conversion method, a concentrated acid treatment unit, and a concentrated acid treatment method by which lignin derivatives and hydrolyzed carbohydrate are manufactured out of a botanical resource efficiently and continuously. A concentrated acid treatment unit (3) is composed of a reaction section (20) and an agitation extraction section (25). A phenol sorped raw material (16) obtained by defatting botanical resource-derived raw material (15) by solvent (14) to subject sorption phenols (13) to sorption is introduced, thus obtaining mixed solution of phenol solution including a lignophenol derivative and concentrated acid solution including a cellulose hydrolysate. The reaction section (20) agitates and mixes the phenol sorped raw material (16) and concentrated acid (21A) to cause cellulose to be swollen to thereby convert lignin to lignophenol. A part of the cellulose is subjected to hydrolysis. The agitation extraction section (25) receives the treated liquid sent from the reaction section (20) and adds phenols for extraction (33) thereto to cause lignophenol dispersed in the concentrated acid solution to be dissolved and extracted in phenols for extraction.
    • 提供了一种用于植物资源的相分离系统植物,转化方法,浓酸处理单元和浓缩酸处理方法,通过该浓缩酸处理方法,有效和连续地由植物资源制造木质素衍生物和水解碳水化合物。 浓酸处理装置(3)由反应部(20)和搅拌抽出部(25)构成。 引入通过用溶剂(14)将植物资源衍生的原料(15)脱脂以吸附苯酚(13)吸附而获得的苯酚吸收的原料(16),从而获得包含木酚酚衍生物和浓缩的 酸溶液,包括纤维素水解产物。 反应段(20)搅拌并混合苯酚吸收的原料(16)和浓酸(21A),导致纤维素溶胀,从而将木质素转化成木质素。 将一部分纤维素进行水解。 搅拌提取部(25)接收从反应部(20)送出的处理液,向其中添加酚类(33),使分散在浓酸溶液中的苯酚溶解并萃取到酚类中进行萃取。
    • 10. 发明申请
    • CONTINUOUS PRODUCTION OF BIODIESEL FUEL BY ENZYMATIC METHOD
    • 通过酶联免疫法连续生产生物柴油
    • US20100261235A1
    • 2010-10-14
    • US12745962
    • 2008-11-28
    • Nobuyuki KurataniShinji HamaHideo NodaHideki Fukuda
    • Nobuyuki KurataniShinji HamaHideo NodaHideki Fukuda
    • C12P7/64C12M1/02
    • C12P7/649C10G2300/1011C11C3/003C12P7/62Y02E50/13Y02P30/20
    • A method for continuously producing a fatty acid ester of the present invention comprises (a) mixing and agitating an oil and fat starting material and a lower alcohol, and supplying a mixture to one of the catalyst reaction tubes filled with a lipase; (b) producing a fatty acid ester and glycerin in the catalyst reaction tube; (c) introducing an outflowing liquid from the catalyst reaction tube into a glycerin separation tank, thereby collecting the glycerin; (d) adding a lower alcohol to a separated liquid obtained by separating the glycerin from the outflowing liquid, mixing and agitating an obtained material, and supplying a mixture to a following catalyst reaction tube; (e) repeating the steps (b) to (d) until supply to a last catalyst reaction tube is performed; and (f) collecting a fatty acid ester from the separated liquid obtained from the last catalyst reaction tube. According to the method of the present invention, the concentration of a lower alcohol can be strictly controlled and by product glycerin can be automatically removed.
    • 本发明的连续生产脂肪酸酯的方法包括:(a)将油脂原料和低级醇混合搅拌,向填充有脂肪酶的催化剂反应管之一供给混合物; (b)在催化剂反应管中制备脂肪酸酯和甘油; (c)将来自催化剂反应管的流出液引入甘油分离槽中,从而收集甘油; (d)向从流出液中分离甘油得到的分离液中加入低级醇,混合搅拌所得物质,向后述催化剂反应管供给混合物; (e)重复步骤(b)至(d),直到进行最后一个催化剂反应管的供应; 和(f)从最后一个催化剂反应管获得的分离液中收集脂肪酸酯。 根据本发明的方法,可以严格控制低级醇的浓度,并且可以自动除去产物甘油。