会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Electric demineralizer
    • 电动脱盐机
    • US09011664B2
    • 2015-04-21
    • US10540570
    • 2003-12-26
    • Yohei TakahashiSyu Nakanishi
    • Yohei TakahashiSyu Nakanishi
    • B01D61/48C02F1/469B01D61/50
    • C02F1/4695B01D61/48B01D61/50C02F2201/46Y02A20/134
    • It is an object of the present invention to provide an electrical deionization apparatus having a novel constitution with excellent deionization efficiency. As means for solving this problem, according to one embodiment of the present invention, there is provided an electrical deionization apparatus having deionization compartments, concentration compartments and electrode compartments partitioned from one another by a plurality of ion exchange membranes between a cathode and an anode, wherein, in the deionization compartments and/or the concentration compartments and/or the electrode compartments, at least one of anion exchange fibrous material layers and cation exchange fibrous material layers are disposed on one another intersecting a water-passing direction.
    • 本发明的目的是提供一种具有优异的去离子效率的新颖结构的电去离子装置。 作为解决这个问题的手段,根据本发明的一个实施例,提供一种具有去离子室,浓度隔室和电极室之间的电去离子装置,它们通过阴极和阳极之间的多个离子交换膜彼此隔开, 其中,在所述去离子室和/或所述浓缩室和/或所述电极室中,阴离子交换纤维材料层和阳离子交换纤维材料层中的至少一个在与所述水通过方向相交的位置上彼此设置。
    • 5. 发明授权
    • Apparatus for detecting anions in water
    • 用于检测水中阴离子的装置
    • US5788828A
    • 1998-08-04
    • US757667
    • 1996-11-29
    • Masato NakatsuSyu NakanishiAkira FukunagaTakayuki SaitoKanroku Chounan
    • Masato NakatsuSyu NakanishiAkira FukunagaTakayuki SaitoKanroku Chounan
    • G01N1/10G01M3/16G01M3/18G01N27/06G01N33/18B01D35/06
    • G01N33/182G01M3/16G01M3/188G01N27/06
    • An improved apparatus for detecting anions in water includes an electrical continuous ion-exchange unit comprising an anode compartment and a cathode compartment which are spaced apart by an alkali removing compartment packed with a cation exchanger defined by two cation-exchange membranes. Each of the said anode compartment, cathode compartment and alkali removing compartment is provided with a passageway through which water is admitted and a passageway through which the treated water is discharged. The passageway through which the treated water is discharged from the alkali removing compartment is equipped with an instrument for measuring the specific resistance or electrical conductivity of the treated water. The alkali removing compartment may be replaced by one or more cation-exchange membranes or a treatment compartment defined by two or more cation-exchange membranes, and the passageway through which the treated water is discharged from the anode compartment is equipped with an instrument for measuring the specific resistance or electrical conductivity of the treated water. The apparatus does not require replacement of ion-exchange resins, achieves correct measurements with a simple operation and yet functions as an inexpensive salt detector.
    • 用于检测水中阴离子的改进装置包括电连续离子交换单元,其包括阳极室和阴极室,所述阳极室和阴极室由被两个阳离子交换膜限定的阳离子交换器填充的碱性除去室隔开。 所述阳极室,阴极室和碱性除去室中的每一个都设置有通道,水通过该通道和经处理的水排出的通道。 经过处理的水从碱性除去室排出的通道装备有用于测量处理过的水的比电阻或电导率的仪器。 碱去除室可以由一个或多个阳离子交换膜或由两个或更多个阳离子交换膜限定的处理室代替,并且经处理的水从阳极室排出的通道装备有用于测量的仪器 处理水的比电阻或电导率。 该装置不需要更换离子交换树脂,通过简单的操作实现正确的测量,并且作为便宜的盐检测器起作用。
    • 6. 发明授权
    • Method and apparatus for detecting negative ion in water
    • 用于检测水中负离子的方法和装置
    • US06686751B1
    • 2004-02-03
    • US09926195
    • 2001-09-21
    • Takayuki SaitoSyu NakanishiKanroku Chounan
    • Takayuki SaitoSyu NakanishiKanroku Chounan
    • G01N2706
    • G01N27/06G01N33/182
    • The present invention provide a method and an apparatus for detecting anions in water which does not require replacement of ion exchange resins and the like and can perform precise measurement at low cost in a simple operation. The apparatus for detecting anions in water according to the present invention is an apparatus for detecting anions in water with the use of an electric conductivity cell and is constituted by an electrolyzer having an anode chamber having an anode plate and a cation chamber having a cathode plate via a cation exchange membrane, a direct-current power unit for applying a direct-current voltage between the anode and the cathode of the electrolyzer and an electric conductivity cell for measuring the electric conductivity of a sample water, and a flow passage for introducing a sample water into the anode chamber and a treated water flow passage for discharging the treated water which has been subjected to electrolytic treatment in the anode chamber which are connected to the anode chamber, respectively, and the treated water flow passage being connected to the cathode chamber via an electric conductivity cell.
    • 本发明提供一种用于检测水中阴离子的方法和装置,其不需要更换离子交换树脂等,并且可以在简单的操作中以低成本执行精确的测量。 根据本发明的用于检测水中阴离子的装置是一种使用电导电池检测水中阴离子的装置,由具有阳极室和阳极室的电解槽构成,阳极室具有阴极板 通过阳离子交换膜,用于在电解槽的阳极和阴极之间施加直流电压的直流电力单元和用于测量样品水的电导率的电导池,以及用于引入 将水进入阳极室和经处理的水流通道,用于分别在与阳极室连接的阳极室中排出经过电解处理的处理水,处理过的水流通道连接到阴极室 通过电导电池。