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    • 1. 发明申请
    • PRODUCTION OF ALKALI BICARBONATE AND ALKALI HYDROXIDE FROM ALKALI CARBONATE IN AN ELECTROLYTIC CELL
    • 在电解槽中从碱式碳酸钙生产碱性二碳酸酯和碱金属氢氧化物
    • WO2011123817A2
    • 2011-10-06
    • PCT/US2011/030996
    • 2011-04-01
    • CERAMATEC, INC.PENDLETON, JustinJOSHI, AshokBHAVARAJU, Sai
    • PENDLETON, JustinJOSHI, AshokBHAVARAJU, Sai
    • C25B1/18C25B3/00C07C29/70C07C31/28C01D7/10
    • C25B1/14C25B1/16C25B3/04Y02P20/132
    • Alkali bicarbonate is synthesized in an electrolytic cell (100) from alkali carbonate. The electrolytic cell (100) includes an alkali ion conductive membrane (110) positioned between an anolyte compartment (112) configured with an anode (116) and a catholyte compartment (114) configured with a cathode (118). The alkali conductive membrane (110) selectively transports alkali ions (120) and prevents the transport of anions produced in the catholyte compartment. An aqueous alkali carbonate solution is introduced into the anolyte compartment (112) and electrolyzed at the anode (116) to produce carbon dioxide and/or hydrogen ions which react with alkali carbonate to produce alkali bicarbonate. The alkali bicarbonate is recovered by filtration or other separation techniques. When the catholyte solution includes water, pure alkali hydroxide is produced. When the catholyte solution includes methanol, pure alkali methoxide is produced.
    • 在碱金属碳酸盐的电解池(100)中合成碱金属碳酸氢盐。 电解池(100)包括位于由阳极(116)构成的阳极电解液室(112)和配置有阴极(118)的阴极电解液室(114)之间的碱金属离子传导膜(110)。 碱性导电膜(110)选择性地输送碱离子(120)并防止在阴极电解液室中产生的阴离子的运输。 将碱金属碳酸盐水溶液引入阳极电解液室(112)中并在阳极(116)处电解以产生与碱金属碳酸盐反应产生碱式碳酸氢盐的二氧化碳和/或氢离子。 通过过滤或其他分离技术回收碱金属碳酸氢盐。 当阴极电解液包含水时,产生纯碱氢氧化物。 当阴极电解液包含甲醇时,产生纯碱金属甲醇盐。
    • 2. 发明申请
    • SENSOR TO MEASURE A CONCENTRATION OF ALKALI ALCOHOLATE
    • 传感器测量碱性酒精的浓度
    • WO2011022162A2
    • 2011-02-24
    • PCT/US2010/042940
    • 2010-07-22
    • CERAMATEC, INC.BHAVARAJU, SaiPENDLETON, JustinBALAGOPAL, ShekarWALL, Peter
    • BHAVARAJU, SaiPENDLETON, JustinBALAGOPAL, ShekarWALL, Peter
    • G01N27/31G01N27/49
    • G01N27/49
    • A sodium sensor to measure a concentration of sodium methylate in methanol. The sensor assembly includes a solid alkali ion conducting membrane (102), a reference electrode (110), and a measurement electrode (108). The solid alkali ion conducting membrane (102) transports ions between two alkali-containing solutions, including an aqueous solution (106) and a non-aqueous solution (104). The reference electrode (110) is at least partially within an alkali halide solution of a known alkali concentration on a first side of the solid alkali ion conducting membrane (102). The measurement electrode (108) is on a second side of the solid alkali ion conducting membrane (102). The measurement electrode (108) exhibits a measurable electrical characteristic corresponding to a measured alkali concentration within the non-aqueous solution (104), to which the measurement electrode (108) is exposed
    • 用于测量甲醇钠甲醇浓度的钠传感器。 传感器组件包括固体碱离子传导膜(102),参比电极(110)和测量电极(108)。 固体碱离子传导膜(102)在包含水溶液(106)和非水溶液(104)的两种含碱溶液之间输送离子。 参考电极(110)至少部分地位于固体碱离子传导膜(102)的第一侧上已知碱浓度的碱金属卤化物溶液中。 测量电极(108)位于固体碱离子传导膜(102)的第二侧上。 测量电极(108)显示对应于测量电极(108)暴露于非水溶液(104)内的测量的碱浓度的可测量电特性
    • 5. 发明申请
    • CONTROL OF PH KINETICS IN AN ELECTROLYTIC CELL HAVING ACID-INTOLERANT ALKALI-CONDUCTIVE MEMBRANE
    • 具有酸 - 碱性导电膜的电解电容的PH动力学控制
    • WO2012096993A2
    • 2012-07-19
    • PCT/US2012/020822
    • 2012-01-10
    • CERAMATEC, INC.BHAVARAJU, SaiPENDLETON, Justin
    • BHAVARAJU, SaiPENDLETON, Justin
    • C25B9/08C25B1/26C25B15/02C25B13/04C01B7/01
    • C25B1/26C25B9/08C25B15/08
    • Systems and methods for recovering chlorine gas or an alkali metal from an electrolytic cell (10) having an acid-intolerant, alkali-ion-selective membrane (15) are disclosed. In some cases, the cell (10) has an anolyte compartment (20) and a catholyte compartment (25) with an acid-intolerant, alkali-ion selective membrane (15) separating the two. While a cathode (45) is disposed within a catholyte solution (40) in the catholyte compartment (25), a chlorine-gas-evolving anode (35) is typically disposed within an aqueous alkali-chloride solution in the anolyte compartment (20). As current passes between the anode (35) and cathode (45), chlorine ions in the anolyte solution (30) can be oxidized to form chlorine gas. In some cases, the cell (10) is configured so the chlorine gas is rapidly removed from the cell (10) to inhibit a chemical reaction between the chlorine gas and the anolyte solution (30).
    • 公开了用于从具有不耐酸的碱离子选择性膜(15)的电解池(10)中回收氯气或碱金属的系统和方法。 在一些情况下,电池(10)具有阳极电解液隔室(20)和阴极电解液隔室(25),阴极电解液隔室(25)具有将两者隔开的不耐酸的碱性离子选择性膜(15)。 虽然阴极(45)设置在阴极电解液室(25)中的阴极电解液溶液(40)内,但是氯气释放阳极(35)通常设置在阳极电解液室(20)中的碱性氯化物水溶液中, 。 当电流在阳极(35)和阴极(45)之间通过时,阳极液溶液(30)中的氯离子可被氧化形成氯气。 在一些情况下,电池(10)被配置成使氯气从电池(10)中快速移除以抑制氯气和阳极液溶液(30)之间的化学反应。