公开(公告)号：US09174859B2

公开(公告)日：2015-11-03

申请号：US13304401

申请日：2011-11-24

Applicant: Lih-Ren Shiue ,  Dzung-Shi Chang ,  Jian-Peng Guan ,  Ted Hung ,  Mu-Fa Chen

Inventor： Lih-Ren Shiue ,  Dzung-Shi Chang ,  Jian-Peng Guan ,  Ted Hung ,  Mu-Fa Chen

IPC: C02F1/78 ,  C02F1/463 ,  C02F1/467 ,  C02F1/48 ,  C02F103/00 ,  C02F103/24

CPC classification number: C02F1/463 ,  C02F1/4672 ,  C02F1/481 ,  C02F1/484 ,  C02F1/78 ,  C02F2103/008 ,  C02F2103/24 ,  Y02W10/37

Abstract: A chemical-free and no-microbe method for pre-treating a broad range of waste waters is presented. The said method involves electrocoagulation (EC) operated in synchronization with electrolytic ozone (EO3). In the combinatory method, each technique not only applies its own treatments, they also create synergistic effects from real-time reactions among the reagents generated by electrolysis. Two refractory waste waters, seawater and tannery effluent, are tested by the combinatory method, EC+EO3, to assess the viability of the said method. Without adjustment, each of the said waste waters is remedied by EC+EO3 from its raw state to a clean condition more effectively and more economically than that can be delivered by the respective prevailing processes of pretreatment for each of the said waste waters.

Abstract translation: 提出了一种用于预处理各种废水的无化学和无微生物方法。 所述方法涉及与电解臭氧（EO3）同步操作的电凝（EC）。 在组合方法中，每种技术不仅适用于其自身的处理，而且还通过电解产生的试剂之间的实时反应产生协同效应。 两种耐火废水，海水和制革废水通过组合方法EC + EO3进行测试，以评估所述方法的可行性。 没有调整，每个所述废水被EC + EO3从其原始状态补救到比每个所述废水的相应的主要预处理过程更有效和更经济地干净的状况。

公开(公告)号：US20080198531A1

公开(公告)日：2008-08-21

申请号：US11675608

申请日：2007-02-15

Applicant: Lih-Ren Shiue ,  Mu-Fa Chen ,  Chun-Shen Cheng ,  Yi-Shuo Chen ,  Yu-Chun Chang ,  Masami Goto

Inventor： Lih-Ren Shiue ,  Mu-Fa Chen ,  Chun-Shen Cheng ,  Yi-Shuo Chen ,  Yu-Chun Chang ,  Masami Goto

IPC: H01G9/00

CPC classification number: C02F1/4691 ,  C02F1/46104 ,  C02F2001/46133 ,  C02F2001/46138 ,  C02F2001/46157 ,  C02F2103/08 ,  C02F2201/46165 ,  Y02W10/37

Abstract: A capacitive deionization (CDI) system for deionizing water is disclosed. The CDI system comprises at least a flow through capacitor (FTC) module, at least a first supercapacitor, at least a second supercapacitor, at least a third supercapacitor and a controller. The FTC module comprises a plurality electrodes for removing ions from water flowing between the electrodes under an electric field applied between the electrodes. The first supercapacitor is connected between the potential source and the FTC module for amplifying energy provided by the potential source. The second supercapacitor is connected to the FTC module for receiving energy from the FTC module for regenerating the electrodes of the FTC module. The third supercapacitor is adapted for exchanging energy with the FTC module for regenerating the electrodes of the FTC module. The controller is adapted for regulating deionization rate of the water and regeneration of the electrodes of the FTC module.

Abstract translation: 公开了用于去离子水的电容去离子（CDI）系统。 CDI系统至少包括流过电容器（FTC）模块，至少第一超级电容器，至少第二超级电容器，至少第三超级电容器和控制器。 FTC模块包括用于在施加在电极之间的电场下从在电极之间流动的水中去除离子的多个电极。 第一超级电容器连接在电源和FTC模块之间，用于放大由电源提供的能量。 第二超级电容器连接到FTC模块，用于从FTC模块接收能量以再生FTC模块的电极。 第三超级电容器适于与FTC模块交换能量以再生FTC模块的电极。 控制器适用于调节水的去离子化速率和FTC模块电极的再生。

公开(公告)号：US20130134080A1

公开(公告)日：2013-05-30

申请号：US13304401

申请日：2011-11-24

Applicant: Lih-Ren Shiue ,  Dzung-Shi Chang ,  Jian-Peng Guan ,  Ted Hung ,  Mu-Fa Chen

Inventor： Lih-Ren Shiue ,  Dzung-Shi Chang ,  Jian-Peng Guan ,  Ted Hung ,  Mu-Fa Chen

IPC: C02F1/78

CPC classification number: C02F1/463 ,  C02F1/4672 ,  C02F1/481 ,  C02F1/484 ,  C02F1/78 ,  C02F2103/008 ,  C02F2103/24 ,  Y02W10/37

Abstract: A chemical-free and no-microbe method for pre-treating a broad range of waste waters is presented. The said method involves electrocoagulation (EC) operated in synchronization with electrolytic ozone (EO3). In the combinatory method, each technique not only applies its own treatments, they also create synergistic effects from real-time reactions among the reagents generated by electrolysis. Two refractory waste waters, seawater and tannery effluent, are tested by the combinatory method, EC+EO3, to assess the viability of the said method. Without adjustment, each of the said waste waters is remedied by EC+EO3 from its raw state to a clean condition more effectively and more economically than that can be delivered by the respective prevailing processes of pretreatment for each of the said waste waters.

Abstract translation: 提出了一种用于预处理各种废水的无化学和无微生物方法。 所述方法涉及与电解臭氧（EO3）同步操作的电凝（EC）。 在组合方法中，每种技术不仅适用于其自身的处理，而且还通过电解产生的试剂之间的实时反应产生协同效应。 两种耐火废水，海水和制革废水通过组合方法EC + EO3进行测试，以评估所述方法的可行性。 没有调整，每个所述废水被EC + EO3从其原始状态补救到比每个所述废水的相应的主要预处理过程更有效和更经济地干净的状况。

公开(公告)号：US20070272550A1

公开(公告)日：2007-11-29

申请号：US11439167

申请日：2006-05-24

Applicant: Lih-Ren Shiue ,  Min-Chu Chen ,  Mu-Fa Chen

Inventor： Lih-Ren Shiue ,  Min-Chu Chen ,  Mu-Fa Chen

IPC: C25C7/00

CPC classification number: C02F1/4691 ,  C02F1/463 ,  C02F1/78 ,  C02F9/00 ,  C02F2201/4613 ,  C02F2201/782 ,  Y02W10/37

Abstract: All pollutants dissolved or existed in water can be grossly classified as ionized and neutral species. The former includes inorganic and organic ions, while the latter contains inorganic molecules, organic molecules and organisms. Using flow through capacitor for performing capacitive deionization (CDI), the ionic contaminants can be effectively and economically removed from water. Whereas the neutral contaminants are not retained in the static electric field of CDI, they can be decomposed upon flowing through an electrolytic ozonator. Either gaseous or ionic products will be generated at the ozone treatment, and the ionic byproducts can be subsequently removed by CDI. By integrating the electrolytic ozone reactor with flow through capacitor, the O3/CDI hybrid technique becomes a total solution for eliminating hazardous materials in water. Both the reactor of in-situ ozone and the flow-through capacitor (FTC) of CDI are operated in energy conservative and pollution free conditions, so the detoxification of water is highly cost effective.

Abstract translation: 溶解或存在于水中的所有污染物都可以严格分类为电离和中性物种。 前者包括无机和有机离子，而后者包含无机分子，有机分子和有机物。 使用流经电容器进行电容去离子（CDI），离子污染物可以有效和经济地从水中去除。 而中性污染物不保留在CDI的静电场中，它们可以在流过电解臭氧发生器时分解。 在臭氧处理时将产生气态或离子产物，离子副产物随后可被CDI去除。 通过将电解臭氧反应器与流过电容器集成，O 3 / CDI混合技术成为消除水中有害物质的总体解决方案。 原位臭氧反应器和CDI的流通电容器（FTC）都在能量保守和无污染的条件下运行，因此水的解毒具有很高的成本效益。