公开(公告)号：US20140217024A1

公开(公告)日：2014-08-07

申请号：US14082654

申请日：2013-11-18

Applicant: Battelle Memorial Institute

Inventor： Bruce F. Monzyk ,  F. Michael Von Fahnestock ,  James K. Rose ,  H. Nick Conkle ,  Ming Wang ,  Satya P. Chauhan ,  Ruey K. Bruce ,  Tenisha Highsmith

IPC: C02F1/52

CPC classification number: C02F1/5236 ,  B01D11/0288 ,  B01D17/047 ,  B01D21/01 ,  C02F1/26 ,  C02F1/56

Abstract: The invention provides an efficient method to purify an aqueous solution, typically mine drainage water, especially of anions and cations present in the aqueous solution as dissolved solids, the anions and cations are removed by treatment with a positively charged extractant having at least eight carbon atoms, whereby an unstable emulsion is formed; the unstable emulsion is allowed to break into an extract phase loaded with the anions and cations, and a water phase depleted in anions and cations; a floc inherently forms in the loaded extractant phase and then the loaded extractant phase and floc are separated from the purified water and treated to remove the anions and cations as concentrated useful products; the treated aqueous phase now reduced in anion and/or cation content is also separated from the emulsion as a purified aqueous solution. The extractant phase is preferably recycled. A continuous water purification process is provided.

Abstract translation: 本发明提供了一种净化水溶液的有效方法，通常将溶解固体中的水溶液中特别是阴离子和阳离子的排泄水，特别是阴离子和阳离子矿化，通过用具有至少8个碳原子的带正电的萃取剂处理除去阴离子和阳离子 由此形成不稳定的乳液; 允许不稳定的乳液分解成负载阴离子和阳离子的萃取相，以及阴离子和阳离子中耗尽的水相; 在加载的萃取相中固有地形成絮凝物，然后将负载的萃取相和絮凝物与纯化水分离并处理以除去作为浓缩有用产物的阴离子和阳离子; 现在将阴离子和/或阳离子含量还原的处理过的水相也作为纯化水溶液与乳液分离。 萃取相优选是循环的。 提供连续的水净化过程。

公开(公告)号：US20150298992A1

公开(公告)日：2015-10-22

申请号：US14437540

申请日：2013-10-31

Applicant: BATTELLE MEMORIAL INSTITUTE

Inventor： Bruce F. Monzyk ,  Tenisha Highsmith ,  Paul J. Usinowicz ,  Niharika Chauhan ,  Ann Lane ,  Rick Peterson ,  Slawomir Winecki

IPC: C02F1/26 ,  C02F1/66

CPC classification number: C02F1/26 ,  C02F1/66 ,  C02F2101/105 ,  C02F2101/16

Abstract: The invention provides an efficient method to treating a nutrient rich process water, such as municipal, agricultural, and/or farm water. The process water is treated by first extracting one or more P- and/or N-based ionic species from the process water with an extractant phase, resulting in an ion-loaded extractant phase; and then stripping one or more ionic species from the ion-loaded extractant phase to obtain a stripped extractant phase and useful concentrated ionic products. The stripped extractant phase is preferably recycled. A continuous flow treatment process is provided. The process is also capable of inactivating pathogens and reducing odors.

Abstract translation: 本发明提供了一种有效的方法来处理营养丰富的工艺用水，例如市政，农业和/或农场水。 通过首先用萃取相从工艺水中提取一种或多种P-和/或N-基离子物质来处理工艺水，得到离子负载的萃取剂相; 然后从离子负载的萃取相中汽提一种或多种离子物质，以获得剥离的萃取相和有用的浓缩离子产物。 剥离的萃取相优选是循环的。 提供连续流动处理方法。 该方法还能够灭活病原体并减少气味。

公开(公告)号：US09617175B2

公开(公告)日：2017-04-11

申请号：US14082654

申请日：2013-11-18

Applicant: Battelle Memorial Institute

Inventor： Bruce F. Monzyk ,  F. Michael Von Fahnestock ,  James K. Rose ,  H. Nick Conkle ,  Ming Wang ,  Satya P. Chauhan ,  Ruey K. Bruce ,  Tenisha Highsmith

IPC: B01D11/02 ,  B01D17/04 ,  B01D21/01 ,  C02F1/26 ,  C02F1/52 ,  C02F1/56

CPC classification number: C02F1/5236 ,  B01D11/0288 ,  B01D17/047 ,  B01D21/01 ,  C02F1/26 ,  C02F1/56

Abstract: The invention provides an efficient method to purify an aqueous solution, typically mine drainage water, especially of anions and cations present in the aqueous solution as dissolved solids, the anions and cations are removed by treatment with a positively charged extractant having at least eight carbon atoms, whereby an unstable emulsion is formed; the unstable emulsion is allowed to break into an extract phase loaded with the anions and cations, and a water phase depleted in anions and cations; a floc inherently forms in the loaded extractant phase and then the loaded extractant phase and floc are separated from the purified water and treated to remove the anions and cations as concentrated useful products; the treated aqueous phase now reduced in anion and/or cation content is also separated from the emulsion as a purified aqueous solution. The extractant phase is preferably recycled. A continuous water purification process is provided.