公开(公告)号：US20190151837A1

公开(公告)日：2019-05-23

申请号：US16190218

申请日：2018-11-14

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Nien-Tsu Lee ,  Huan-Yi Hung ,  Chien-Wei Lu ,  Hsien-Hui Tai

IPC: B01J39/02 ,  C02F1/28 ,  C02F1/42 ,  B01J39/14

Abstract: Provided is a composite material including a plurality of porous silicate particles having a glass phase structure, a first active metal adsorbed into the glass phase structure of the porous silicate particles, and a modified layer containing a second active metal formed on the surfaces of the porous silicate particles. The porous silicate particles have an average pore diameter of from 3 nm to 50 nm, and the first active metal includes at least one of sodium, potassium, calcium, and magnesium.

公开(公告)号：US10996518B1

公开(公告)日：2021-05-04

申请号：US16727256

申请日：2019-12-26

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Tien-Shou Shieh ,  Chien-Wei Lu ,  Pei-Hsin Chien ,  Huan-Yi Hung ,  Mei-Rurng Tseng

IPC: G02F1/1337 ,  G02F1/1343 ,  G02F1/137 ,  G02F1/1339

Abstract: A light switchable device is provided. The light switchable device includes a first conductive layer, a second conductive layer disposed opposite the first conductive layer, and a sealant layer disposed between the first conductive layer and the second conductive layer. The first conductive layer, the second conductive layer, and the sealant layer form a closed space. The light switchable device also includes a light switchable layer disposed in the closed space, wherein the light switchable layer includes a plurality of alignment structures and polymer-stabilized liquid crystals (PSLC). The plurality of alignment structures is disposed on the first conductive layer or the second conductive layer, and the PSLC's are distributed between the plurality of alignment structures. A height of the plurality of alignment structures is less than a height of the sealant layer, and greater than or equal to 5% of the height of the sealant layer.

公开(公告)号：US10052623B2

公开(公告)日：2018-08-21

申请号：US15195216

申请日：2016-06-28

Applicant: Industrial Technology Research Institute

Inventor： Cheng-Kuo Tsai ,  Huan-Yi Hung ,  Pang-Hung Liu ,  Hsien-Hui Tai ,  Gaw-Hao Huang ,  Shu-Fang Hsu ,  Ren-Yang Horng

IPC: B01J39/14 ,  C03C3/091 ,  C02F1/42 ,  C02F1/52 ,  C02F1/28 ,  B01J39/02 ,  C03C4/18 ,  C02F101/10 ,  C02F101/20 ,  C02F101/22 ,  C02F103/34 ,  C02F101/14

CPC classification number: B01J39/14 ,  B01J39/02 ,  C02F1/281 ,  C02F1/288 ,  C02F2001/5218 ,  C02F2101/103 ,  C02F2101/108 ,  C02F2101/14 ,  C02F2101/20 ,  C02F2101/22 ,  C02F2103/346 ,  C02F2209/001 ,  C02F2209/02 ,  C02F2209/44 ,  C03C1/002 ,  C03C3/091 ,  C03C4/18 ,  C03C11/00 ,  C03C12/00 ,  C03C2204/00

Abstract: An inorganic material for removing a harmful substance from wastewater is provided. The inorganic material includes a plurality of porous silicate particles having a glass phase structure, wherein the plurality of porous silicate particles include silicon dioxide, aluminum oxide, barium oxide, cesium oxide, and boron oxide, and have a zeta potential of a negative value at pH of from 1 to 5, and wherein the average pore diameter of the porous silicate particles is in a range of from 3 to 50 nm. Moreover, a method for preparing an inorganic material for removing a harmful substance from wastewater and a method for wastewater treatment are further provided.

公开(公告)号：US09194856B2

公开(公告)日：2015-11-24

申请号：US13938921

申请日：2013-07-10

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Pang-Hung Liu ,  Huan-Yi Hung ,  Chien-Wei Lu ,  Han-Wen Chu ,  You-Zung Hsieh

IPC: G01N33/20 ,  G01N17/00 ,  G01N33/28 ,  G01N33/18 ,  G01N1/10

CPC classification number: G01N33/20 ,  G01N17/006 ,  G01N33/1813 ,  G01N33/2835 ,  G01N2001/1037

Abstract: method for diagnosing corrosion of an underground storage tank system is provided. The method includes the following steps. A sample from the underground storage tank system is collected, wherein the sample comprises at lease one metal ion. The species and the concentration of the metal ion in the sample are detected by an analysis instrument. A concentration threshold value is determined from a database according to the species of the metal ion. A mapping step is performed, wherein the concentration of the metal ion and the concentration threshold value are compared to diagnose if the underground storage tank system is corroded.

Abstract translation: 提供了一种用于诊断地下储罐系统腐蚀的方法。 该方法包括以下步骤。 收集来自地下储罐系统的样品，其中样品至少包含一个金属离子。 通过分析仪器检测样品中金属离子的种类和浓度。 根据金属离子的种类从数据库确定浓度阈值。 执行映射步骤，其中比较金属离子的浓度和浓度阈值，以诊断地下储罐系统是否被腐蚀。

公开(公告)号：US20140170754A1

公开(公告)日：2014-06-19

申请号：US13938921

申请日：2013-07-10

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Pang-Hung Liu ,  Huan-Yi Hung ,  Chien-Wei Lu ,  Han-Wen Chu ,  You-Zung Hsieh

IPC: G01N33/20

CPC classification number: G01N33/20 ,  G01N17/006 ,  G01N33/1813 ,  G01N33/2835 ,  G01N2001/1037

Abstract: A method for diagnosing corrosion of an underground storage tank system is provided. The method includes the following steps. A sample from the underground storage tank system is collected, wherein the sample comprises at lease one metal ion. The species and the concentration of the metal ion in the sample are detected by an analysis instrument. A concentration threshold value is determined from a database according to the species of the metal ion. A mapping step is performed, wherein the concentration of the metal ion and the concentration threshold value are compared to diagnose if the underground storage tank system is corroded.

Abstract translation: 提供了一种诊断地下储罐系统腐蚀的方法。 该方法包括以下步骤。 收集来自地下储罐系统的样品，其中样品至少包含一个金属离子。 通过分析仪器检测样品中金属离子的种类和浓度。 根据金属离子的种类从数据库确定浓度阈值。 执行映射步骤，其中比较金属离子的浓度和浓度阈值，以诊断地下储罐系统是否被腐蚀。

公开(公告)号：US20160375433A1

公开(公告)日：2016-12-29

申请号：US15195216

申请日：2016-06-28

Applicant: Industrial Technology Research Institute

Inventor： Cheng-Kuo Tsai ,  Huan-Yi Hung ,  Pang-Hung Liu ,  Hsien-Hui Tai ,  Gaw-Hao Huang ,  Shu-Fang Hsu ,  Ren-Yang Horng

IPC: B01J39/14 ,  C03C3/091 ,  C02F1/42 ,  C02F1/52 ,  C02F1/28 ,  B01J39/02 ,  C03C4/18

CPC classification number: B01J39/14 ,  B01J39/02 ,  C02F1/281 ,  C02F1/288 ,  C02F2001/5218 ,  C02F2101/103 ,  C02F2101/108 ,  C02F2101/14 ,  C02F2101/20 ,  C02F2101/22 ,  C02F2103/346 ,  C02F2209/001 ,  C02F2209/02 ,  C02F2209/44 ,  C03C1/002 ,  C03C3/091 ,  C03C4/18 ,  C03C11/00 ,  C03C12/00 ,  C03C2204/00

Abstract: An inorganic material for removing a harmful substance from wastewater is provided. The inorganic material includes a plurality of porous silicate particles having a glass phase structure, wherein the plurality of porous silicate particles include silicon dioxide, aluminum oxide, barium oxide, cesium oxide, and boron oxide, and have a zeta potential of a negative value at pH of from 1 to 5, and wherein the average pore diameter of the porous silicate particles is in a range of from 3 to 50 nm. Moreover, a method for preparing an inorganic material for removing a harmful substance from wastewater and a method for wastewater treatment are further provided.

Abstract translation: 提供了用于从废水中除去有害物质的无机材料。 无机材料包括多个具有玻璃相结构的多孔硅酸盐颗粒，其中多个多孔硅酸盐颗粒包括二氧化硅，氧化铝，氧化钡，氧化铯和氧化硼，并且具有负值的ζ电位在 pH为1至5，并且其中多孔硅酸盐颗粒的平均孔径在3至50nm的范围内。 此外，还提供了一种制备用于从废水中除去有害物质的无机材料的方法和废水处理方法。

公开(公告)号：US20160375422A1

公开(公告)日：2016-12-29

申请号：US14966536

申请日：2015-12-11

Applicant: Industrial Technology Research Institute

Inventor： Chia-Lin Tsai ,  Cheng-Kuo Tsai ,  Huan-Yi Hung ,  Pang-Hung Liu ,  Hsien-Hui Tai

IPC: B01J20/10 ,  B01J20/28

CPC classification number: B01J20/103 ,  B01J20/04 ,  B01J20/06 ,  B01J20/08 ,  B01J20/10 ,  B01J20/28007 ,  B01J20/28011 ,  B01J20/28059 ,  B01J20/28061 ,  B01J20/28083 ,  B01J20/3078 ,  B01J20/3085 ,  C02F1/281 ,  C02F1/288 ,  C02F2101/103 ,  C02F2101/20 ,  C02F2101/22

Abstract: Provided is an adsorption material including a plurality of porous silicate particles having a glass-phase structure and including silicon oxide, aluminum oxide, barium oxide, strontium oxide and boron oxide. An average pore size of the plurality of porous silicate particles is in a range of from 3 nm to 50 nm, and a zeta potential of the plurality of porous silicate particles is negative at a pH value of from 1 to 5. A method of fabricating the adsorption material is further provided.

Abstract translation: 本发明提供一种吸附材料，其包括具有玻璃相结构的多个多孔硅酸盐颗粒，并且包括氧化硅，氧化铝，氧化钡，氧化锶和氧化硼。 多个多孔硅酸盐颗粒的平均孔径在3nm至50nm的范围内，多个多孔硅酸盐颗粒的ζ电位在1至5的pH值下为负。一种制造方法 进一步提供吸附材料。

公开(公告)号：US09034654B2

公开(公告)日：2015-05-19

申请号：US13844930

申请日：2013-03-16

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Hsiu-Li Su ,  Huan-Yi Hung ,  Han-Wen Chu ,  Tsung-Chou Hsu ,  Yao-Ting Huang

IPC: G01N33/22

CPC classification number: G01N33/225 ,  Y10T436/21 ,  Y10T436/218

Abstract: A method for analyzing the liquefied petroleum gas includes the following steps. Provide a sample of the liquefied petroleum gas, and one main component group of the liquefied petroleum gas includes at least one sub component group. Analyze the sample of the liquefied petroleum gas so as to obtain a first measured THC corresponding to the main component group and a second measured THC corresponding to the sub component group. Obtain a regressed THC according to the second measured THC and a predetermined relationship of THC. Obtain a result of THC according to the first measured THC, the regressed THC, and a predetermined range of THC. The predetermined range of THC corresponds to the main component group. The device for analyzing the liquefied petroleum gas includes an inlet, a multiposition valve, a first column, a second column, an analyzing apparatus, and a computing unit.

Abstract translation: 一种分析液化石油气的方法包括以下步骤。 提供液化石油气的样品，液化石油气的一个主要组分组成至少包含一个亚组分。 分析液化石油气样品，以获得对应于主组分组的第一测量THC和对应于子组分组的第二测量THC。 根据第二测量的THC和THC的预定关系获得回归THC。 根据第一测量THC，回归THC和THC的预定范围获得THC的结果。 THC的预定范围对应于主要组件组。 用于分析液化石油气的装置包括入口，多位置阀，第一列，第二列，分析装置和计算单元。

公开(公告)号：US20140147927A1

公开(公告)日：2014-05-29

申请号：US13844930

申请日：2013-03-16

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Hsiu-Li Su ,  Huan-Yi Hung ,  Han-Wen Chu ,  Tsung-Chou Hsu ,  Yao-Ting Huang

IPC: G01N33/22

CPC classification number: G01N33/225 ,  Y10T436/21 ,  Y10T436/218

Abstract: A method for analyzing the liquefied petroleum gas comprises the following steps. Provide a sample of the liquefied petroleum gas, and one main component group of the liquefied petroleum gas comprises at least one sub component group. Analyze the sample of the liquefied petroleum gas so as to obtain a first measured THC corresponding to the main component group and a second measured THC corresponding to the sub component group. Obtain a regressed THC according to the second measured THC and a predetermined relationship of THC. Obtain a result of THC according to the first measured THC, the regressed THC, and a predetermined range of THC. The predetermined range of THC corresponds to the main component group. The device for analyzing the liquefied petroleum gas comprises an inlet, a multiposition valve, a first column, a second column, an analyzing apparatus, and a computing unit.

Abstract translation: 一种用于分析液化石油气的方法包括以下步骤。 提供液化石油气的样品，液化石油气的一个主要组分组成至少一个子组分。 分析液化石油气样品，以获得对应于主组分组的第一测量THC和对应于子组分组的第二测量THC。 根据第二测量的THC和THC的预定关系获得回归THC。 根据第一测量THC，回归THC和THC的预定范围获得THC的结果。 THC的预定范围对应于主要组件组。 用于分析液化石油气的装置包括入口，多位置阀，第一列，第二列，分析装置和计算单元。