公开(公告)号：US20160084988A1

公开(公告)日：2016-03-24

申请号：US14564590

申请日：2014-12-09

Applicant: Korea Institute of Geoscience and Mineral Resources

Inventor： Jaehong Hwang ,  Hyoung Chan Kim

IPC: G01V99/00 ,  G01V9/00

CPC classification number: G01V99/005 ,  G01V9/005

Abstract: Disclosed herein is a method for analyzing 2-dimensional geothermal resource data using a web-based 3-dimensional sectional view, to implement an analyzing module performing 3-dimensional section analysis for 2-dimensional geothermal resource spatial data as a program run by data processing devices including a computer. The method for analyzing 2-dimensional geothermal resource data using a web-based 3-dimensional sectional view is configured by the processes of: selecting an analysis target region and generating linear vector data; requesting a section analysis layer of GeoServer for the target region; generating a dynamic query for a section analysis according to the delivered conditions, and executing PostGIS, an open source GIS software; delivering a result of the sectional view analysis executed by PostGIS to OpenLayers, and generating a section analysis results chart to display it on the Web; and displaying the sectional view analysis chart as a pop-up window.

Abstract translation: 本文公开了一种使用基于网络的三维截面图分析二维地热资源数据的方法，以实现对二维地热资源空间数据执行三维截面分析的分析模块作为通过数据处理运行的程序 设备包括电脑。 使用基于网络的三维截面图分析二维地热资源数据的方法通过以下处理来配置：选择分析对象区域并生成线性矢量数据; 为目标区域请求GeoServer的剖面分析图层; 根据交付条件生成分段分析的动态查询，并执行PostGIS，一种开源GIS软件; 将PostGIS执行的剖视图分析结果传递给OpenLayers，并生成一个剖面分析结果图表，将其显示在Web上; 并将截面视图分析图显示为弹出窗口。

公开(公告)号：US20140102094A1

公开(公告)日：2014-04-17

申请号：US13718916

申请日：2012-12-18

Applicant: KOREA INSTITUTE OF GEOSCIENCE AND MINERAL RESOURCES

Inventor： Byoung Ohan Shim ,  Hyoung Chan Kim ,  Chanhee Park

IPC: F03G7/04

CPC classification number: F03G7/04 ,  Y02E10/10

Abstract: A geothermal power generation system using heat exchange between working fluid and molten salt includes a heat collecting unit. A plurality of molten salt containing units are disposed in the ground at predetermined intervals from each other. A heat exchanging unit transfers a heat source of the heat collecting unit to the molten salt in the plurality of molten salt containing units. A plurality of working fluid containing units respectively surround the molten salt containing units and are disposed in the ground at predetermined intervals from each other. A turbine unit is connected to the plurality of working fluid containing units, and generates mechanical energy using steam energy that is generated by the plurality of working fluid containing units. A power generating unit is connected to the turbine unit, and generates electrical energy using the mechanical energy.

Abstract translation: 使用工作流体和熔盐之间的热交换的地热发电系统包括集热单元。 多个熔盐容纳单元以预定间隔彼此设置在地面中。 热交换单元将集热单元的热源传送到多个熔盐单元中的熔融盐。 多个工作流体容纳单元分别围绕熔融盐容纳单元并且以预定间隔彼此设置在地面中。 涡轮单元连接到多个工作流体容纳单元，并且使用由多个工作流体容纳单元产生的蒸汽能产生机械能。 发电单元连接到涡轮单元，并且使用机械能产生电能。

公开(公告)号：US09624912B2

公开(公告)日：2017-04-18

申请号：US13718987

申请日：2012-12-18

Applicant: KOREA INSTITUTE OF GEOSCIENCE AND MINERAL RESOURCES

Inventor： Byoung Ohan Shim ,  Hyoung Chan Kim ,  Chanhee Park

IPC: F03G7/00 ,  F03G7/04 ,  F01K25/00 ,  F24J2/34 ,  F24J2/42 ,  F28D20/00 ,  F28D20/02 ,  F03G6/06

CPC classification number: F03G7/00 ,  F01K25/00 ,  F03G6/003 ,  F03G6/06 ,  F03G7/04 ,  F24S60/00 ,  F24S90/00 ,  F28D20/00 ,  F28D20/0034 ,  F28D20/0056 ,  F28D20/021 ,  F28D2020/0047 ,  F28D2020/006 ,  Y02E10/10 ,  Y02E10/16 ,  Y02E10/46 ,  Y02E60/142 ,  Y02E60/145 ,  Y02E70/30

Abstract: A geothermal power generation system using heat exchange between working gas and molten salt includes a heat collector. A plurality of molten salt containers is disposed in a heat transferor at predetermined intervals from each other. A heat exchanger transfers a heat source of the heat collector to the molten salt in the plurality of molten salt containers. The heat transferor is disposed in the ground. Working gas which receives the heat source of the molten salt via heat exchange enters and exits the heat transferor. A turbine unit is connected to the heat transferor, and generates mechanical energy using energy of the working gas. A power generating unit is connected to the turbine unit, and generates electrical energy using the mechanical energy.

公开(公告)号：US20140102095A1

公开(公告)日：2014-04-17

申请号：US13718987

申请日：2012-12-18

Applicant: KOREA INSTITUTE OF GEOSCIENCE AND MINERAL RESOURCES

Inventor： Byoung Ohan Shim ,  Hyoung Chan Kim ,  Chanhee Park

IPC: F03G7/00

CPC classification number: F03G7/00 ,  F01K25/00 ,  F03G6/003 ,  F03G6/06 ,  F03G7/04 ,  F24S60/00 ,  F24S90/00 ,  F28D20/00 ,  F28D20/0034 ,  F28D20/0056 ,  F28D20/021 ,  F28D2020/0047 ,  F28D2020/006 ,  Y02E10/10 ,  Y02E10/16 ,  Y02E10/46 ,  Y02E60/142 ,  Y02E60/145 ,  Y02E70/30

Abstract: A geothermal power generation system using heat exchange between working gas and molten salt includes a heat collecting unit. A plurality of molten salt containing units are disposed in a heat transferring unit at predetermined intervals from each other. A heat exchanging unit transfers a heat source of the heat collecting unit to the molten salt in the plurality of molten salt containing units. The heat transferring unit is disposed in the ground. Working gas which receives the heat source of the molten salt via heat exchange enters and exits the heat transferring unit. A turbine unit is connected to the heat transferring unit, and generates mechanical energy using energy of the working gas. A power generating unit is connected to the turbine unit, and generates electrical energy using the mechanical energy.

Abstract translation: 使用工作气体和熔融盐之间的热交换的地热发电系统包括集热单元。 多个熔盐容纳单元以预定间隔彼此设置在传热单元中。 热交换单元将集热单元的热源传送到多个熔盐单元中的熔融盐。 传热单元设置在地面上。 通过热交换接收熔融盐的热源的工作气体进入和离开传热单元。 涡轮单元连接到传热单元，并且使用工作气体的能量产生机械能。 发电单元连接到涡轮单元，并且使用机械能产生电能。

公开(公告)号：US09121392B2

公开(公告)日：2015-09-01

申请号：US13718916

申请日：2012-12-18

Applicant: KOREA INSTITUTE OF GEOSCIENCE AND MINERAL RESOURCES

Inventor： Byoung Ohan Shim ,  Hyoung Chan Kim ,  Chanhee Park

IPC: F03G7/04

CPC classification number: F03G7/04 ,  Y02E10/10

Abstract: A geothermal power generation system using heat exchange between working fluid and molten salt includes a heat collecting unit. A plurality of molten salt containing units are disposed in the ground at predetermined intervals from each other. A heat exchanging unit transfers a heat source of the heat collecting unit to the molten salt in the plurality of molten salt containing units. A plurality of working fluid containing units respectively surround the molten salt containing units and are disposed in the ground at predetermined intervals from each other. A turbine unit is connected to the plurality of working fluid containing units, and generates mechanical energy using steam energy that is generated by the plurality of working fluid containing units. A power generating unit is connected to the turbine unit, and generates electrical energy using the mechanical energy.

Abstract translation: 使用工作流体和熔盐之间的热交换的地热发电系统包括集热单元。 多个熔盐容纳单元以预定间隔彼此设置在地面中。 热交换单元将集热单元的热源传送到多个熔盐单元中的熔融盐。 多个工作流体容纳单元分别围绕熔融盐容纳单元并且以预定间隔彼此设置在地面中。 涡轮单元连接到多个工作流体容纳单元，并且使用由多个工作流体容纳单元产生的蒸汽能产生机械能。 发电单元连接到涡轮单元，并且使用机械能产生电能。