KR20160073638A - Management apparatus and method of geothermal resource information - Google Patents

Abstract

The present invention relates to a geothermal resource information management device and a geothermal resource information management method to construct information regarding geothermal resources of the entire country as a database, to manage the information, and to easily receive geothermal resource information from the constructed database. The geothermal resource information management device comprises: a control unit to read and execute a program code wherein a series of processes is recorded; an input unit to input data or a driving command; a display unit to display an execution result and a driving state; and a storage unit to store a geothermal resource information management unit including a code for showing calculation processing order by the control unit and data to be applied to calculation processing as coded data and a geothermal resource information database. The geothermal resource information database stores geothermal resource basic information which is measured by GIS coordinate positions, geothermal resource reference information which is geological structure information regarding a geothermal resource survey area, a geothermal resource analysis information as a result which analyzes the geothermal resource basic information, a geothermal resource addition information which is topography information regarding the geothermal resource survey area, and GIS information corresponding to each geothermal resource information. The geothermal resource information management unit is executed by the control unit and provides a geothermal resource information providing service which reads and outputs the geothermal resource information corresponding to a search condition inputted by a user from the geothermal resource information database.

Description

TECHNICAL FIELD [0001] The present invention relates to a geothermal resource information management apparatus and method,

The present invention relates to a geothermal resource information management apparatus and a geothermal resource information providing method that enable information on geothermal resources of a nation to be constructed and managed as a database and to easily provide geothermal resource information from a built database It is

In Korea, there are no high temperature geothermal resources that can be used before, but there are many geothermal water resources available for district heating, and there are many abundant underground heat resources that can be used for heating and cooling. In addition, as drilling technology develops, geothermal power generation is possible by deep excavation. As a result, technologies using geothermal heat as a new and renewable energy source have been actively developed. In order to achieve this efficient, economical and successful technology, the thermal characteristics of the ground in Korea should be identified and the evaluation of the underground thermal resources to which the geological features of Korea are subjected, such as the distribution characteristics of the aquifer in the groundwater .

The geological survey of the whole country has been accurately examined by the Korea Institute of Geoscience and Mineral Resources. Korean Patent Registration No. 10-1308381 discloses a system and a method for providing economic effect information in the field of geological resources by storing technical information and technical information in the field of geological resources.

However, basic survey of geological, geophysical and geothermal characteristics of Korea is the most basic investigation that the general public can not do. Therefore, investigation of rock thermophysical properties based on geological and rock characteristics based on these geological survey data can be done only by geologists. Therefore, it is necessary to provide a system which can provide geographical information of rock thermophysical properties to geotechnical practitioners or companies in accordance with geological characteristics in a convenient way.

In addition, the development of deep-sea geothermal heat or heat pump using heat pump is increasing in popularity, but the characteristics of rock thermophysical properties of the ground in Korea can not be known. Therefore, the characteristics of geological and rock thermal properties using other foreign data are utilized Or design, it is a reality in Korea that it can not be designed efficiently, which can lead to a great cost loss due to the air-conditioning equipment which does not meet the standard. In particular, it takes enormous cost to deep drill to utilize deep geothermal heat, but it can be an efficient and economical development of geothermal resources if the local heat resource information is acquired and drilled.

Therefore, an information system should be established for the geological properties of rocks in Korea to provide precise thermophysical information on the required areas. Therefore, the distribution of geological distribution, the thermal properties (density, porosity, thermal diffusivity, specific heat, thermal conductivity), contents of radioactive elements (U, Th, K) And it is important to evaluate the heat flow by analyzing these data.

Therefore, it is required to develop infrastructure technology to build infrastructure and analysis tool of geothermal resource information for the whole country based on GIS and provide it to consumers.

On the other hand, it is more urgent to secure new and renewable energy as a result of energy policy due to the recent surge in oil prices. Therefore, the government is investing heavily in securing energy resources, and in order to utilize the scientific basis of new and renewable energy such as available potential, available potential and supply potential as policy data, There is an urgent need for research on infrastructure technologies that can build infrastructure and analysis tools for geothermal resource information for GIS and provide them to users.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is therefore an object of the present invention to provide a geothermal information system, The geothermal resource information is controlled according to the menu inputted from the user and the geothermal resource information can be provided to the geothermal application practitioner or the relevant company in a convenient way according to geological characteristics And to provide a geothermal resource information management apparatus and method.

According to an aspect of the present invention, there is provided a geothermal resource information management apparatus comprising: a control unit for reading and executing a program code describing a series of processing steps; An input unit for inputting data or a drive command; A display unit for displaying an execution result and a driving state; And a storage unit for storing a geothermal resource information management unit and a geothermal resource information database as coded data including a code indicating an operation processing procedure by the control unit and data to be applied to the operation processing, Geothermal resource reference information which is the geothermal resource information by the coordinate position, geothermal resource reference information which is the geological structure information of the geothermal resource survey area, geothermal resource analysis information as a result of the analysis of the geothermal resource basic information, The geothermal resource information management unit stores geothermal resource information corresponding to the search conditions inputted by the user, and the geothermal resource information management unit stores geothermal resource information From the geothermal resource information database and outputs the geothermal resource information providing service Characterized in that arranged to the ball.

The geothermal resource information management unit is executed by the control unit for the management and searching of the geothermal resource information, and then the geothermal resource information management unit outputs the geothermal resource distribution map search service, geothermal resource measurement data search service, And a geothermal resource information management interface unit for providing an information search service.

The geothermal resource distribution map retrieval service is a geothermal resource distribution map retrieval service that searches for a geothermal resource distribution map including at least one of a rock thermal property, a geothermal gradient, a geothermal heat, a geothermal heat by depth, a heat production rate, Geothermal resource distribution map, geothermal heat distribution map, heat generation rate distribution map, depth map zone distribution map, or depth depth zone availability distribution map for at least one of the resource, the administrative district, the geological period, And provides analysis information.

Wherein the geothermal resource distribution degree search service is a geothermal resource distribution degree search service for analyzing at least one of the geothermal resource analysis information of at least one of the thermal conductivity distribution map, the geothermal gradient distribution map, the geothermal heat distribution map, the heat generation rate distribution map, More statistical analysis information can be provided.

The geothermal resource measurement data search service includes at least one of a rock thermophysical property, a geothermal gradient, a geothermal heat quantity, a temperature per depth, a heat production rate, a temperature detection per depth, a heat pump, an underground thermal conductivity, Search for geological resource measurement data to be searched, search for measurement data by administrative area to search by administrative area by inputting administrative area information; Geological and geological time-domain retrieval by geological and geological time-domain information; A designated area search for selecting and searching an area on the displayed GIS map; Or a coordinate area search for inputting coordinate values; The search service providing service is provided.

The geothermal resource measurement data search service may further provide statistical analysis information on at least one of the search result of the measurement data by the administrative district, the search results of the geological and geologic age region, the designated region search result, or the coordinate region search result Can

Wherein the geothermal resource basic information includes at least one of data included in the rock thermal property information table, data included in the geothermal gradient information table, data included in the heat production rate information table, or data included in the geothermal heat flow rate information table A meta information table storing meta information for managing history information corresponding to the meta information table; One or more wet data sets, one or more wet data sets, one or more sample data, one or more sample number data for rock thermophysical properties, one or more coordinate information data, one or more rock name data, one or more dry density data, A rock thermophysical property information table in which one or more of at least one thermal conductivity data is stored corresponding to each other; One or more data of at least one coordinate information data, at least one borehole number data, at least one initial temperature data, at least one borehole depth data, at least one cooperative temperature data, at least one temperature gradient data, A geothermal gradient information table stored corresponding to each other; At least one of at least one identification number data, at least one coordinate information data, at least one temperature gradient data, at least one thermal conductivity data, at least one geothermal fluid data, at least one geological data, or at least one measurement location data, A geothermal heat quantity information table; Or one or more pieces of sample number data, one or more pieces of coordinate information data, or one or more pieces of heat production rate data with respect to a heat production rate are stored corresponding to each other; ≪ / RTI >

The geothermal resource reference information is geologic structure information for a geothermal resource survey area, and includes geological structure, monolayer diagram, line structure diagram, geological structure diagram, mosaic diagram, surface temperature distribution chart, aeronautical magnetic exploration chart, The present invention is characterized by including at least one of the current state diagram and the administrative district diagram.

The geothermal resource analysis information is at least one of a thermal conductivity distribution chart, a geothermal gradient distribution chart, a geothermal heat distribution chart, a heat production rate distribution chart, a depth-dependent temperature distribution chart, or a depth-specific heat availability distribution chart as geothermal resource analysis information performed using geothermal resource reference information And a control unit.

The information of the geothermal resource unit may include at least one of a road network, a railway network, a river network, a digital elevation model (DEM), a terrain gradient, a shaded relief map, or a satellite image map And a control unit.

The geothermal resource information management apparatus may further include a web service unit for providing the geothermal resource information providing service on the Internet.

According to another aspect of the present invention, there is provided a geothermal resource information management method comprising: a control unit for reading and executing a program code describing a series of processes; An input unit for inputting data or a drive command; A display unit for displaying an execution result and a driving state; And a storage unit for storing a geothermal resource information management unit and a geothermal resource information database as coded data including a code indicating an operation processing sequence by the control unit and data to be applied to operation processing, An information management method comprising: receiving geothermal resource information including one or more geothermal resource basic information, one or more geothermal resource reference information, one or more geothermal resource analysis information, and one or more geothermal resource additional information, A geothermal resource information database construction process for storing a structured data structure interlocked with the geothermal resource information database; And geothermal resource information providing step of reading geothermal resource information corresponding to a search condition input by a user or analysis information on geothermal resource information from the geothermal resource information database and outputting the geothermal resource information.

The geothermal resource information providing process is a process of providing at least one geothermal resource information search service among a geothermal resource distribution search service or a geothermal resource measurement data search service using stored geothermal resource information.

The geothermal resource distribution map retrieval service is a geothermal resource distribution map retrieval service which is a geothermal resource distribution map retrieval service including geothermal resource distribution degree retrieval service including geothermal resource distribution degree retrieval service including geothermal resource distribution degree retrieval service including geothermal resource distribution degree retrieval service including geothermal resource distribution degree retrieval service, One or more of the thermal conductivity map, geothermal gradient map, geothermal map, thermal generation rate map, depth map geothermal map, or depth map of at least one geothermal map, And provides resource analysis information.

The geothermal resource measurement data search service may include at least one of geothermal resource analysis information of at least one of a thermal conductivity distribution map, a geothermal gradient distribution map, a geothermal heat distribution map, a heat generation rate distribution map, a depth dependent temperature distribution map, Can provide additional statistical analysis information.

The geothermal resource measurement data retrieval service includes at least one of a dark temperature characteristic for a carcinoma, a geothermal gradient, a geothermal heat amount, a geothermal heat by depth, a heat production rate, a temperature detection by depth, a heat pump, a ground thermal conductivity, Search for geological resource measurement data to be searched, search for measurement data by administrative area to search by administrative area by inputting administrative area information; Geological and geological time-domain retrieval by geological and geological time-domain information; A designated area search for selecting and searching an area on the displayed GIS map; Or a coordinate area search for inputting coordinate values; The search service providing service is provided.

The geothermal resource measurement data search service may further provide statistical analysis information on one or more search results of the geological and geologic age search results, the designated area search results, or the coordinate area search results, .

Wherein the geothermal resource basic information includes at least one of data included in the rock thermal property information table, data included in the geothermal gradient information table, data included in the heat production rate information table, or data included in the geothermal heat flow rate information table A meta information table storing meta information for managing history information corresponding to the meta information table; One or more wet data sets, one or more wet data sets, one or more sample data, one or more sample number data for rock thermophysical properties, one or more coordinate information data, one or more rock name data, one or more dry density data, A rock thermophysical property information table in which one or more of at least one thermal conductivity data is stored corresponding to each other; One or more data of at least one coordinate information data, at least one borehole number data, at least one initial temperature data, at least one borehole depth data, at least one cooperative temperature data, at least one temperature gradient data, A geothermal gradient information table stored corresponding to each other; At least one of at least one identification number data, at least one coordinate information data, at least one temperature gradient data, at least one thermal conductivity data, at least one geothermal fluid data, at least one geological data, or at least one measurement location data, A geothermal heat quantity information table; Or one or more pieces of sample number data, one or more pieces of coordinate information data, or one or more pieces of heat production rate data with respect to a heat production rate are stored corresponding to each other; ≪ / RTI >

The geothermal resource reference information includes: Geological structure information of geothermal resource survey area, geological map, fault diagram, line structure diagram, municipal structure diagram, mosaic map, surface temperature distribution chart, aeronautical magnetic exploration chart, aeronautical gravity chart, And includes one or more pieces of information.

The geothermal resource analysis information is at least one of a thermal conductivity distribution chart, a geothermal gradient distribution chart, a geothermal heat distribution chart, a heat production rate distribution chart, a depth-dependent temperature distribution chart, or a depth-specific heat availability distribution chart as geothermal resource analysis information performed using geothermal resource reference information And a control unit.

The information of the geothermal resource unit may include at least one of a road network, a railway network, a river network, a digital elevation model (DEM), a terrain gradient, a shaded relief map, or a satellite image map And a control unit.

The geothermal resource information providing method may further include the geothermal resource information database managing step of managing the geothermal resource information database by performing registration, deletion and updating of the geothermal resource information.

The geothermal resource information providing method may further include a geothermal resource information providing web service process for allowing the geothermal resource information providing process to be performed on the Internet.

The present invention having the above-described structure can improve the success rate of selecting the drilling site for deep-sea geothermal development by grasping the properties of the underground rock thermophysical property according to the geology and region by the geothermal resource information providing function of the geothermal resource information management apparatus, It is possible to obtain an effect of reducing the cost.

According to the geothermal resource information providing method of the geothermal resource information management server of the present invention, it is possible to efficiently design a district heating / cooling facility by designing accurate heating and heating data of a specific area when designing heating / By determining the capacity and size of the facility, it is possible to reduce the cost and extend the service life of the heating and cooling equipment.

In addition, according to the geothermal resource information providing method of the geothermal resource information management apparatus of the present invention, it is not necessary to investigate the geological and geothermal distribution survey for the new area, so that the budget can be saved by wasting human resources have.

1 is a functional block diagram of a geothermal resource information management device 1 according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of a query for a distribution map search service according to the above-described administrative districts; FIG.
3 is a flowchart showing a process of a geothermal resource information management method according to the present invention.
4 is an exemplary view of a rock thermophysical property information table according to an embodiment of the present invention.
5 is an exemplary view of a temperature gradient information table according to an embodiment of the present invention;
FIG. 6 is an exemplary view of a table of geothermal heat flow rate information according to an embodiment of the present invention; FIG.
7 is an exemplary view of a heat production rate information table according to an embodiment of the present invention.
Figure 8 is a national thermal conductivity map according to an embodiment of the present invention;
9 is a geothermal slope distribution map of the whole country according to an embodiment of the present invention.
10 is a diagram showing a distribution of heat fluxes of the whole country according to an embodiment of the present invention.
11 is a distribution chart of the heat generation rate of the whole country according to the embodiment of the present invention.
FIG. 12 is a map showing the geological temperature distribution of the whole country according to the embodiment of the present invention; FIG.
FIG. 13 is a distribution chart of the heat capacity of the whole country according to depths according to the embodiment of the present invention. FIG.
14 is a view showing a geothermal resource information management interface unit according to an embodiment of the present invention.
15 is a diagram showing a geothermal resource distribution degree search screen.
16 is a view showing a geothermal resource measurement data search screen.
FIG. 17 is a view showing a screen for searching a geological area and geological area; FIG.
18 is a view showing a thermal conductivity degree distribution diagram according to an embodiment of the present invention.
FIG. 19 is a diagram showing a distribution of the amount of a geothermal heat according to an embodiment of the present invention; FIG.
FIG. 20 is a cross-sectional view of a distribution chart of the amount of the geothermal heat according to the embodiment of the present invention. FIG.
FIG. 21 is a diagram showing a result of correlation analysis between thermal conductivity information and thermal diffusion information per administrative zone according to an embodiment of the present invention. FIG.
FIG. 22 is a diagram showing a result of area analysis by specifying the administrative zone name and the layer according to the embodiment of the present invention; FIG.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings showing embodiments of the present invention.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The embodiments according to the concept of the present invention can be variously modified and can take various forms, so that specific embodiments are illustrated in the drawings and described in detail in the specification or the application. It should be understood, however, that it is not intended to limit the embodiments according to the concepts of the present invention to the particular forms of disclosure, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the present invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises ",or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

1 is a functional block diagram of a geothermal resource information management device 1 according to an embodiment of the present invention.

1, the geothermal resource information management device 1 includes a control unit 10 for reading and executing a program code describing a series of processes, an input unit 20 for inputting data or a drive command, A display section 40 for displaying the driving state of the geothermal resource information management apparatus 1; a communication section 50 for communicating with the outside; And a storage unit 100 for storing the geothermal resource information management unit 110 and the geothermal resource information DB 120 as coded data including a code indicating a sequence of operation processing by the geological resource information DB 120 and data to be applied to the arithmetic processing. The web service unit 60 may further include a wired / wireless web service to perform the geothermal resource information management on the web.

The geothermal resource information management unit 110 and the geothermal resource information DB 120 stored in the storage unit 100 will be described in more detail.

The geothermal resource information management unit 110 includes a geothermal resource information management interface unit 113. When the geothermal resource information management unit 110 is called and executed by the control unit 10, And a code executed by the control unit 10 for outputting the unit 113 to the display unit 40. [

The geothermal resource information management interface unit 113 provides a geothermal resource distribution degree search service and a geothermal resource measurement data search service using the information of the geothermal resource information DB 120 by the user.

The geothermal resource distribution map search service provides a search service such as thermal conductivity, geothermal gradient, geothermal heat generation rate, geothermal (1km ~ 5km), heat capacity per depth (1km ~ 5km) and average surface temperature.

In addition, it provides search service of distribution map by administrative district, which is a service to search and output the basic statistics (minimum value, maximum value, average, variance, standard deviation) of distribution by province, city, town and district.

FIG. 2 is a diagram showing an example of a query for a distribution map search service by the above-mentioned administrative area for thermal conductivity. In order to perform the above-described distribution search for the administrative area as shown in FIG. 2, the name of the distribution map is selected as the 'thermal conductivity degree' in the distribution map view window, and the user selects the city district, When the search button is pressed, the control unit 10 outputs the statistical data on the distribution of the thermal conductivity having the corresponding combination to the measurement data statistics table. At this time, the measurement data statistics show minimum value, maximum value, variance, average, standard deviation and unit. Although not shown in FIG. 2, the distribution of the thermal conductivity may be output together with the GIS information.

1, in order to perform geothermal resource information management or geothermal resource information providing service as described above, the geothermal resource information DB 120 stores rock, boreholes, and the like in order to survey geothermal resources at a GIS coordinate location The geothermal resource basic information 130 as the measured information, the geothermal resource reference information 140 as the geological structure information for the geothermal resource survey area, and the geothermal resource basic information 130, Resource analysis information 150 and GIS information 170 for storing geographical information of the geothermal resource section 160 and geographical information of the geothermal resource information are stored.

The geothermal resource basic information 130 is information obtained by actually measuring a rock, a borehole, and the like for geothermal resource investigation at a GIS coordinate position. Specifically, the geothermal resource basic information may include at least one of a meta information table, a rock thermal property information table, a geothermal gradient information table, a geothermal heat information table, and a heat production rate information table.

The geothermal resource reference information 140 is geological structure information for a geothermal resource surveying area at a GIS coordinate position. The geothermal resource reference information 140 includes geological information such as geology, monolithography, line structure, geological structure diagram, mosaic surface, Aeronautical gravity survey, hot spring development status and administrative district map.

The geothermal resource analysis information 150 is geothermal resource analysis information performed using the geothermal resource reference information at the GIS coordinate location. The geothermal resource analysis information 150 includes at least one of a thermal conductivity distribution map, a geothermal gradient distribution map, a geothermal heat distribution map, a heat generation rate distribution map, And a specific heat capacity distribution chart.

The geothermal resource additional information 160 is geographical information on a geothermal resource surveying area at a GIS coordinate location, and includes road network, railroad network, river network, digital elevation model (DEM), terrain gradient, And a satellite image map.

The GIS information 170 may include position coordinates and geographical coordinates that match at least one of the geothermal resource basic information 130, the geothermal resource reference information 140, the geothermal resource analysis information 150, Information.

The geothermal resource information management apparatus 1 having the above-described configuration can be implemented as a research server for providing geothermal resource information of a geological resource research institute or the like. In addition, geothermal resource information management apparatus 1 having geothermal resource information management system Management and information providing services.

That is, the geothermal resource information management device 1 having the above-described configuration can provide the geothermal resource information to the user through the geothermal resource information management system developed as an application program based on a window environment that facilitates the user environment.

The geothermal resource information management device 1 can be developed by customizing an ArcGIS Desktop of ArcView 9.X version. In addition, the geothermal resource information management system can operate the lister data in units of cells through a special analyst 9.X that is a specialized package for spatial analysis. The Lester data may include a thermal conductivity distribution map, a geothermal gradient distribution map, a geothermal distribution map, a heat generation rate distribution map, a geothermal distribution map at depth, a heat capacity distribution at depth, a mosaic map, a surface temperature distribution map, have.

The geothermal resource information management device 1 having the above-described structure may register new data in the geothermal resource information database 120 by using a GIS database management program such as a personal geodatabase structure, And so on.

3 is a flowchart showing a process of the geothermal resource information management method of the present invention.

3, the geothermal resource information management method by the geothermal resource information management apparatus 1 according to the embodiment of the present invention includes a geothermal resource information database construction process S100, a geothermal resource information database management process S200, And a resource information providing step (S300). In addition, the geothermal resource information management method may include providing geothermal resource information (S100) for establishing a geothermal resource information database (S100), a geothermal resource information database management process (S200), and a geothermal resource information providing process (S300) And a web service process (S400).

Specifically, the geothermal resource information database building process S100 may be performed by using a GIS database management program, such as a personal geodatabase structure, to generate one or more geothermal resource basic information, one or more geothermal resource reference information, The geothermal resource information database 120 is constructed by receiving geothermal resource information including analysis information and at least one geothermal resource additional information and storing the geothermal resource information having a structured data structure interlocked with the GIS . Thus, the geothermal resource information management apparatus 1 is provided with the geothermal resource-based geothermal resource information database 120.

 An example stored in the geothermal resource information database 120 having the structured data structure of the geothermal resource information will now be described.

4 is an exemplary view of a rock thermophysical property information table according to an embodiment of the present invention.

As shown in FIG. 4, the rock thermophysical property information data may include one or more sample number data, at least one coordinate information data, at least one rock name data, at least one dry density data, at least one wet density data, at least one porosity data, Data, one or more specific heat data, and at least one heat conductivity data are structured and stored in the form of a rock thermophysical property information table in which the data is recorded corresponding to each other.

Specifically, as shown in Fig. 4, the rock thermophysical property information table corresponds to the sample number data "AD-1-001 ", coordinate coordinate data" 394254.333 and 4052111.927 ", rock name "granite and pale pink granite" Data of dry density data of "2.570", wet density data of "2.588", porosity data of "0.02", thermal diffusivity data of "1.670", specific heat data of "0.828" and thermal conductivity data of "3.758"Lt; / RTI >

5 is an exemplary diagram of a temperature gradient information table according to an embodiment of the present invention.

As shown in FIG. 5, geothermal gradient information stored in the geothermal resource information database 120 may include at least one coordinate information data, at least one borehole number data, at least one initial temperature data, at least one borehole depth data, The above-mentioned geothermal gradient data and one or more data grade data are structurally stored in a geothermal gradient information table in which they are recorded corresponding to each other. Specifically, as shown in Fig. 5, the geothermal gradient information table corresponds to the coordinate information data "381985.478 and 3967939.287 ", the borehole number data" 0D1 ", the initial temperature data "14.00 ", the borehole depth data &Quot;," 14.54 "," 5.74 "and the data grade data" d "

FIG. 6 is an exemplary view of a table of geothermal heat flow rate information according to an embodiment of the present invention; FIG.

6, the geothermal resource information stored in the geothermal resource information database 120 may include at least one identification number data, at least one coordinate information data, at least one geothermal gradient data, at least one thermal conductivity data, at least one geothermal heat data, The geological data, and the at least one measurement location data are recorded. Specifically, as shown in Fig. 6, coordinate information data "264798 and 4172976", "zirconia slope data" 23.98 ", and thermal conductivity data" 2.187 "corresponding to the identification number data" S601 " , "52.4", geological data "JGR", and measurement point data "near point" can be recorded in correspondence with each other.

7 is an exemplary diagram of a heat production rate information table according to an embodiment of the present invention.

As shown in FIG. 7, the thermal generation rate information stored in the geothermal resource information database 120 is structured as a thermal production rate information table in which one or more sample number data, one or more coordinate information data, and one or more heat production rate data are recorded corresponding to each other . Specifically, as shown in Fig. 5, the heat production rate information table includes coordinate information data "128.65187, 36.58851, 447564.6, 344685.5, 468669.0 and 4049662.2" corresponding to the sample number data "Andong- Can be recorded in correspondence with each other.

In the geothermal resource information database 120, the geothermal resource analysis information 150 may include at least one of a spatial analysis criterion and a kriging technique for the geothermal resource basic information 130 and the geothermal resource reference information 140 Technique. ≪ / RTI >

FIG. 8 is a distribution diagram of the thermal conductivity of the whole country among the geothermal resource analysis information 150 according to the embodiment of the present invention.

As shown in FIG. 8, the thermal conductivity map can be created by applying any one of the spatial analysis technique and the kriging technique corresponding to the variogram analysis result of the rock thermal property information table of FIG.

9 is a geothermal gradient distribution chart of the geothermal resource analysis information 150 according to the embodiment of the present invention.

As shown in FIG. 9, the geothermal gradient distribution diagram can be created by applying any one or more of the spatial analysis technique and the kriging technique corresponding to the result of the variogram analysis on the data of the geothermal gradient table as shown in FIG.

FIG. 10 is a geothermal resource distribution chart 150 of the geothermal resource analysis information 150 according to an embodiment of the present invention.

As shown in FIG. 10, the geothermal flow rate distribution diagram can be created by applying any one or more of the spatial analysis technique and the kriging technique corresponding to the variogram analysis result of the geothermal flow data as shown in FIG.

11 is a distribution chart of the heat production rate of the whole country among the geothermal resource analysis information 150 according to the embodiment of the present invention.

As shown in FIG. 11, the heat production rate distribution diagram can be created by applying at least one of a spatial analysis technique and a kriging technique corresponding to a variogram analysis result of the heat production rate data as shown in FIG.

FIG. 12 is a map of the geological temperature distribution of the whole country among the geothermal resource analysis information 150 according to the embodiment of the present invention.

As shown in FIG. 12, the geothermal distribution diagram can be created using the geothermal production rate distribution chart, the rock thermal conductivity distribution chart, the surface geothermal heat flow distribution chart, the damping coefficient, and the surface temperature of the weather station.

FIG. 13 is a diagram showing a distribution of heat capacity according to depths of the nation among geothermal resource analysis information 150 according to an embodiment of the present invention.

As shown in Fig. 13, the heat capacity distribution chart is obtained by dividing the density data included in the rock thermophysical property information table, the specific heat data included in the rock thermophysical property information table, the volume and the geothermal distribution map calculated by multiplying the South area by each depth .

The geothermal resource information database 120 holds at least one of a space identification ID, a meta information code, a unit identification code, a machining ID, and a tamper code. The space identification ID is an ID that can not be interfered by the user because it is an identification value generated internally by the GIS S / W. In other words, user intervention is not allowed because it is a value that is automatically generated and destroyed by the program. The meta information code may include history data corresponding to data included in the rock thermal property information table, data included in the geothermal gradient information table, data included in the heat production rate information table, or data included in the geothermal heat flow rate information table Code for management, and may include at least one of a data generation date, a data classification identifier, and a power number. For example, the first meta information code "20051212HM0001" indicates that the date of creation of the first data corresponding to the first meta information code is December 12, 2005, History information called information data can be displayed. The second meta information code "20010123HF0031" indicates that the second data corresponding to the second meta information code is generated on January 23, 2001, and the second data is the & Information can be displayed. Further, the third meta information code "20040903HG0329" indicates that the date of generation of the third data corresponding to the third meta information code is September 3, 2004, and the third data is the temperature gradient information data generated 329th of the year History information can be displayed. Further, the fourth meta information code "20070201HP3281" indicates that the generation date of the fourth data corresponding to the fourth meta information code is February 1, 2007, and the fourth data is the heat production rate information data generated for the year 3281 History information can be displayed. The unit identification code is an identifier for referring to various engineering units related to geothermal information, and may be represented by including a serial number. For example, the unit identification code may be represented by a combination of a U character and a serial number of a unit. The machining ID is a value arbitrarily given at the time of surveying or exploring a borehole in the field, and is an identification value provided as a preliminary in data update and management work without a special format.

The geothermal resource information database 102 is constructed by the above-described process by the geothermal resource information database building process S100 of FIG.

After the geothermal resource information database 120 is constructed in the geothermal resource information database building process S100 as described above, the geothermal resource information database management process S200 of FIG. 3 is performed.

The geothermal resource information management interface unit 113 is operated to perform the geothermal resource information database management process (S200).

14 is a view showing a geothermal resource information management interface unit 113 according to an embodiment of the present invention.

The geothermal resource information management interface unit 113 includes a pull-down menu unit, a menu icon, a table of contents (TOC), an index map viewer, a query part, A map view, and a status bar to the user.

The TOC allows a user to view a list of measurement data and a distribution list in a tree format, and to change the layer display. The index map viewer allows the user to monitor the relative position of the entire screen when the user inputs an operation of the map view. The inquiry unit allows a user to quickly move to a region corresponding to a local spatial inquiry and a spatial inquiry.

Specifically, the geothermal resource information interface unit 113 may include at least one of an edit menu, an inquiry menu, and an analysis menu.

The edit menu may include at least one of a measurement data addition submenu, a measurement data modification submenu, a distribution diagram addition submenu, and a distribution modification correction submenu.

The inquiry menu may include at least one of a measurement data inquiry submenu and a distribution order inquiry submenu. The analysis menu may include at least one of statistical data for calculating basic statistics (minimum value, maximum value, average, variance, standard deviation) An analysis submenu, a cross section analysis submenu, a correlation analysis submenu, and a region analysis submenu.

The measurement data includes at least one of the following data: rock thermal property information, geothermal gradient information, geothermal heat quantity information, and heat production rate information, and the distribution map is the geothermal resource analysis information. The rock thermal physical property information may include at least one of specific heat, dry density, wet density, porosity, thermal diffusivity and thermal conductivity.

The geothermal resource information management interface unit 113 receives a selection of one or more pieces of attribute information corresponding to the measurement data addition submenu and the measurement data modification submenu from a user and receives data corresponding to each of the one or more pieces of attribute information And updates the geothermal resource information database 120 through the one or more pieces of attribution information and the data corresponding to the respective attribution information.

For example, the user can update the rock thermographic properties information table through the measurement data addition submenu and the measurement data modification submenu. That is, the user can input the attribute information (No., sample number, UTMx, UTMy, reclassification, rock name, dry density, wet density, etc.) of the rock thermal property information table through the measurement data addition submenu and the measurement data modification submenu. The thermal property information table can be updated by selecting one or more pieces of attribute information to which data to be updated belongs among the heat capacity, porosity, thermal diffusivity, specific heat, and thermal conductivity.

In addition, the user can update the heat production rate information table through the measurement data addition submenu and the measurement data modification submenu. That is, the user can update the attribute information (No, ID, Long, Lat, TM250x, TM250y, UTMx, UTMy, and the heat production rate) of the heat production rate information table through the measurement data addition submenu and the measurement data modification submenu One or more pieces of attribute information to which the data belonging to the selected data belongs can be selected and data corresponding to each of the selected pieces of attribute information can be inputted to update the heat production rate information table.

When the geothermal resource information management apparatus 1 receives one or more additional distribution maps corresponding to the distribution diagram addition submenu and the distribution map modification submenu from the user via the geothermal resource information management interface unit 113, 10) updates the layer and the distribution map corresponding to the geothermal resource information through the additional distribution map. For example, the user may add an additional distribution diagram as a new layer through the distribution diagram addition submenu. Also, the user may replace the layer corresponding to the geothermal resource information with the distribution chart re-created by the additional measurement data through the distribution chart modification submenu.

The above-described geothermal resource database management process (S200) manages the geothermal resource information database by performing the above-described process to add, delete, and update geothermal resource information in the geothermal resource information database (120).

The geothermal resource information management apparatus 1 performs construction and management of the geothermal resource database as described above and performs a geothermal resource information providing process S300 for providing a geothermal resource information search service.

In order to perform the geothermal resource information providing process (S300), the geothermal resource information management device (1) transmits the geothermal resource information through the geothermal resource information management interface unit (113) to one of the administrative area name, coordinate range, map area, And geological resource information retrieval conditions are input through layers such as the thermal property of each rock, the thermal conductivity, and the like. For example, the geothermal resource information management device 1 can receive 'Seongchon-dong, Buk-gu, Ulsan Metropolitan City' and 'Zeon slope' as a search condition from a user. In addition, the user can input the search area by dragging the search area with the mouse on the map displayed in the map view. In addition, the geothermal resource information management interface unit 113 may receive 'granite', 'Daejeon Metropolitan City Songcheon-dong' and 'Zeon slope distribution map' as search conditions from the user, and ' May be input as search conditions.

When the user inputs a search condition through the geothermal resource information management interface unit 113, the geothermal information management apparatus 1 reads the geothermal resource information corresponding to the search condition from the geothermal resource information database 120 And outputs it.

In this process, the geothermal resource information according to the search condition output by the geothermal source information management device 1 can be output as data according to sub-menu items among the menu items. For example, when the submenu of the menu is selected as the measurement data inquiry submenu, the graphic corresponding to the geothermal resource information corresponding to the search condition is enlarged and displayed through the display unit 40, And an attribution information table corresponding to the geothermal resource information can be output together.

The geothermal resource information search service provided in the geothermal resource information providing process (S300) is classified into geothermal resource distribution map search and geothermal resource measurement data search service.

15 is a diagram showing a geothermal resource distribution map retrieval screen.

As shown in FIG. 15, the geothermal resource distribution map search can search the search target data by the administrative district distribution map. In this case, the data to be searched include thermal conductivity, low temperature slope, geothermal heat, heat production rate, Geotherm (1km ~ 5km), heat capacity by depth (1km ~ 5km) and average surface temperature. The distribution chart of administrative districts can be used to search basic statistics on the data of the search target, distribution by province, district, and eup and myeon.

For example, as a search expression for searching the distribution map of the administrative district, a search request is made after inputting the search target data, the trial, the city and county, and the eup, When the search request is performed, the control unit 10 of the geothermal source information management device 1 searches the geographical source information management apparatus 1 for the search target data having the search target data corresponding to the search formula and the minimum value, maximum value, average, variance, It is possible to search the geothermal resource distribution map by outputting the basic statistical value to the measurement data statistics.

16 is a view showing a geothermal resource measurement data search screen.

As shown in FIG. 16, the data to be searched for in the geothermal resource measurement data search are rock thermophysical property, geothermal gradient, geothermal heat rate, heat production rate, temperature detection, heat pump, underground thermal conductivity, and average annual surface temperature.

Search methods include surveying data by administrative district, searching geological and geological area, searching designated area, and searching coordinate area. Measurement method in the search method condition area Searches the cancer type and provides basic statistics (minimum value, maximum value, average, variance, standard deviation) of the retrieved measurement data. The search parameters of the rock thermal properties are density, porosity, thermal diffusivity, specific heat, thermal conductivity, and the search items of temperature gradient include borehole depth, initial temperature, high temperature, geothermal slope, geothermal gradient, thermal conductivity, The production rate is the rate of heat production, temperature is logarithmic slope, initial temperature, high temperature, heat pump is specific heat, underground thermal conductivity is thermal conductivity, annual average surface temperature is average annual atmospheric temperature and average annual surface temperature.

Examples of geological resource measurement data retrieval are classified as administrative area surveyors, geological and geological survey areas.

First, the search for measurement data by administrative area searches for the types of measurement data of each measurement by province, city, town, and village, and provides the basic statistics (minimum value, maximum value, average, variance, standard deviation) of the retrieved measurement data.

As an example of the query, as shown in Fig. 16, in order to retrieve the administrative area measurement data of the measurement data in the measurement data inquiry window, a search method such as the administrative district is set, and measurement data such as the rock thermal property are selected, Enter administrative information and click the search button.

When the search button is clicked, the control unit 10 of the geothermal resource information management device 1 reads the measurement data corresponding to the search condition from the geothermal resource information database 120 and outputs a search result list. Then, when the user clicks the search button again after selecting items such as the density of the measurement data statistics, the basic statistics about the items of each of the searched lists are displayed.

FIG. 17 is a diagram showing a screen for searching a geological area and geological area; FIG.

As shown in FIG. 17, the area search by geological and geological conditions searches for the type of cancer data by geological age and provides basic statistical data such as minimum value, maximum value, average, variance, and standard deviation for each item of the retrieved measurement data. As an example of the geological and geological time-domain search, as shown in FIG. 17, it is possible to select a geological area and a geological area, select measurement data, select a geological age, and click a search button. The results of this search show a list of cancer types in the geological era. In this case, when the item condition of the area is selected and searched, that is, when the item is selected by the density as shown in FIG. 17, a search for the 13 items of the density item Statistics are output.

In this process, statistical analysis functions of geothermal resources are thermal conductivity, geothermal slope, geothermal heat, deep geothermal heat, depth of heat by depth, average surface temperature. Statistical analysis by administrative area can be done by selecting statistical information (minimum value, maximum value, average, variance, standard deviation) by administrative area (by province, city, district) Expressed in red color.

18 is a diagram showing a distribution of thermal conductivity according to an embodiment of the present invention. As shown in FIG. 18, when the geothermal resource information management device 1 receives 'Ulsan Metropolitan City Bukgu' and 'Thermal Properties' as a search condition from the user, the area corresponding to 'Ulsan Metropolitan City Bukgu' is enlarged and displayed A graphic to the user can be displayed on the lower right side of the geothermal resource information database 120, and a rock thermophysical property information table corresponding to the 'Ulsan Metropolitan City Bukgu' can be displayed.

When the menu is the distribution map inquiry submenu, displays the graph corresponding to the first geothermal resource information to the user and displays the first geothermal resource information The coordinate range, the area, and the statistical information corresponding to the image data.

FIG. 19 is a diagram showing the distribution of the amount of the geothermal heat according to the embodiment of the present invention. For example, as shown in FIG. 19, when the geothermal resource information management server receives 'Ulsan Metropolitan City Buk-gu' and 'Geothermal Heat Flow Distribution Map' as search conditions from the user, The display unit may display the enlarged graphic to the user, and may display at least one of a histogram, a coordinate range, an area, and statistical information corresponding to the geothermal heat distribution map corresponding to the 'Ulsan Metropolitan City Bukgu'. The statistical information may include at least one of a minimum / maximum value, an average, a variance, and a standard deviation corresponding to the geothermal heat distribution map corresponding to 'Ulsan Metropolitan City Bukgu'.

The geothermal resource information management device 1 displays at least one of a histogram and statistical information corresponding to the geothermal resource information when the menu selected by the user is a sub-analysis submenu. For example, when the geothermal resource information management server receives' Ulsan Metropolitan City Buk-gu ',' Thermal conductivity map ', and' Sedimentary Rock 'as a search condition from the user, the geothermal resource information management server obtains a map corresponding to the' Ulsan Metropolitan City Buk- It is possible to display at least one of the histogram RAM and the statistical information corresponding to the thermal conductivity degree map.

The geothermal circulation information management apparatus 1 receives a selection of a geothermal energy distribution from the user when the menu selected by the user is a cross section analysis submenu, receives a reference line corresponding to the geothermal energy distribution map from the user, The heat flux distribution map corresponding to each point of the heat flux is analyzed. And displays a graph showing a change in geothermal resource information according to each point of the baseline according to the analysis result.

FIG. 20 is a diagram showing a cross section analysis result of a geothermal heat amount distribution diagram by specifying a name of a station, a layer, and a reference line according to an embodiment of the present invention. For example, as shown in FIG. 20, the geothermal resource information management device 1 receives' Ulsan Metropolitan City Buk-gu 'and' Geothermal Heat Flow Distribution Diagram 'as a search condition from a user and receives the' Ulsan Metropolitan City Buk- A reference line corresponding to the geothermal heat distribution map corresponding to the reference temperature can be inputted. The user can input a baseline by constructing a baseline with a mouse on the map displayed in the map view 1240. [ The geothermal resource information management device 1 analyzes the geothermal energy distribution map corresponding to the 'Ulsan Metropolitan City Buk-gu' at each point of the baseline, and the change of the geothermal energy distribution map according to each point of the baseline, Can be displayed.

When the menu selected by the user is the correlation analysis submenu, the geothermal resource information management device 1 receives the selection of the measurement data and the distribution map from the user, and analyzes the correlation between the measurement data and the distribution map. The geothermal resource information management device 1 displays on the display unit 40 a graph showing the correlation between the analyzed measurement data and the distribution maps.

FIG. 21 is a diagram showing a result of correlation analysis between thermal conductivity information and thermal diffusion information per administrative zone according to an embodiment of the present invention.

For example, as shown in FIG. 16, when the geothermal resource information management device 1 receives 'Ulsan Metropolitan City Buk-gu', 'Thermal Properties' and 'Thermal Conductivity Distribution Diagram' as a search condition from the user, The resource information management server can analyze the correlation between the rock thermophysical property information corresponding to 'Ulsan Metropolitan City Buk-gu' and the thermal conductivity map corresponding to 'Ulsan Metropolitan City Buk-gu'.

When the first menu is the area analysis submenu, the geothermal resource bangkok managing apparatus 1 receives a selection of measurement data from the user and analyzes the measurement data to generate a distribution map corresponding to the measurement data. The geothermal resource information management device 1 displays a distribution diagram to a user.

FIG. 22 is a diagram showing area analysis results by specifying the administrative zone name and the layer according to the embodiment of the present invention. FIG. For example, as shown in FIG. 22, when the geothermal resource information management device 1 receives 'Ulsan Metropolitan City Buk-gu', 'Thermal Properties' and 'Limestone' as search conditions from the user, It is possible to generate a distribution map corresponding to the rock thermophysical property information corresponding to the 'Ulsan Metropolitan City Bukgu' and the 'limestone' by analyzing the rock thermophysical property information corresponding to the 'northern' and 'limestone'. The geothermal resource information management server can perform the spatial interpolation on the rock thermophysical property information corresponding to 'Ulsan Metropolitan City Bukgu' and 'Limestone' to generate the distribution map. The geothermal resource information management device 1 can display the distribution diagram to the user.

At this time, the layer has a structure in which a rock thermophysical property information layer, a geothermal gradient information layer, a geothermal heat quantity information layer, or a heat production rate information layer is stacked with map information as a base layer. By selecting each layer, The geothermal resource information of each geothermal resource can be displayed and grasped.

In the geothermal resource information providing method of the present invention, the geothermal resource information providing apparatus 1 having the above-described configuration is constituted by a geothermal resource information providing server and then launched into a communication network, thereby generating a geothermal resource information database A geothermal resource information providing web service process (S400) for connecting the geothermal resource information providing process (S100), the geothermal resource information database managing process (S200), and the geothermal resource information providing process (S300) .

In addition, the geothermal resource information providing method according to the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape, magnetic-optical media such as CD-ROMs and DVDs, and ROMs, RAM), flash memory, and the like, which are specifically configured to store and execute program instructions. The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, or the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Therefore, it is to be understood that the spirit of the present invention is to be understood solely by the scope of the appended claims, and all of its equivalents or equivalents are included in the scope of the present invention.

1: geothermal resource information management apparatus 10: control unit
20: input unit 30: output unit
40: display unit 50:
60: Web service unit 100:
110: Geothermal resource information management unit 113: Geothermal resource information management interface unit
120: Geothermal resource information database

Claims (14)

A control unit for reading and executing a program code describing a series of processes; And a geothermal resource information management unit and a geothermal resource information database as coded data including a code indicating an operation processing sequence by the control unit and data to be applied to an operation process,
The geothermal resource information database comprises:
Geothermal resource information, which is the result of analyzing the geothermal resource basic information, geothermal resource information, and geothermal resource information, which are the geothermal resource information, which is the measured geothermal resource information for each GIS coordinate position, The geothermal resource unit, which is geographical information on the area, stores information and GIS information corresponding to each geothermal resource information,
The geothermal resource information management unit,
And a geothermal resource information providing service that is executed by the control unit and reads geothermal resource information corresponding to a search condition input by a user from the geothermal resource information database and outputs the geothermal resource information.
The geothermal resource information management system according to claim 1,
A geothermal resource distribution diagram search service, a geothermal resource measurement data search service, or a geothermal resource statistics service, which is output to the display unit after being executed by the control unit for managing and searching geothermal resource information, And a resource information management interface unit for managing the geothermal resource information.
The geothermal resource distribution diagram retrieval service according to claim 2,
For geothermal resources to be searched, including at least one of rock thermal properties, geothermal slope, geothermal heat, depth of geothermal heat, heat production rate, heat capacity per depth, heat pump, underground thermal conductivity,
Geothermal resource analysis information of at least one of thermal conductivity distribution map, geothermal gradient distribution map, geothermal heat distribution map, heat generation rate distribution map, depth map specific temperature distribution map, or depth map specific heat distribution map for at least one of the administrative districts, The geothermal resource information management apparatus comprising:
The geothermal resource measurement data search service according to claim 2,
Geothermal resource measurement data to be searched include at least one of rock thermophysical property for carcinoma, geothermal slope, geothermal heat, depth temperature, heat production rate, heat capacity per depth, heat pump, underground thermal conductivity, average surface temperature ,
Search for administrative data by administrative area by inputting administrative information;
Geological and geological time-domain retrieval by geological and geological time-domain information;
A designated area search for selecting and searching an area on the displayed GIS map; or
A coordinate area search for inputting coordinate values and searching; The geothermal resource information management apparatus comprising:
The method of claim 1, wherein the geothermal resource basic information
Managing history information corresponding to at least one of data included in the rock thermal property information table, data included in the geothermal gradient information table, data included in the heat production rate information table, or data included in the geothermal heat flow rate information table A meta information table in which the meta information is stored;
One or more wet data sets, one or more wet data sets, one or more sample data, one or more sample number data for rock thermophysical properties, one or more coordinate information data, one or more rock name data, one or more dry density data, A rock thermophysical property information table in which one or more of at least one thermal conductivity data is stored corresponding to each other;
One or more data of at least one coordinate information data, at least one borehole number data, at least one initial temperature data, at least one borehole depth data, at least one cooperative temperature data, at least one temperature gradient data, A geothermal gradient information table stored corresponding to each other;
At least one of at least one identification number data, at least one coordinate information data, at least one temperature gradient data, at least one thermal conductivity data, at least one geothermal fluid data, at least one geological data, or at least one measurement location data, A geothermal heat quantity information table; or
One or more pieces of sample number data, one or more pieces of coordinate information data, or one or more pieces of heat production rate data with respect to a heat production rate are stored corresponding to each other; The geothermal resource information management apparatus comprising:
The method according to claim 1, wherein the geothermal resource reference information comprises:
Geological structure information of geothermal resource survey area, geological map, fault diagram, line structure diagram, municipal structure diagram, mosaic map, surface temperature distribution chart, aeronautical magnetic exploration chart, aeronautical gravity chart, Wherein the geothermal resource information management information includes one or more information.
The geothermal resource analysis method according to claim 1,
A geothermal gradient distribution chart, a geothermal gradient distribution chart, a heat production rate distribution chart, a depth-dependent geothermal distribution chart or a depth-specific heat availability distribution chart as the geothermal resource analysis information performed using the geothermal resource reference information Geothermal resource information management device.
The geothermal system according to claim 1,
A geographical information surveying area, geomorphological information surveying area, and a geothermal resource surveying area, wherein the information includes at least one of a road network, a railway network, a river network, a digital elevation model (DEM), a terrain gradient, Geothermal resource information management device.
A control unit for reading and executing a program code describing a series of processes; An input unit for inputting data or a drive command; A display unit for displaying an execution result and a driving state; And a storage unit for storing a geothermal resource information management unit and a geothermal resource information database as coded data including a code indicating an operation processing sequence by the control unit and data to be applied to operation processing, In an information management method,
And geothermal resource information including one or more geothermal resource basic information, one or more geothermal resource reference information, one or more geothermal resource analysis information, and one or more geothermal resource additional information, and the geothermal resource information is structured data A geothermal resource information database building process for storing the geothermal resource information database; And
A geothermal resource distribution search service or a geothermal resource measurement data search service that reads geothermal resource information corresponding to a search condition input by a user or analysis information on geothermal resource information from the geothermal resource information database and outputs the geothermal resource information, A geothermal resource information providing step of providing a geothermal resource information providing service;
The geothermal resource distribution diagram retrieval service according to claim 9,
For geothermal resources to be searched, including at least one of rock thermal properties, geothermal slope, geothermal heat, depth of geothermal heat, heat production rate, heat capacity per depth, heat pump, underground thermal conductivity,
Geothermal resource analysis information of at least one of thermal conductivity distribution map, geothermal gradient distribution map, geothermal heat distribution map, heat generation rate distribution map, depth map specific temperature distribution map, or depth map specific heat distribution map for at least one of the administrative districts, The geothermal resource information management method comprising the steps of:
The geothermal resource measurement data search service according to claim 9,
Geothermal resource data to be searched include at least one of rock thermal properties for rocks, geothermal slope, geothermal heat, depth of geothermal heat, heat production rate, heat capacity per depth, heat pump, underground thermal conductivity, average surface temperature ,
Search for administrative data by administrative area by inputting administrative information;
Geological and geological time-domain retrieval by geological and geological time-domain information;
A designated area search for selecting and searching an area on the displayed GIS map; or
A coordinate area search for inputting coordinate values and searching;
The geothermal resource information management method comprising the steps of:
The method of claim 9, wherein the geothermal resource reference information comprises:
Geological structure information of geothermal resource survey area, geological map, fault diagram, line structure diagram, municipal structure diagram, mosaic map, surface temperature distribution chart, aeronautical magnetic exploration chart, aeronautical gravity chart, Wherein the geothermal resource information includes one or more information.
The geothermal resource analysis method according to claim 9,
A geothermal gradient distribution chart, a geothermal gradient distribution chart, a heat production rate distribution chart, a depth-dependent geothermal distribution chart or a depth-specific heat availability distribution chart as the geothermal resource analysis information performed using the geothermal resource reference information Geothermal resource information management method.
[12] The method of claim 9,
A geographical information surveying area, geomorphological information surveying area, and a geothermal resource surveying area, wherein the information includes at least one of a road network, a railway network, a river network, a digital elevation model (DEM), a terrain gradient, Geothermal resource information management method.

Images