Memasukkan Databor kedalam
Database Borehole Minex
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Product
Gemcom Minex ™ 6.1.2
Mengenai Tutorial ini
Daftar Isi
Mengenai tutorial ini...4
Ringkasan... 4
Persyaratan... 4
Tujuan... 5
Ketentuan tutorial...6
Susunan untuk tutorial ini...9
Data tutorial... 9
Data set location... 9
Create a Minex project... 10
Set the local origin... 11
Data Type and Variable Set Up...13
Loading Lithological Data...19
Loading Coal Quality Data...24
Validating Coal Quality Data...29
Loading LAS File – Downhole Geophysics Sample Data...33
Creating a Single Hole Profile...40
Halaman 4 of 55 MemasukkanDatabor kedalamDatabase Borehole Minex Gemcom Minex 6.1
Mengenai tutorial ini
Dalam tutorial ini akan dibahas cara memasukkan data sampel ke dalam database lubang bor Minex. Database lubang bor Minex adalah database dengan sistem biner yang menyediakan penyimpanan, analisis, interpretasi geologi dan manipulasi sampel data lubang bor dari kegiatan eksplorasi dan pertambangan.
Tutorial ini akan secara otomatis terduplikat dalam komputer anda ketika Minex terinstal.
Ketika program berhasil terinstal, keterangan lengkap mengenai Minex dapat diketahui dengan bantuan help, yang dapat langsung dibuka pada menu Help di Minex. Atau dapat juga menghubungi langsung kantor penyedia Gemcom lokal untuk memperoleh pelatihan.
Ringkasan
Database borehole terdiri atas 5 data pendukung:
data collar
data seam
data sampel kualitas
data header
Urutan litologi /seam sequence
Data tersebut dimasukkan kedalam Minex melaui format:
ASCII files
AcQuire
ODBC
Proses input data tersebut diperlukan keseuaian antara jumlah kolom informasi sesuai dengan data variabel yang relevan dengan BoreholeDB dan akan menghasilkan format file ( .sff ) yang digunakan dalam proses beban berikutnya.
Persyaratan
Sebelum memulai tutorial ini, diperlukan:
Pemahaman yang baik mengenai dasar-dasar Minex
Menginstal Minex 6.1.2 atau yang lebih rendah
Serangkaian data Ashes
Loading Sample Data into the Borehole Database Gemcom Minex 6.1.2 Page 5 of 55
Tujuan
Setelah melakukan pembelajaran tutorial ini anda akan mampu:
Membuat tipe-tipe data dan variabel untuk tiap sampel data
Menginput dan memvalidasi:
Sampel data litologi
Sampel data kulaitas
Data geophysical log (.las)
Document conventions
Ketentuan tutorial
Tatacara Pengetikan
Beberapa kata dalam tutorial ini memiliki format khusus untuk membantu Anda dalm mengidentifikasi kata sebagai bagian dari data informasi tertentu. Tabel berikut menjelaskan perbedaan format teks dan maknanya.
Text Meaning
<Bold Italic> Text or data that varies with each input is shown in bold italic font and enclosed in angle brackets. Some examples are installation directories, dates, names, and passwords. When you substitute the text for the variable, do not include the brackets. For example: <password> requires you to substitute a password in place of ‘<password>’.
Italics A word or phrase to which the author wants to give emphasis. For example: you must select an item from the list to continue.
Bold This typeface indicates one of the following: A file name, path, or URL.
Strongly emphasized text. For example, “It is very important to save the data […]”. Text that a procedure has instructed you to type.
A menu option, tab, button, check box, list, option button, text box, or icon. For example: Save the file as pit1.str.
Aturan Penggunaan Keyboard
Key Meaning
<key>+<key> Press and hold the first key, then press the second key. For example: CTRL+Z means press and hold the CTRL key, then press Z.
Susunan Menu
Ketika Anda mengklik , atau menggerakkan pointer pada beberapa menu utama, sub-menu akan muncul secara otomatis. Untuk menunjukkan dan memudahkan anda harus memilih perintah sub-menu yang akan dipilih, pada tutorial ini perintah tersebut ditandai dengan tanda ( > ) untuk memisahkan perintah menu utama dari perintah sub-menu. Misalnya , File> Project > Project Manager yang berarti memilih menu File, lalu memindahkan pointer mouse pada sub-menu Project , kemudian memilih sub-menu Project Manager.
Document conventions
Aturan Penggunaan Mouse
Action Description
Click Press and release the left mouse button without moving the mouse. Right-click Press and release the right mouse button without moving the mouse. Double-click Rapidly click the left mouse button twice without moving the mouse.
Drag <an object> With the mouse pointer over the object, press and hold the left mouse button to select the object. Move the pointer until the object is in the position you want, and then release the mouse button.
Rotate Use your finger to make the wheel button roll. Move it forward, that is in a clockwise direction, or backward, that is in an anticlockwise direction.
Form elements
Form dapat berisi berbagai elemen yang memungkinkan pengguna untuk melakukan pekerjaan. Berikut adalah bentuk contoh .
Formnya dapat terdiri atas elemen-elemen berikut
Element Description Example
Title Title of the form.
Tab Labelled group of options used for many similar kinds of settings. Text box or
field Rectangular box in which you can type text. If the box already contains text, you can select that text and edit it. Drop- down
combo box
Closed version of a list box with an arrow next to it. Clicking the arrow opens the list.
Option button
Round button you can use to select one of a group of mutually exclusive options.
Label Text attached to any option, box, button, or to any other element of a window or dialog box.
Help
Document conventions
Check box
Square box that you select or clear to turn an option on or off.
Elemen
t Description Example
Button Rectangular or square button that runs a command. Buttons have text labels to indicate their purpose. Icon A graphical button that you can click
to run a command.
List box Any type of box containing a list of items, in table format, that you can select.
Menu A set of options or commands that you can run.
Spin box A text box with up and down arrows that you can click to move through a set of fixed values. You can also type a valid value in the box.
Tree A graphical representation of a hierarchical structure. A plus sign next to an item on the tree indicates that you expand the item to show subordinate items; a minus sign indicates that you can collapse the item.
Setup for this tutorial
Susunan untuk tutorial ini
Data tutorial
Ketika anda menginstall Minex dan memilih pilihan dasar/ default, data tutorial akan tersimpan dalam komputer anda.Namun jika anda tidak memilih untuk menyimpan data tutorial ketika menginstal Minex, maka anda dapat menginstalnya lagi secara terpisah.
Petunjuk: Menginstal rangkaian data tutorial
1. Klik 2 kali file MinexInstallation.msi yang ada pada CD instalasi. 2. Pada pesan Welcome, klik Next.
3. Pilih Modify, dan klik Next.
Pada tampilan instalasi Minex muncul pilihan Custom Setup.
4. Klik ikon selanjutnya Tutorial Data Sets dan pilih This feature will be installed on local
hard drive.
5. Klik Next, dan ikuti pesan-pesan yang tersisa.
Lokasi penyimpanan data
Data yang terinstal akan secara otomatis tersimpan dalam lokasi yang ditentukan:
Operating Location
Windows 7 C:\Users\Public\Gemcom\Minex\6.x\shared\tutorialData\Datasets\Ashes\
Windows XP C:\Documents and Settings\All
Users\Gemcom\Minex\6.x\shared\tutorialData\Datasets\Ashes\
Petunjuk: Back up data
Akan baik apabila menyalin data utama, untuk mencegah kejadian program yang ingin anda restart dan menyebabkan pekerjaan anda hilang dan kembali ke data awal.
1. Buka Windows Explorer. 2. Telusuri data yang akan dipilih.
3. Klik kanan folder Ashes, dan pilih Send To > Compressed (zipped) folder.
Setup for this tutorial
Membuat project Minex
Untuk mempermudah dalam penyimpanan data anda, buatlah project Minex dan simpan pekerjaan anda dalam lokasi yang sama seperti data tutorial anda (Ashes).
Petunjuk: Membuat project Minex
1. Buka program Minex.
2. Pilih File > Project > Project Manager.
3. Klik New.
4. Pada kolom Project Name, ketik SampleBHDBTutorial. 5. Telusuri folder Ashes.
Cat: Ketika anda browsing kedalam folder ini, anda dapat meng-klik ikon Jump to My Documents untuk memilih folder yang terdekat dengan folder datanya.
6. Klik Finish.
7. Project telah terbentuk dan Minex Explorer akan menampilkan folder Ashes dan subfoldernya.
Cat: Di dalam Minex Explorer pilihlah folder teratas, yaitu folder Ashes yang menjadi prject pekerjaan ini, perhatikan panel Properties, dan lihat keterangan detail dari project yang telah dibuat. Hal ini akan memudahkan untuk diingat, atau ingin emverifikasi keberadaan data yang telah dibuat.
Menentukan tampilan sumbu lokasi
Dengan menentukan tampilan sumbu lokasi akan meningkatkan ketepatan tampilan ketika anda memulai melakukan pekerjaan digitasi terhadap data strings dan data-data lainnya.
Data yang digunakan dalam tutorial ini terletak pada koordinat berikut:
X: 257, 000
Y: 6,170,000
Langkah: Menentukan sumbu tampilan
1. Pilih Tools > Options.
2. Pada windows Options, jabarkan sampai muncul menu Local Origin.
3. Pilih Local Origin, dan pada tab Properties, ketik 257,000 untuk sumbu-X, dan 6, 170,000 untuk sumbu-Y.
4. Pada kolom Local Origin, pilih True. 5. Klik Close.
Jika Grafik terbuka, untuk merubahnya anda akan diingatkan untuk restart Minex jika melakukan setting baru.
6. Jika Graphics terbuka, tutup dan restart Minex.
Jika Graphics tidak terbuka, Minex akan menggunakan local origin sebagai sumbu pusat tampilannya, dan anda tidak diperlukan melakukan restar terhadap Minex.
Data Type and Variable Set Up
Tipe Data dan Mengatur Variabel
Sebelum anda memasukkan datanya kedalam borehole databaseBefore you can load data into the borehole database you need to define what Data Types and Variables you will be loading.
There are five hardwired Data Types automatically generated when you create a new BoreholeDB (see table below).
DESCRIP Borehole header data.
SURVEY Borehole downhole survey data (detailed azimuth and dip of each borehole).
DOMAIN Borehole interval numeric identifier.
LITHO Geological logging data (Lithology).
QUAL Quality - sampling data such as ASH and MOISTURE.
You can add new Data Types (and Variables) to this selection to customise the database for your dataset:
The maximum number of data types you can have in a borehole database is 16.
The maximum number of variables you can have in a borehole data base is 128. Eight of these variables are hardwired and defined by the software.
The eight hardwired variables are:
TOSURVEY Depth downhole to which survey data extends.
AZIMUTH Survey point borehole direction.
DIP Survey point borehole dip angle.
X X coordinate, normally Easting; offset distance from collar in the case of non-vertical holes.
Y Y coordinate, normally Northing; offset distance from collar in the case of
non-vertical holes.
Z Z coordinate; offset distance from collar.
TOMDOMAIN Depth downhole to which DOMAIN value extends.
DOMAIN DOMAIN value or number of interval.
As LITHO is a predefined Data Type that is built in already to the database, you will not have to create a new one. You will have to set up a new variable however called ROCKTYPE. This is because ROCKTYPE is not one of the built-in variables defined above.
The first (1st) variable in the LITHO data type should be the variable describing the primary rocktype and must refer to dictionary index number 1.
The second (2nd) variable in the data type should be the variable INTERREL describing interbedding and must refer to dictionary index number 2.
Activity: Create a variable
To set up the Minex variable ROCKTYPE ready for loading lithological data: 1. In the Minex Explorer, right-click Sample.B31, and select Open. 2. In the Minex Explorer, select Sample.B31.
3. In the Properties pane, set Read Only to False.
The database is now editable. You can now create the variables ready to load lithology data. 4. Select BoreholeDB > Edit > New Borehole Variable.
The Create Borehole Variable form opens. 5. Fill in the form as shown and click Ok.
Notes:
When creating variables you will need to define if the data is numerical or alphabetical. Lithology data is Alpha type data, as you will be able to tell by referring to the ROCKTYPE column in your LITHO.DAT file. The LITHOLOG.DIC file is an index or dictionary file which Minex will look up to find definitions for the codes
defined in your ASHES_LITH.csv file. You can open the dictionary file with your text editor. For this tutorial, in the LITHOLOG.DIC file, ROCKTYPE has an index of 1. This is the value used in the Dictionary Index field. Now, when you try to report or display data for this variable the software will refer to the dictionary file and use the ‘translations’ held in index 1.
Activity: Report the list of Variables now held in the BoreholeDB
1. Pilih BoreholeDB > Reporting > Report Variables. Form Sort Report By… akan terbuka.
2. Pilih Number.
3. Klik Ok.
The Borehole Variable report is generated in the Output Window. ROCKTYPE has been appended to the list of built-in Minex Data Types.
Tip: To view the new variable, in the Minex Explorer Project Tab, expand the borehole database until you can view the LITHO data type and its variables.
You have now created a new borehole variable called ROCKTYPE of the LITHO Data Type.
Activity: Add additional variables
You can now add the INTERBED and INTERPER variables to the LITHO data type. Use the same process you used to create the ROCKTYPE variable to add these new variables, the details for each are shown in the image below.
1. Select BoreholeDB > Edit > New Borehole Variable. The Create Borehole Variable form opens.
Activity: Save your borehole database
You can save the borehole database in two ways:
Right-click on the name of the database in the Minex Explorer, and select Save. Choose File > Save > Borehole Database.
Loading Lithological Data
Loading Lithological Data
Now that the lithology data type and variable framework has been customised, lithological data can be loaded into the Database.
Activity: Load Lithology data and create a report
To load lithology data into the borehole database and report it: 1. Choose BoreholeDB > Load > Load Sample Data,
Tip: Alternately you can Right-click on the input filename Load > Load Sample Data.
The Load Sample Data form opens.
2. In the File field navigate to the LITHOLOGY.csv file.
3. Click Create/Edit.
The Create/Edit format File form opens. 4. From the Data Type list, select LITHO. 5. If prompted, click Yes to change data types.
6. Click the Variable Setup tab, and check the mapping of input file variables to Minex variables, as shown below.
For more information on mapping input variables, refer to the Creating a New Borehole
Database tutorial.
Note that the Include check box is cleared for those variables that aren’t needed.
7. Click Ok.
Minex prompts you to save the format file under the default name LITHOLOGY.sff.
By default Minex uses the file prefix of the input data file and the suffix .sff. For subsequent loads of this input file, Minex checks for an .sff with a matching name as prompt you to use the
8. Click Save.
Minex returns to the Load Sample Data form.
Typically, you would validate data by selecting Validate on the Load Sample Data form, and then attempt to fix any errors before loading the file. For this tutorial, you will load the data without making any corrections.
A Sample Load Report is generated in the Output Window, listing the boreholes that have been updated and any errors that have occurred.
When errors occur, such as in this case, you would generally:
Load collar data for Boreholes listed as No collar data found: it is possible that the collar or the lithology file spelled the names of the Boreholes differently, or that the boreholes were not part of the Collar Input file.
Note: Where no collar data is found for a borehole, the sample data cannot be loaded and is rejected during the load process.
Check the final depth information in the collar file and the lithology file to determine which was correct.
Note: Where the final depth of the sample data is deeper than the final depth of the Borehole as defined in the collar data, the sample data is loaded rather than rejected.
You have now loaded the rock type information for the boreholes into the ROCKTYPE variable. 10. Save the changes to the borehole database.
Any other sample data held in ASCII, AcQuire, or ODBC can be loaded using the process above.
Loading Coal Quality Data
Loading Coal Quality Data
The coal quality sampling data file ASHES_QUAL.csv has already been formatted so that it will load into the borehole database. Before you can load this file you need to define the variables that it contains.
Activity: Determine the required variables
To determine the variables you need to define:
1. Open ASHES_QUAL.csv in your default csv program, for example, MS Excel. 2. Determine the variable names, data ranges, and number of decimals places for each.
There are four variables you need to add.
Activity: Add new borehole quality variables
1. Choose BoreholeDB > Edit > New Borehole Variable. The Create Borehole Variable form opens.
2. Fill in the form as shown and click Ok.
Note: You can define the Grid Suffix to use when gridding.
4. Save the borehole database.
5. Select BoreholeDB > Load > Load Sample Data. The Load Sample Data form opens.
6. In the File field, navigate to ASHES_QUAL.csv. 7. Click Create/Edit.
The Create/Edit Format File form opens. 8. From Data Type list, select QUAL.
9. If prompted, click Yes to change data types.
10. Click the Variable setup tab, and check that the Input variables are mapped to the Minex variables.
11. Click Ok.
Minex will prompt you to save the format file under the default name ASHES_QUAL.sff. 12. Click Save.
Minex returns to the Load Sample Data form.
The Sample Load Report is generated in the Output Window.
14. Check the Sample Load Report, and compare the data there with the data in the input file to ensure that the data has been loaded correctly.
You can see that there is an error for borehole BNBM10, typically you would check your data and correct this error. For this tutorial, you will leave the data as-is.
Validating Coal Quality Data
Validating Coal Quality Data
Activity: Create a summary Borehole Sample Data Report
To view which Boreholes now hold Quality Data and summarise how many samples have been loaded:
1. Choose BoreholeDB > Reporting > Report Sample Data. The Report Sample Data form opens.
2. Fill in the form as shown and click Ok.
Activity: Create a detailed Borehole Sample Data Report
To view a detailed report including the data:
1. Select the Detailed Report option on the Report Sample Data form.
2. Click Ok.
Loading LAS File – Downhole Geophysics Sample Data
Loading LAS File – Downhole Geophysics
Sample Data
This process loads LAS Downhole Geophysics or Borehole Verticality Data into the Borehole Database from a .las formatted file.
As you learned in loading coal quality and geological logging sample data, you first need to define the Datatype and Numeric borehole database variables for a data type. The geophysical logging variables will need to be defined for a new data type called for example GEOPHY. The variables to be loaded from the BNBY83DEN.LAS file are shown in the header of the file:
Activity: Create Data Type
1. In the Minex Explorer, expand Sample.B31 to view the Data Types. 2. Right-click Data Types, and select Add Data Type.
The Enter Data Type Name form opens.
3. In the Data Type field, type GEOPHY, and click OK.
Activity: Create new borehole quality variables
1. Select BoreholeDB > Edit > New Borehole Variable.
2. To add the GAMMA variable, fill in the form as shown, and click Ok.
4. To add the DENLS variable, fill in the form as shown, and click Ok.
6. To add the DENCDL variable, fill in the form as shown, and click Ok.
7. To add the RES variable, fill in the form as shown, and click Ok.
Activity: Load LAS data
1. Choose BoreholeDB > Load > Load LAS.
2. In the LAS Filename Selections section, use the ellipsis button to locate the LAS file
BNBY83_DEN.LAS.
3. Under Scan Options, from the Data Type list, select GEOPHY.
Notes: You select GEOPHY because you are loading downhole geophysics data. You would select SURVEY when you want to load verticality data from a LAS file to modify the basic AZIMUTH and DIP data loaded as part of the Collar data.
4. Click Scan LAS File Header.
Minex scans the selected LAS file and populates the LAS Borehole and LAS Variables with data from the LAS file. If the BoreholeDB contains variables in the nominated Data Type those names are populated in the corresponding fields in the table.
5. In the Import Options section, if the To Borehole field is blank, select BNBY83.
Notes: If a matching Borehole does not exist, you would need to define the name of the Borehole you want to load the data for - or load Collar data for the Borehole, rescan the input LAS file, and select the Borehole name if necessary.
6. Select the Do not load any data above the Borehole collar and Do not load any data below
final depth of Borehole check boxes.
7. In the Borehole Definition section, select the BHDB Variables that match the LAS Variables, and select the Import Variable checkbox for each variable.
8. Click Ok.
9. Click Yes to load the LAS data.
Creating a Single Hole Profile
Creating a Single Hole Profile
The next step in this tutorial is to create a Profile Plot of the ROCKTYPE data and geophysical data. Profile plots do not require section mounts to be created. The only requirement is a sheet size, scale, and which holes you want to plot. The Boreholes are plotted on the sheet next to each other rather than in the ‘real world’ position they’d be plotted to if you were plotting boreholes on a cross section. 1. Choose BoreholeDB > Plot > Single Hole Profile.
The Borehole Plotting [Single Hole Profile] form opens. 2. On the Function tab, click Select.
The Select Boreholes form opens.
3. Select the borehole BNBY83, and click Ok.
Minex returns to the Borehole Plotting [Single Hole Profile] form. 4. In the Seam Lithology Variable field, select ROCKTYPE.
5. Fill in the Trace Tab as shown.
6. Click the Annotation & Lithology tab.
7. Select the Sample Variable Annotation check box.
9. Click the Histogram tab.
You can use the Histogram Tab to setup to plot the trace of a Downhole Geophysics Variable beside those boreholes that have this data loaded.
Tip: To find out which borehole has data loaded, generate a Report Sample Data report, and select the Data Existence option.
10. Fill in the Histogram tab as shown.
Note: The number in the Scale column controls the amplitude of the trace:
If you have defined a data range when you created the Variable in the Database, Minex uses that range to calculate a Scale to plot a Histogram trace that is 1cm wide.
If you have not defined a data range for the Variable, Minex uses Scale = 100 and you may need to increase or decrease the Scale to get the Histogram trace you want.
11. Click the Sheet Params tab. 12. Select a Sheet Size of A2. 13. Set the Orientation to Portrait. 14. Click Calculate Scale.
Minex calculates the scale that best fits the data on the sheet you have defined. If you want to make it a ‘round’ number, type in a number bigger than the one that the software has
15. Click Ok.
The selected borehole is displayed in Graphics with:
Symbols identifying different ROCKTYPES.
Annotation of Quality Sample Data.
Preparing a Borehole Section Plot
To display boreholes with lithology codes and downhole geophysics on a Cross Section Mount, you must first have an existing section mount or create a new section mount. This Tutorial assumes that you have completed the Core Minex Tutorial and already know how to create a new Section Mount.
Activity: Load geophysics data
To load geophysics data for boreholes:
1. Select BoreholeDB > Load > Load Sample Data. The Load Sample Data form opens.
2. In the File field, navigate to GEOPHYSICAL_LOGS.csv. 3. Click Create/Edit.
The Create/Edit Format File form opens. 4. From Data Type list, select GEOPHY. 5. If prompted, click Yes to change data types.
7. Click Ok.
Minex will prompt you to save the format file under the default name
GEOPHYSICAL_LOGS.sff.
8. Click Save.
Minex returns to the Load Sample Data form.
9. Clear the Report missing intervals check box, and click Ok.
The Sample Load Report is generated in the Output Window.
Note: Some records will be rejected.
10. Save the borehole database.
Activity: Create a new section mount
1. Open ASHES.GM3.
2. Choose Mounts > Section > Create. The Section – Create form opens.
4. Click Ok, and save the section as sectn1. 5. Save the geometry file.
Activity: Plot a borehole section
1. On the Runtime tab of the Minex Explorer, expand the Mount Control Panel. 2. Right click sectn1, and select Draft on Mount.
3. Choose Mount > Section > Borehole Section. The Section Plot form opens.
Notes: This form is slightly different to the Borehole Profile Plot form:
On the Function tab, you use the Minimum and Maximum offset fields to define a distance. Boreholes that fall inside that distance on either side of the trace of the section mount will be plotted on the Section mount. A minimum offset distance of 10 means that Boreholes whose collar location is 10m or feet either side of the section mount will be plotted. The maximum value deals with boreholes that have verticality data loaded to the SURVEY datatype. If a maximum of 10m is used, only that part of the borehole that falls within 10m of the trace of the section line will be plotted. If you want to see the entire trace of the borehole, you need to use a higher number.
The Sheet Params tab read-only. Because you are working on a section mount, the sheet size and orientation, and the scale are those of the section mount you have in memory. 4. Fill in the Trace tab as shown to plot lithology fill in the borehole trace.
5. Fill in the Annotation & Lithology tab as shown to annotate rocktype names next to the borehole.
6. Fill in the Histogram tab as shown to plot a histogram trace of Gamma data next to each borehole.
7. Click Ok.
8. Choose Mount > Section > Coordinate Grid.
The Section – Coordinate Grid form opens. You can use this form to plot a grid of eastings, northings, and elevations on the section mount
9. Fill in the form as shown and click Ok.
10. Click Ok.
Summary
Summary
Congratulations on completing this tutorial. You should now understand how to load data into the Minex borehole database. You have learnt a number of concepts and topics including:
how to create data types and variables for each type of sample data
how to load and validate:
lithology sample data
quality sample data
geophysical log (.las) files