Difference between revisions of "How to design a new circuit"
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# [[Entering test results|Load the project's testwork]] into the database. |
# [[Entering test results|Load the project's testwork]] into the database. |
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# [[Creating a circuit model|Create a new circuit model]] and select an appropriate [[Specific energy consumption models|Specific Energy model]] for the testing that has been done on this project. |
# [[Creating a circuit model|Create a new circuit model]] and select an appropriate [[Specific energy consumption models|Specific Energy model]] for the testing that has been done on this project. |
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| − | ## If the program has the three work index |
+ | ## If the program has the three work index values, choose a [[:Category:Bond/Barratt_Model|Bond/Barratt SAB or SABC model]] |
| + | ## If the program has results of an SMC™ test and the full details of a Ball mill work index test, choose a [[Model:Morrell_SMC_SAG|SMC model]] |
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| + | ## If the program has results of an SGI or SPI™ test and a Ball mill work index test, choose a [[Model:Amelunxen SGI|SGI model]] |
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| + | # Enter the default circuit configuration: the flowsheet type, feed size, product size, etc. |
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| + | # When presented with the ''flowsheet'' page, the circuit will display an error because no mills are assigned to the circuit yet. |
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| + | ## Click the green '''+ Primary Mills(s)''' button and [[Creating/modifying_a_mill|add a SAG or AG mill]] to the circuit |
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| + | ## Click the green '''+ Secondary Mills(s)''' button and [[Creating/modifying_a_mill|add a ball mill]] to the circuit |
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| + | ## (optional) Click the green '''+ Crushers(s)''' button and [[Creating/modifying_a_mill|add a pebble crusher]] to the circuit |
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| + | That's it. The circuit simulation should now show a simulation result for the first sample (that satisfies the circuit model testwork requirements). Click the '''View result of this circuit for all samples''' to run a batch simulation of this circuit for all the available samples. |
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Latest revision as of 20:36, 8 June 2015
How to design a new circuit
This How-To explains how to design a brand new circuit for a new mining project where grindability testing exists, but there is presently no existing grinding circuit. This is commonly described as a "greenfield design".
A SAG-mill and ball mill circuit is assumed for the purpose of this description. Other types of circuits follow the same overall work flow.
Summary
- Create a new project in your work area (your Administrator must do this).
- Make sure that the appropriate users have been given access to the project
- Load the project's testwork into the database.
- Create a new circuit model and select an appropriate Specific Energy model for the testing that has been done on this project.
- If the program has the three work index values, choose a Bond/Barratt SAB or SABC model
- If the program has results of an SMC™ test and the full details of a Ball mill work index test, choose a SMC model
- If the program has results of an SGI or SPI™ test and a Ball mill work index test, choose a SGI model
- Enter the default circuit configuration: the flowsheet type, feed size, product size, etc.
- When presented with the flowsheet page, the circuit will display an error because no mills are assigned to the circuit yet.
- Click the green + Primary Mills(s) button and add a SAG or AG mill to the circuit
- Click the green + Secondary Mills(s) button and add a ball mill to the circuit
- (optional) Click the green + Crushers(s) button and add a pebble crusher to the circuit
That's it. The circuit simulation should now show a simulation result for the first sample (that satisfies the circuit model testwork requirements). Click the View result of this circuit for all samples to run a batch simulation of this circuit for all the available samples.
