NACE International Training Online Training Cathodic Protection Virtual Training Simulator

Description
The Virtual Training Simulator is an interactive way for you to practice your cathodic protection (CP) skills virtually! This 12 station virtual training program allows you to refresh your CP skills, keep up with current practical techniques and prepare for your CP classes and exams by working through step-by-step testing scenarios that you could encounter in a live CP environment. Course Description: Station 1: Measuring Structure-to-Electro lyte Potential Identify each of the test wires (structures) by obtaining structure-to-electro lyte potential measurements using a multi-meter and reference electrode. Station 2: Casing and Carrier Pipe-to-Electrolyte Potential Identify each of the test wires (structures) by obtaining structure-to-electro lyte potential measurements using a multi-meter and reference electrode. Station 3: Soil Resistivity Measurements Using the equipment provided, obtain soil resistivity measurements using the Wenner 4-pin method, the Soil Box method, and the Collins Rod. Station 4: Metallic Submersion Board Using metals identified as the reference, measure and record the structure-to-referen ce potential and build a practical galvanic series. Station 5: Electrical Isolation Testing Determine the location of the isolating flange short(s) and determine the effectiveness of underground isolating unions. Station 6: Current Shunt Measurements Use shunts to measure a millivolt (mV) drop across the shunt pins and calculate the current by utilizing ratio, Ohm’s Law or shunt factor. Station 7: Electrical Circuits Measure the resistance of resistors, connect resistors in parallel with the voltage source, and measure the course voltage. Station 8: Current Interrupter Determine if your structure is adequately cathodically protected by using a current interrupter to obtain “on” and “interrupted” structure to soil potential measurements. Station 9: Rectifier Measurements Record information from the rectifier data provided and perform a diode check. Station 10: Polarity Board Measure and record the potential differences between each pair of banana jacks and use the data gathered to order the banana jacks from the most negative to the least negative polarity. Station 11: UST Test Station Estimate which of the structures provided may be electrically continuous or shorted, by taking potentials to a single cell position (fixed cell) and measure the structure-to-electro lyte potential of each structure provided. Station 12: Calculation Station Convert potential measurements and apply electrical theory.
Description
The Virtual Training Simulator is an interactive way for you to practice your cathodic protection (CP) skills virtually! This 12 station virtual training program allows you to refresh your CP skills, keep up with current practical techniques and prepare for your CP classes and exams by working through step-by-step testing scenarios that you could encounter in a live CP environment. Course Description: Station 1: Measuring Structure-to-Electro lyte Potential Identify each of the test wires (structures) by obtaining structure-to-electro lyte potential measurements using a multi-meter and reference electrode. Station 2: Casing and Carrier Pipe-to-Electrolyte Potential Identify each of the test wires (structures) by obtaining structure-to-electro lyte potential measurements using a multi-meter and reference electrode. Station 3: Soil Resistivity Measurements Using the equipment provided, obtain soil resistivity measurements using the Wenner 4-pin method, the Soil Box method, and the Collins Rod. Station 4: Metallic Submersion Board Using metals identified as the reference, measure and record the structure-to-referen ce potential and build a practical galvanic series. Station 5: Electrical Isolation Testing Determine the location of the isolating flange short(s) and determine the effectiveness of underground isolating unions. Station 6: Current Shunt Measurements Use shunts to measure a millivolt (mV) drop across the shunt pins and calculate the current by utilizing ratio, Ohm’s Law or shunt factor. Station 7: Electrical Circuits Measure the resistance of resistors, connect resistors in parallel with the voltage source, and measure the course voltage. Station 8: Current Interrupter Determine if your structure is adequately cathodically protected by using a current interrupter to obtain “on” and “interrupted” structure to soil potential measurements. Station 9: Rectifier Measurements Record information from the rectifier data provided and perform a diode check. Station 10: Polarity Board Measure and record the potential differences between each pair of banana jacks and use the data gathered to order the banana jacks from the most negative to the least negative polarity. Station 11: UST Test Station Estimate which of the structures provided may be electrically continuous or shorted, by taking potentials to a single cell position (fixed cell) and measure the structure-to-electro lyte potential of each structure provided. Station 12: Calculation Station Convert potential measurements and apply electrical theory.

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The Virtual Training Simulator is an interactive way for you to practice your cathodic protection (CP) skills virtually! This 12 station virtual training program allows you to refresh your CP skills, keep up with current practical techniques and prepare for your CP classes and exams by working through step-by-step testing scenarios that you could encounter in a live CP environment. Course Description: Station 1: Measuring Structure-to-Electro lyte Potential Identify each of the test wires (structures) by obtaining structure-to-electro lyte potential measurements using a multi-meter and reference electrode. Station 2: Casing and Carrier Pipe-to-Electrolyte Potential Identify each of the test wires (structures) by obtaining structure-to-electro lyte potential measurements using a multi-meter and reference electrode. Station 3: Soil Resistivity Measurements Using the equipment provided, obtain soil resistivity measurements using the Wenner 4-pin method, the Soil Box method, and the Collins Rod. Station 4: Metallic Submersion Board Using metals identified as the reference, measure and record the structure-to-referen ce potential and build a practical galvanic series. Station 5: Electrical Isolation Testing Determine the location of the isolating flange short(s) and determine the effectiveness of underground isolating unions. Station 6: Current Shunt Measurements Use shunts to measure a millivolt (mV) drop across the shunt pins and calculate the current by utilizing ratio, Ohm’s Law or shunt factor. Station 7: Electrical Circuits Measure the resistance of resistors, connect resistors in parallel with the voltage source, and measure the course voltage. Station 8: Current Interrupter Determine if your structure is adequately cathodically protected by using a current interrupter to obtain “on” and “interrupted” structure to soil potential measurements. Station 9: Rectifier Measurements Record information from the rectifier data provided and perform a diode check. Station 10: Polarity Board Measure and record the potential differences between each pair of banana jacks and use the data gathered to order the banana jacks from the most negative to the least negative polarity. Station 11: UST Test Station Estimate which of the structures provided may be electrically continuous or shorted, by taking potentials to a single cell position (fixed cell) and measure the structure-to-electro lyte potential of each structure provided. Station 12: Calculation Station Convert potential measurements and apply electrical theory.

The Virtual Training Simulator is an interactive way for you to practice your cathodic protection (CP) skills virtually!

This 12 station virtual training program allows you to refresh your CP skills, keep up with current practical techniques and prepare for your CP classes and exams by working through step-by-step testing scenarios that you could encounter in a live CP environment.

Course Description:

Station 1: Measuring Structure-to-Electrolyte Potential

Identify each of the test wires (structures) by obtaining structure-to-electrolyte potential measurements using a multi-meter and reference electrode.


Station 2: Casing and Carrier Pipe-to-Electrolyte Potential

Identify each of the test wires (structures) by obtaining structure-to-electrolyte potential measurements using a multi-meter and reference electrode.


Station 3: Soil Resistivity Measurements

Using the equipment provided, obtain soil resistivity measurements using the Wenner 4-pin method, the Soil Box method, and the Collins Rod.


Station 4: Metallic Submersion Board

Using metals identified as the reference, measure and record the structure-to-reference potential and build a practical galvanic series.


Station 5: Electrical Isolation Testing

Determine the location of the isolating flange short(s) and determine the effectiveness of underground isolating unions.


Station 6: Current Shunt Measurements

Use shunts to measure a millivolt (mV) drop across the shunt pins and calculate the current by utilizing ratio, Ohm’s Law or shunt factor.


Station 7: Electrical Circuits

Measure the resistance of resistors, connect resistors in parallel with the voltage source, and measure the course voltage.


Station 8: Current Interrupter

Determine if your structure is adequately cathodically protected by using a current interrupter to obtain “on” and “interrupted” structure to soil potential measurements.


Station 9: Rectifier Measurements

Record information from the rectifier data provided and perform a diode check.


Station 10: Polarity Board

Measure and record the potential differences between each pair of banana jacks and use the data gathered to order the banana jacks from the most negative to the least negative polarity.


Station 11: UST Test Station

Estimate which of the structures provided may be electrically continuous or shorted, by taking potentials to a single cell position (fixed cell) and measure the structure-to-electrolyte potential of each structure provided.


Station 12: Calculation Station

Convert potential measurements and apply electrical theory.


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Technical Specifications

  NACE International Training
Product Category Technical Courses and Programs
Product Number Cathodic Protection Virtual Training Simulator
Product Name Online Training
Type Course
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