Pipeline Current Mapper PCM

Slides:

Advertisements

Similar presentations

Stratagem EH4 Field Evaluation of Data Quality.

Advertisements

Understanding Above Ground Tools ACCA and ACVG

An Electronic System Power Supply Example

DCN286 Introduction to Data Communication Technology Session 5.

Chapter 9 Radio Maintenance MComm – Ch Confidence Testing Preventive Maintenance Corrective Maintenance Summary Overview MComm – Ch9 - 2 >>

CURRENT RAMPING.

Voltage and Its Measurements

Earth Ground Resistance The Basics

Foundations of Physics

Register Digital Multimeter Usage Click Register to begin the course.

Using a Multimeter.

Pipeline Current Mapper PCM+

Direct Current Voltage Gradient

Chapter 2 Fundamentals of Data and Signals

1 Lab Equipment. 2 TopicSlides DC Power Supply3-4 Digital Multimeter5-8 Function Generator9-12 Scope – basic controls13-20 Scope – cursors21-24 Scope.

1 Chapter 2 Fundamentals of Data and Signals Data Communications and Computer Networks: A Business User’s Approach.

1 Live Sound Reinforcement Audio measurements. 2 Live Sound Reinforcement One of the most common terms you will come across when handling any type of.

Foundations of Physics

TESTING MULTIMODE FIBER

Foundations of Physics

Garmin GPS III Plus Data Collection. Objectives Collect: - Waypoints -Average Position Waypoints -Reference Waypoints - Multiple Tracks in One Track Log.

4 Series Circuits Chapter Topics Covered in Chapter 4

Chapter 22 Alternating-Current Circuits and Machines.

4.1.5 Student Book © 2004 Propane Education & Research CouncilPage Determining the Proper Corrosion Protection Systems for Underground ASME Tanks.

1 Complex Gain: Basic amplifier concepts Q: What is a Phasor? A Phasor is an ac voltage or current that maintains the same phase with respect to a standard.

Introduction to Digital Multimeters

Electric Power, AC, and DC Electricity

1 Fly-back Converter fall Basic Topology of a Fly-back Converter.

Lecture 2 Most basic facts from Electricity needed for understanding telecommunications Local transmission lines in the telephone system Decibels Signals.

Data Communications & Computer Networks, Second Edition1 Chapter 2 Fundamentals of Data and Signals.

9/27/2004EE 42 fall 2004 lecture 121 Lecture #12 Circuit models for Diodes, Power supplies Reading: Malvino chapter 3, Next: 4.10, 5.1, 5.8 Then.

Working with GPS Stephen M. Kiama (MSc) [Geo-information Specialist]

ELECTRICITY & MAGNETISM BY: Arana Rampersad Form: 5D Physics.

7.2.3 Student Book © 2005 Propane Education & Research CouncilPage Identifying Procedures for Measuring Resistance Between Two Given Points in.

Training Making accurate Electrical Measurements.

Amplifier models Voltage controlled voltage source (VCVS) A vo is the open circuit voltage gain Current controlled current source (CCCS) A isc is the short.

Corrosion control measurements Incorrect assumptions are making pipeline corrosion control impossible.

© 2007 Ideal Industries 1 of 15 IDEAL Tracer Training Introduction on the IDEAL Industries, Model Series Tracers.

 “A multimeter is an instrument designed to measured electric current, voltage and usually resistance, typically over several ranges of value”.

Velleman Oscilloscope: Windows 7 by Mr. David Fritz.

ELECTRICAL SYSTEMS. Chapter Twenty One: Electrical Systems  21.1 Series Circuits  21.2 Parallel Circuits  21.3 Electrical Power.

1 Electrical Skills Voltage and Its Measurements.

Main contacts closed – RED Colour with ON

BASIC INSTRUMENTS - oscilloscopes

Self Switching Power Supply. Introduction Self Switching Power Supply  Embedded system requires a regulated power supply.

Electricity and Magnetism  16.1 Electrical Potential Energy  16.2 Equipotentials and Electric Fields  Capacitance and dielectrics  17.1 Batteries.

1 DET4TC2 Measurement of Earth electrode resistance and soil resistivity……….

Unit 7, Chapter 20 CPO Science Foundations of Physics.

Full Wave Rectifier Circuit with Working Theory

Chapter 21 Magnetic Induction and Chapter 22.9: Transformers.

The wireless charge will convert the RF signal at 900MHz frequencies into a DC signal,and then store the power into a mobile battery.

Dynatel™ 2273 Advanced Cable and Fault Locator. Press Off Key to check battery status Press Ohms Key to check resistance of hookup, or to select earth.

Full Wave Rectifier NavigationTutorial: 6 of 8 The Full Wave Rectifier In the previous Power Diodes tutorial we discussed ways of reducing the ripple or.

Using a Multimeter.

Half-wave Rectifier.

Digital Multimeter.

Evaluation Techniques

Series and Parallel Circuits

Foundations of Physics

20.1 Series and Parallel Circuits

Current Attenuation and ACVG Surveys Gary Moss

Switch-Mode DC-AC Inverters

Pipeline Current Mapper PCM

Field Testing for Shorted Casings

Appalachian Underground Corrosion Short Course

Rectifiers. Introductions of rectifiers: IN PARTICLE ACCELERATORS, ELECTRONS OR OTHER CHARGED PARTICLES ARE FORCED TO MOVE ALONG ORBITS OR TRAJECTORIES.

Fluid Power System Electrical Control

Presentation transcript:

Pipeline Current Mapper PCM Radiodetection PCM Pipeline Current Mapper PCM Electromagnetic AC attenuation and ACVG

PCM Application PCM will find: Coating defects (holidays) Radiodetection PCM PCM Application PCM will find: Coating defects (holidays) Shorts to other structures

Transmitter High power output (150 Watts) Very low frequency to Radiodetection PCM Transmitter High power output (150 Watts) Very low frequency to increase range reduce coupling to other services reduce field distortion

Transmitter Powered from a transformer/rectifier site. Radiodetection PCM Transmitter Powered from a transformer/rectifier site. From either rectified DC (20 – 50 V) or 110/240 VAC.

PCM Receiver Identifies signal from Transmitter Converts to Current Radiodetection PCM PCM Receiver Identifies signal from Transmitter Converts to Current Log to 400 records and download to PC Connect to GPS

A-frame Pinpoint holidays Known as ACVG ...but SAME results as DCVG. Radiodetection PCM A-frame Pinpoint holidays Known as ACVG ...but SAME results as DCVG.

Transmitter Connection Radiodetection PCM Transmitter Connection Typical Transmitter to pipe connection Provides a perfect pipe connection point Anode provides perfect ground connection point

Transmitter Connection Radiodetection PCM Transmitter Connection Disconnect Rectifier Use same connections to connect the PCM transmitter

Transmitter Connection Radiodetection PCM Transmitter Connection Always direct connect Always use an independent ground - Anode Bed - Ground Stake - Across an insulator? Always have a map of the facility Never use another utility as the ground return. Never assume anything.

- First signal loss may not be the short. Radiodetection PCM Locating Shorts - First signal loss may not be the short. - There may be more than one short. - There may be an unknown source. Locating Coating defects - Take readings at the same intervals. - Make sure PCM and boot is perpendicular to the pipe. - Hold unit steady and upright when reading current. You do not always have to connect closest to the suspected short or coating defect. More is not always better.

Setting the Transmitter Radiodetection PCM Setting the Transmitter Three settings available ELF (4+98 Hz) ELF + CD (8 Hz) LF (512 H z) + CD Normal set to ELF + CD

Setting the Transmitter Radiodetection PCM Setting the Transmitter Set Current switch to desired current

Taking Current Readings Radiodetection PCM Taking Current Readings If ELF and arrows selected on Tx then select ELF on the RX Locate pipe in conventional way

Taking Current Readings Radiodetection PCM Taking Current Readings Hold the Receiver Steady on the ground and press the PCM Key. Current is displayed after ~ 4 s

Taking Current Readings Radiodetection PCM Taking Current Readings Unit automatically performs steps: narrow band signal processing measures 4 Hz signal (magnetometer); proceed to calculate depth (twin aerials); calculate current; determine CD (using 4 Hz + 8 Hz shift).

Current Direction Indicates which direction the Current is flowing Radiodetection PCM Current Direction Indicates which direction the Current is flowing Aids fault analysis

Methodology using PCM for Current Surveys Radiodetection PCM Methodology using PCM for Current Surveys Use an independent ground and try to mimic your CP circuit when possible Make sure rectifiers are not influencing the signal (turn off AND disconnect if necessary) Isolate your circuit whenever possible (disconnect bonds for better surveys) Take readings at equal distances and record your distances Every 50 feet is a good standard (others can be used dependant on location) Use it as a macro tool and depth of cover tool (use A-frame for micro) Look for anomalies with more than a 5% change normally Make sure unit is upright and perpendicular to the pipe Use the peak mode. Check peak and null readings and verify depth when readings are suspect. Take multiple readings in one location if you suspect the accuracy. Know what is in the area of your pipe and what it is connected to it

Datalogging 400 records can be stored. Records can be: Radiodetection PCM Datalogging 400 records can be stored. Records can be: reviewed on PCM downloaded to a PC Records can be viewed on Excel

Radiodetection PCM Datalogging

Radiodetection PCM A-frame

Radiodetection PCM A-frame

PCM with A-frame for Alternating Current Voltage Gradient Surveys Radiodetection PCM PCM with A-frame for Alternating Current Voltage Gradient Surveys Used as a micro and a macro survey tool Can be used in various soil conditions but ground contact of the probes will affect the readings Rectifiers generally do not influence the ACVG survey In areas of high interference or where current survey does not give you answers, ACVG can still be used with more success Know what is in the area of your pipe and what is connected to it Larger holidays can mask smaller ones until the larger holidays have been repaired PCM displays A-frame readings in db or decibels. Remember every 10 db higher is twice as large Metal to dirt contact and soil resistance (not necessarily size of holiday) is what affects the db readings

ACVG Methodology Radiodetection PCM Use an independent ground and try to mimic your CP circuit when possible Take readings parallel and along the pipe. When you see an arrow reversal go perpendicular to the pipe and make sure arrow reverses over pipe You do not have to be right on top of the pipe when surveying On concrete and asphalt use wet sponges or rags on the probes or wet the ground around the probes. Take readings at equal distances usually about every two to three steps Use the largest db reading seen around the anomaly for you records Record all faults seen with db readings and footages or GPS coordinates. Once done, anomalies can generally be categorized into 4 areas 80db – 100db – large 65db – 80db – medium 50db – 65db – small 50db and below – very small LOCAL CONDITIONS DETERMINE WHAT IS A DIG!

Graphing in Excel and Data Interpretation Radiodetection PCM Graphing in Excel and Data Interpretation

Graphing in Excel and Data Interpretation Radiodetection PCM Graphing in Excel and Data Interpretation

Graphing in Excel and Data Interpretation Radiodetection PCM Graphing in Excel and Data Interpretation

Graphing in Excel and Data Interpretation Radiodetection PCM Graphing in Excel and Data Interpretation

Graphing in Excel and Data Interpretation Radiodetection PCM Graphing in Excel and Data Interpretation

Graphing in Excel and Data Interpretation Radiodetection PCM Graphing in Excel and Data Interpretation

Graphing in Excel and Data Interpretation Radiodetection PCM Graphing in Excel and Data Interpretation

Radiodetection PCM