How to Measure Ground Resistance and Optimize Grounding Grid

Course Number: E-2099
Credit: 2 PDH
Subject Matter Expert: Velimir Lackovic, Electrical Engineer
Price: $59.90 or enroll free with your NoonPi Unlimited Plan
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Overview

In How to Measure Ground Resistance and Optimize Grounding Grid, you'll learn ...

  • Effect of ground electrode size and depth on resistance
  • Effect of soil resistivity on ground electrode resistance
  • Factors affecting soil resistivity
  • PV system characteristics and potential hazards

Overview

PDHengineer Course Preview

Preview a portion of this course before purchasing it.

Credit: 2 PDH

Length: 33 pages

The term ground is specified as a conducting link by which a circuit or device is connected to the earth. The link is used for establishing and keeping as closely as possible the potential of the ground on the circuit, or device linked to it. A ground consists of a grounding conductor, a bonding connector, its grounding electrode(s), and the soil which is in contact with the electrode.

Grounds have few basic protection applications. For natural phenomena, such as lightning, grounds are used to secure a discharge path for the current to decrease shock hazard to staff, and to avoid damage to equipment and property.

For induced potentials due to failures in electric power systems with earth returns, grounds help in ensuring quick operation of the protection relays by giving low resistance fault current paths. This allows clearing the induced potential as fast as possible.

The earth has to drain the induced potential before staff is injured and the power or communications equipment is damaged. In ideal conditions to keep a reference potential for instrument safety, to protect against static electricity, and limit the equipment earth voltage for operator safety, an earth resistance needs to be 0 Ω. However, in reality, this value cannot be reached. Also, low earth resistance is demanded by NEC, OSHA, and other electrical safety codes and regulations.

This course is suitable for engineers with a desire to understand the fundamentals of earthing resistance measurements. Presented details cover issues related to different measurement methods including two and three point measurement method, fall of potential method, touch potential measurements, ground grid integrity measurements, etc.

Upon successful completion, engineers will be able to understand theory and practical ground resistivity measurement methods, which will provide a solid understanding for further engineering work.

Specific Knowledge or Skill Obtained

This course teaches the following specific knowledge and skills:

  • Effect of ground electrode depth on resistance
  • Ground resistance measurements
  • Two-Point ground resistance measurement method
  • Three-Point ground resistance measurement method
  • Fall-of-potential ground resistance measurements method
  • Measuring resistance of ground Electrodes (62% Method)
  • Multiple electrode systems
  • Soil resistivity measurements (Four-Point measurement)
  • Touch potential measurements
  • Clamp-On ground resistance measurement
  • In-Field measurement
  • Ground grid integrity measurements
  • Relevant safety standards and codes

Certificate of Completion

You will be able to immediately print a certificate of completion after passing a multiple-choice quiz consisting of 28 questions. PDH credits are not awarded until the course is completed and quiz is passed.

Board Acceptance
This course is applicable to professional engineers in:
Alabama (P.E.) Alaska (P.E.) Arkansas (P.E.)
Delaware (P.E.) District of Columbia (P.E.) Florida (P.E. Area of Practice)
Georgia (P.E.) Idaho (P.E.) Illinois (P.E.)
Illinois (S.E.) Indiana (P.E.) Iowa (P.E.)
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More Details

PDHengineer Course Preview

Preview a portion of this course before purchasing it.

Credit: 2 PDH

Length: 33 pages

Add to Cart

Purchase using credit card or debit card
Or Enroll now

Enroll for free using my NoonPi Unlimited Plan

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