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Setting Up a Qualified Electrical Worker Program At Your Facility

OSHA and NFPA talk about setting up a qualified electrical worker program but what exactly does that mean? How do we get there? And what training is needed? TPC Trainco Electrical Instructor Mike Leitzel will guide you through setting up your own QEW program at your facility and answer your questions to keep your employees safe.

Electrical Energy Conservation

Electrical Energy Conservation

This online course covers electrical energy consumers in typical commercial and industrial facilities. Investigates utility rate structures and relates cost to load management. Examines power factors, including how they are calculated and how they affect energy usage. Shows methods of conducting lighting surveys and how lighting fixture and lamp selection can impact electricity costs. Electrical Energy Conservation is available in online and course manual formats.

TPC Training Systems is authorized by IACET to offer 0.5 CEUs for this program.

Review a full course list for HVAC Technician

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  • Online Course & Test $85.00
  • Course Manual $57.00

Please select a format.

Lesson 1 - Surveying Electrical Consumption


Identifying electricity consumers; Determining system efficiency, consumption; Meter selection

Learning Objectives:
– Conduct an electrical energy audit.
– Determine the efficiency of an electrical system.
– Give three reasons for metering electric energy use.
– Name the three basic types of meters used in energy conservation work and explain how each is used.
– Differentiate between indicating and recording meters.

Lesson 2 - Using Load Management Techniques


Load factor; Equipment audits; Target demand; Methods of control; Demand controllers

Learning Objectives:
– Name the two metered quantities that determine the major part of an electric bill.
– Define power factor and load factor and explain why each is important.
– Show how to use meters to identify usage patterns ad peak usage periods.
– Compare and contrast manual and automatic demand control and give an example of each.
– Name several types of demand controllers and tell how each operates.
– Describe the way in which electric bills are calculated.

Lesson 3 - Improving Electrical Equipment Efficiency


Electrical quantities; Capacitors; Induction motors; Motor efficiency; Variable speed drives; Transformers; Energy saving devices

Learning Objectives:
– Name the two familiar forms energy may take.
– List three elements of impedance in an ac system.
– Explain how power factor is calculated in a single-phase and a three-phase circuit.
– Tell why capacitors are important from an energy conservation standpoint and name three sources of capacitance in an electrical system.
– Explain the information found on a motor nameplate and tell how it relates to energy on a electrical system.
– Calculate load losses and no-load losses of motors, speed controls, and transformers.
– Evaluate the value of energy-saving devices.

Lesson 4 - Conducting a Lighting Survey


Lighting levels; Lighting survey; Improved switching; Reducing lamp size; Improved lighting controls; Task lighting; Using natural light

Learning Objectives:
– Explain the importance of a good lighting system.
– Define uniform lighting and selective task lighting and tell how they affect energy consumption.
– Determine recommended and actual lighting levels
– Distinguish between lumens and footcandles as measures of light.
– Give examples of ways in which switching modifications can be used to reduce energy consumption.
– Describe several ways to use natural lighting more efficiently.

Lesson 5 - Evaluating Lamps and Fixtures


Incandescent and fluorescent lamps; Scheduling lamp replacement; HID, mercury, metal halide, high-, and low-pressure sodium lamps; Maintenance

Learning Objectives:
– Tell why cleaning lamps and fixtures is important.
– Compare and contrast incandescent and fluorescent lamps.
– Differentiate between R lamps and ER lamps.
– Name six types of lighting in order of efficacy.
– List advantages and disadvantages of each of the following types of high intensity discharge lighting: mercury, metal halide, HPS, and LPS.

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