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Commercial Electrical

A comprehensive curriculum covering 12 chapters and 169+ topics.

Schedule: Monday, Wednesday and Saturday

Timings: 9 a.m to 2 p.m & 5 p.m to 10 p.m

Start Date: April 13, 2026

Training Partner

Commercial Electrical

What You Will Learn

A comprehensive curriculum covering 12 chapters and 169+ topics from basic principles to advanced Commercial systems.

01 Multi-Zone Control in Heating Systems

> Introduction to multi-zone control

> Key components of a multi-zone system

> Design of a multi-zone system

> Step-by-step installation (hydronic system)

> Advanced configuration

> Hybrid systems (Hydronic + forced air)

> Home automation and remote control

> Maintenance and troubleshooting

> Case study: Two-story house with 4 zones

> Safety and regulations

02 High-Efficiency Hydronic Heating Systems

> Introduction to high efficiency in hydronic systems

> Key technologies for high efficiency

> Specialized components

> High-efficiency system design

> Installation and configuration

> Advanced maintenance

> Case studies

> Regulations and certifications

03 Parts and Components of a High-Efficiency Hydronic Heating System

> Advanced heat generators

> Optimized thermal distribution

> Control and regulation components

> Heat storage and recovery

> Innovative materials and technologies

> Case study: NZEB office building

> Critical component maintenance

> Comparison: Traditional vs. high-efficiency components

04 Operation Sequence of a High-Efficiency Hydronic Heating System

> Introduction to advanced operation sequence

> Key components in the sequence

> Detailed operation sequence

> Integration with renewable energies

> Case study: Residential building with aerothermal energy

> Fault diagnosis in the sequence

> Safety in the operation sequence

05 Installation of a High-Efficiency Hydronic Heating System

> Key installation steps

> Planning and design

> Component selection

> Commissioning and training

> Case study: Passive house in cold climate

> Safety and regulations

> Common problem resolution

> Renewable energy integration

> Optimized radiant floor installation

> Advanced control with IoT and Machine Learning

> Specialized post-installation testing

> Advanced case studies

> Considerations for old building rehabilitation

> Documentation and warranties

> Common errors and solutions

06 Maintenance and Troubleshooting of a High-Efficiency Hydronic Heating System

> Importance of maintenance in high-efficiency systems

> Types of maintenance

> Advanced diagnostic tools

> Common problems and advanced solutions

> Critical component maintenance

> Advanced case studies

> Safety in maintenance

> Innovations in maintenance 4.0

> Documentation and records

07 Calculation to Determine Hydronic Heating Capacity

> Basic principles of heat transfer

> Fundamental formula

> Steps for capacity calculation

> Adjustment factors and practical considerations

> Advanced calculation tools

> Case study: Single-family home

> Common errors and solutions

> Integration with control systems

08 The Sequencer in Heating Systems

> Introduction to the sequencer

> Components of a sequencer

> Types of sequencers

> Typical operation sequence

> Installation and configuration

> Case study: Sequencer in hybrid system

> Common fault diagnosis

> Integration with modern systems

> Safety and regulations

> Innovations in sequencing

09 Parts and Components of a Furnace

> Introduction to the furnace

> Main components and their functions

> Basic operation sequence

> Preventive maintenance

> Common fault diagnosis

> Innovations in modern furnaces

> Safety and regulations

10 Furnace Operation Sequence

> Introduction to the operation sequence

> Key components in the sequence

> Detailed sequence (gas furnace)

> Electric furnace sequence

> Diagnostics for sequence interruptions

> Safety in the operation sequence

> Case study: Furnace that doesn’t maintain temperature

> Preventive maintenance based on the sequence

> Innovations in sequence control

11 AFUE Efficiency in Heating Systems

> Introduction to AFUE efficiency

> AFUE calculation

> Equipment classification by AFUE

> Economic impact of AFUE

> Factors affecting AFUE

> Regulations and standards

> Case study: AFUE comparison in cold climates

> Common myths about AFUE

> Recommendations for maximizing efficiency

> Introduction to duct design

> Key components of a duct system

> Basic principles of airflow

> Key variables

> Fundamental equations

> Duct design methods

> Design tools

> Steps to design a duct system

> Practical example: Residential house

> Common errors and solutions

> Regulations and standards

> Innovations in duct design

12 Heat Pump System

> Introduction to heat pump systems

> Types of heat pumps

> Key components of a heat pump

> Heating cycle (heat mode)

> Efficiency and Coefficient of Performance (COP)

> Integration with auxiliary systems

> Installation and best practices

> Case studies

> Maintenance and troubleshooting

> Innovations and future

To Learn More about Other Courses at Ideal Institute of Technology

To Learn More about Other Courses at IDEAL:

$200

Note: A $200 enrollment fee is required upfront and will be credited toward the course fee upon enrollment.

To Learn More about Other Courses at Ideal Institute of Technology

Contact Us
$200

Note: A $200 enrollment fee is required upfront and will be credited toward the course fee upon enrollment.

$200

Note: A $200 enrollment fee is required upfront and will be credited toward the course fee upon enrollment.

Contact Us

1000 W. washington ave Pleasentville NJ 08232