Welcome to PJR Engineering Training Academy’s Electrical System Design Calculations Training. Our comprehensive program is tailored for professionals seeking to master the complexities of electrical system design. This training covers all aspects of electrical power generation, distribution, and consumption, equipping you with the skills needed for effective system design and implementation.
COURSE HIGHLIGHTS
INTRODUCTION IN ELECTRICAL SYSTEM (PLAN,SCHEMATIC, EQUIPMENT SCHEDULE)
Understand the basics of electrical system planning, schematic design, and equipment scheduling.
Learn how electrical system layouts and schematics are essential for efficient power distribution.
ARCHITECTURAL SPACE PLANING
Explore how electrical systems are integrated into building architectural plans.
Learn to develop an Architectural Space Planing that includes electrical system layouts and ensures compatibility with the building structure.
DESIGN BASIS REPORT & ROOM DATA SHEET
Learn how to create a design basis report that outlines the specifications and requirements for electrical systems.
Understand how to prepare room data sheets that detail the electrical requirements for individual rooms and spaces.
FUNDAMENTALS OF ELECTRICAL POWER GENERATION
Learn the basics of how electricity is generated from various energy sources, including thermal, hydro, and renewable sources.
Understand the key components of power generation and how they contribute to the overall energy supply chain.
FUNDAMENTALS OF ELECTRICAL POWER TRANSMISSION
Study how electrical power is transmitted from generation facilities to end-users via high-voltage transmission lines.
Learn about the role of transformers and transmission networks in ensuring efficient energy delivery.
FUNDAMENTALS OF ELECTRICAL POWER DISTRIBUTION
Understand how electrical power is distributed from substations to consumers through the power grid.
Learn the key components of distribution systems, such as transformers, switchgear, and distribution lines.
OVERVIEW OF ELECTRICAL CODES, LOCAL AUTHORITIES AND STANDARDS
Study the electrical codes and standards set by authorities, such as NEC, IEC, and local regulations.
Ensure compliance with safety and performance standards when designing and installing electrical systems.
ELECTRICAL BASIC FORMULAS
Learn essential electrical formulas, such as Ohm’s Law, power, voltage, current, and resistance calculations.
Apply these formulas in real-world scenarios for efficient electrical system design and troubleshooting.
FUNDAMENTALS OF ELECTRICAL POWER CONSUMPTION
Understand how electrical power is consumed by different devices and systems, and the factors affecting energy use.
Learn how to calculate energy consumption and optimize systems for efficiency and cost-effectiveness.
BASIC LIGHTING DESIGN CONSIDERATION
Explore the fundamental principles of lighting design, including luminance, color temperature, and energy efficiency.
Learn how to design effective lighting systems for various spaces while adhering to lighting standards.
ELECTRICAL CIRCUIT BREAKER TYPES AND SELECTION
Learn about different types of electrical circuit breakers, such as MCB, MCCB, ACB, and their appropriate applications.
Understand how to select the right circuit breaker for protection and operational efficiency.
ELECTRICAL CIRCUIT PROTECTION DEVICES AND SELECTION
Study the various types of electrical protection devices, such as fuses, surge protectors, and RCDs.
Learn how to choose and install protection devices to safeguard electrical systems and prevent damage.
WIRING ACCESSORIES AND CABLE MANAGEMENT SYSTEM
Explore different types of wiring accessories, including switches, sockets, and connectors.
Learn about effective cable management systems for safe and organized electrical installations.
DETAILED LV POWER DISTRIBUTION SYSTEM
Understand the design and operation of Low Voltage (LV) power distribution systems in buildings.
Learn how to properly size and install LV power distribution equipment to ensure reliable energy flow.
DETAILED LV POWER CONSUMPTION SYSTEM
Study how electrical power is consumed at the Low Voltage (LV) level in buildings and facilities.
Learn methods to calculate and optimize LV power consumption to enhance energy efficiency.
LOW VOLTAGE ROOM DETAILS AND EQUIPMENT SELECTION
Learn about the design and layout of low voltage (LV) rooms, including ventilation and safety considerations.
Understand how to select appropriate LV equipment to ensure efficient and reliable operation.
SUBSTATION DETAILS AND EQUIPMENT SELECTION
Explore the key components of electrical substations, including transformers, switchgear, and protection systems.
Learn to select and configure substation equipment to meet project requirements and ensure reliable power distribution.
SINGLE LINE DIAGRAM AND LOAD BALANCING
Understand how to create and interpret single line diagrams for electrical systems.
Learn load balancing techniques to ensure even distribution of electrical loads and prevent overloading.
CIRCUIT BREAKER SIZING AND CALCULATION
Study the methods for sizing circuit breakers based on load requirements and fault protection.
Learn to perform calculations to ensure circuit breakers provide adequate protection and reliability.
CURRENT CARRYING CONDUCTOR SELECTION AND CALCULATION
Learn how to select conductors based on current carrying capacity and safety standards.
Understand the calculation methods for determining the appropriate conductor size to handle electrical loads.
VOLTAGE DROP CALCULATION
Study methods for calculating voltage drop in electrical circuits to ensure efficient power delivery.
Learn how to mitigate voltage drop issues to maintain system performance and reliability.
CIRCUIT PROTECTION CONDUCTOR SIZING AND CALCULATION
Explore techniques for sizing conductors for circuit protection, considering factors like fault currents and safety margins.
Perform calculations to ensure conductors are appropriately sized to protect against overcurrent conditions.
CAPACITOR BANK CALCULATION
Learn how to calculate the size and number of capacitors needed for power factor correction and voltage regulation.
Understand the impact of capacitor banks on electrical system performance and efficiency.
UPS & BATTERY SIZING CALCULATION
Study the principles of sizing Uninterruptible Power Supply (UPS) systems and batteries for backup power applications.
Learn to calculate battery capacities and UPS requirements to ensure reliable power during outages.
GENERATOR SIZING CALCULATION
Understand how to size generators based on load requirements and operational conditions.
Learn to perform calculations for generator capacity to ensure reliable power supply in emergency situations.
TRANSFORMER SIZING CALCULATION
Learn how to determine the appropriate size and capacity of transformers for various applications.
Understand the factors influencing transformer sizing, including load demands and future expansion considerations.
FAULT LEVEL CALCULATION
Study methods for calculating fault levels in electrical systems to ensure protection and safety.
Learn to use fault level calculations to select appropriate protective devices and system design.
EARTHING & LIGHTNING PROTECTION
Explore the principles of earthing and lightning protection systems to safeguard electrical installations.
Learn to design and implement effective earthing and lightning protection strategies to prevent damage and ensure safety.
BASIC SOLAR POWER PLANT DESIGN AND CALCULATION
Study the fundamentals of designing and calculating solar power plants, including solar panel selection and system sizing.
Learn to perform calculations for energy production, efficiency, and system configuration in solar power plants.
CONCEPT DESIGN, SCHEMATIC DESIGN, DETAILED DESIGN, TENDER PACKAGE & IFC PACKAGE
Understand the phases of electrical system design from initial concept through to tender and IFC packages.
Learn to develop comprehensive design documentation and tender packages for electrical projects.
CLIENT APPROVAL
Learn how to present electrical designs for client approval and manage feedback and revisions effectively.
Develop skills in client communication and documentation to ensure project requirements are met.
VALUE ENGINEERING
Explore value engineering techniques to enhance electrical system design while optimizing costs and performance.
Learn to identify cost-effective solutions without compromising system quality and safety.
AUTHORITY APPROVALS
Understand the process for obtaining necessary regulatory approvals for electrical systems.
Ensure compliance with local codes and standards to achieve successful project authorization.
Advance your expertise in electrical system design with PJR Engineering Training Academy’s specialized training program. For more information or to enroll, please contact us today.
Enhance your skills and ensure your electrical systems are efficient, reliable, and compliant with our expert-led training in electrical system design calculations.