Lab/Experiment(s) Hosting Request
Use this issue to get your lab and experiment repositories hosted on Virtual Labs. This issue also is used to host labs and their experiments that have been migrated to Phase 3 lab/exp format from Phase 2.
Please provide item 1 for all the experiments of the lab
- Hosting Unit:
- GitHub Handle: ajaykant00
- Virtual Lab Phase Phase 2
- Existing Hosted URL https://vp-dei.vlabs.ac.in/Dreamweaver/
- Approved Proposal & Hosting Approval Mail: Phase 2 Lab
- Introduction: The Virtual Power Lab (DEI) is a web-based laboratory designed to help students to
understand the principles, operation, protection, and performance analysis of electrical
power system protection through interactive simulations. The laboratory covers important
topics such as synchronization of generators, determination of synchronous machine d and
q- axis reactances, positive, negative and zero sequence reactances, transient,sub-transient
and steady state reactances, measurement of dielectric strength of oil and air, Effect of
shapes on dielectric strength, transformer differential protection, induction motor
numerical protection, and transmission line regulation and Ferranti effect. These
simulations enable learners to visualize system behavior, analyze electrical parameters, and
study power system operations in a safe, cost-effective, and interactive virtual environment.
- Objective: • To develop a conceptual understanding of electrical power system components and their
operation.
• To study the characteristics and performance of synchronous machines, transformers,
transmission lines, and protective devices.
• To analyze power system faults, protection schemes, and relay coordination.
• To understand the influence of system parameters on power system performance and
stability.
• To provide hands-on learning experience through virtual experimentation and simulation.
- Course Alignment:The lab aligns with engineering courses such as Electrical Power Systems, Electrical
Machines, Power System Protection, High Voltage Engineering, and Electrical Engineering.
It supports university and AICTE-prescribed curricula by reinforcing theoretical concepts
through virtual practical experiments.
- Target Audience: The lab is intended for undergraduate and postgraduate engineering students, faculty
members, research scholars, and industry trainees, particularly those specializing in
Electrical Engineering and related disciplines. It is especially beneficial for institutions with
limited access to physical power system laboratories and testing equipment.
- Discipline: Electrical Engineering
- Name of the Lab: Virtual Power Lab-DEI
Lab/Experiment(s) Hosting Request
Use this issue to get your lab and experiment repositories hosted on Virtual Labs. This issue also is used to host labs and their experiments that have been migrated to Phase 3 lab/exp format from Phase 2.
Please provide item 1 for all the experiments of the lab
understand the principles, operation, protection, and performance analysis of electrical
power system protection through interactive simulations. The laboratory covers important
topics such as synchronization of generators, determination of synchronous machine d and
q- axis reactances, positive, negative and zero sequence reactances, transient,sub-transient
and steady state reactances, measurement of dielectric strength of oil and air, Effect of
shapes on dielectric strength, transformer differential protection, induction motor
numerical protection, and transmission line regulation and Ferranti effect. These
simulations enable learners to visualize system behavior, analyze electrical parameters, and
study power system operations in a safe, cost-effective, and interactive virtual environment.
operation.
• To study the characteristics and performance of synchronous machines, transformers,
transmission lines, and protective devices.
• To analyze power system faults, protection schemes, and relay coordination.
• To understand the influence of system parameters on power system performance and
stability.
• To provide hands-on learning experience through virtual experimentation and simulation.
Machines, Power System Protection, High Voltage Engineering, and Electrical Engineering.
It supports university and AICTE-prescribed curricula by reinforcing theoretical concepts
through virtual practical experiments.
members, research scholars, and industry trainees, particularly those specializing in
Electrical Engineering and related disciplines. It is especially beneficial for institutions with
limited access to physical power system laboratories and testing equipment.