Home
People
Research & Project
Practicum Activty
Training
Calculator
Power System Simulation Laboratory
The Power System Simulation Laboratory is one of the laboratories that focus on developing the simulation application and analysis of the Electric Power System.
Shaping the next generation of power engineers
assets
Dr. Ir. Ni Ketut Aryani, M.T., IPU
Head of PSSL Laboratory
Welcome to the Power System Simulation Laboratory (PSSL). We bridge theory and practice through continuous research and applied learning, from classrooms to real-world projects. Here, you can explore our team, research, publications, projects, and collaboration opportunities. We also regularly conduct ETAP and DIgSILENT training, widely used in the power industry, and are open to in-house or online training collaborations.
Field Study
Explore various fields of study that support research, innovation, and practical applications in power system engineering.
Transmission and Distribution
This field focuses on the analysis of power flow, voltage regulation, and network reliability across high- and low-voltage systems. It aims to ensure efficient energy delivery from generation sources to end-users.
Automation and Control
This study area develops intelligent control systems and automation strategies to improve grid performance and stability. It integrates advanced monitoring and control technologies for real-time operation.
Power System Stability
This field investigates the dynamic and transient behavior of power systems under disturbances. The goal is to maintain system equilibrium and resilience, especially with high renewable penetration.
Protection and Coordination
This area focuses on the design and coordination of protective relays and circuit breakers to detect and isolate faults effectively. It ensures system safety, reliability, and minimal outage impact.
Economic Dispatch
This field studies the optimal allocation of generation to minimize operating costs while meeting system constraints. It involves modeling of generation units and optimization algorithms for cost-effective operation.
Power Quality
This study area analyzes disturbances such as harmonics, voltage sags, and flickers affecting supply reliability. It aims to develop mitigation methods for improving the quality of electrical energy delivered to consumers.
Power System Planning
This field focuses on short- and long-term expansion of generation, transmission, and distribution systems. The objective is to ensure reliable and economical power supply while integrating renewable energy sources.
Operation and Optimization
This area emphasizes real-time operation and optimization of power systems using simulation and computational techniques. It seeks to enhance efficiency, minimize losses, and support sustainable grid management.
Transmission and Distribution
This field focuses on the analysis of power flow, voltage regulation, and network reliability across high- and low-voltage systems. It aims to ensure efficient energy delivery from generation sources to end-users.
Automation and Control
This study area develops intelligent control systems and automation strategies to improve grid performance and stability. It integrates advanced monitoring and control technologies for real-time operation.
Power System Stability
This field investigates the dynamic and transient behavior of power systems under disturbances. The goal is to maintain system equilibrium and resilience, especially with high renewable penetration.
Protection and Coordination
This area focuses on the design and coordination of protective relays and circuit breakers to detect and isolate faults effectively. It ensures system safety, reliability, and minimal outage impact.
Economic Dispatch
This field studies the optimal allocation of generation to minimize operating costs while meeting system constraints. It involves modeling of generation units and optimization algorithms for cost-effective operation.
Power Quality
This study area analyzes disturbances such as harmonics, voltage sags, and flickers affecting supply reliability. It aims to develop mitigation methods for improving the quality of electrical energy delivered to consumers.
Power System Planning
This field focuses on short- and long-term expansion of generation, transmission, and distribution systems. The objective is to ensure reliable and economical power supply while integrating renewable energy sources.
Operation and Optimization
This area emphasizes real-time operation and optimization of power systems using simulation and computational techniques. It seeks to enhance efficiency, minimize losses, and support sustainable grid management.
assets
Training
Terms of Service
Research & Project
Research
Project
Social Project
People
Researcher
Assistant
Training
ETAP
DigSILENT
Calculator
Tap Changer
Capacitor Bank
Relay Protection
Load Shedding
Harmonic Filter
Power System SImulation Laboratory
Email : its.psslaboratory@gmail.com
Instagram : @itspowersystem
Gedung B, Ruang B-103,
Departemen Teknik Elektro
Institut Teknologi Sepuluh Nopember
Surabaya, Indonesia
@ 2025 Power System Simulation Laboratory. All rights reserved.