Differences

This shows you the differences between two versions of the page.

--- brg316:start [2020/06/09 16:29] – maruf
+++ brg316:start [2022/02/24 18:06] (current) – maruf
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 ===== Overview =====
-The Power Systems Teaching Laboratory (PSTL) in the Bergeron Centre for Engineering Excellence building serves as a unique educational laboratory space with experiments ranging from the principles of basic electro-mechanical energy conversion to the integration of renewable power systems into the grid. This laboratory provides a great learning environment for the Lassonde School of Engineering undergraduate students to develop hands-on skills and practical experience in various aspects related to power systems engineering.
+The Power Systems Teaching Laboratory (PSTL) in the Bergeron Centre for Engineering Excellence building serves as a unique educational laboratory space with experiments ranging from the principles of electro-mechanical energy conversion to the integration of renewable power systems into the power grid. This laboratory provides a great learning environment for the Lassonde School of Engineering undergraduate students to develop hands-on skills and practical experience in various aspects related to power systems engineering.
-PSTL lab workstations include test modules to teach fundamentals of power systems, electric machines, electric power transmission systems, power system protection and real-time simulation of power systems. Moreover, workstations are easy to interconnect which enables them to configure complete power system models with generation, transmission and distribution.
+The PSTL laboratory is dedicated to the essential preparations of the workstations with the specified power circuit modules for the laboratory sessions. The PSTL lab workstations include test modules to teach fundamentals of power systems, electric machines, electric power transmission systems, power system protection, and real-time simulation of power systems. These workstations are easy to interconnect which enables to configure complete power system models with the generation, transmission, and distribution. The modular design approach of the PSTL equipment allows to design, implement and test different types of electric machines, power electronic circuits, and to study the behavior of distributed power networks for renewable energy applications.
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 **Lucas Nuelle Power Engineering Systems**
-  * [[https://www.lucas-nuelle.us/2768/apg/4508/-quot;Smart-Grids-quot;-Intelligent-power-supply-networks.htm|Smart Grid Training System]]
+  * [[https://www.lucas-nuelle.us/2768/apg/13261/EPH-3-Professional-Photovoltaics-Trainer-PV-.htm|Professional Photovoltaics (PV) Trainer]]
-  * [[https://www.lucas-nuelle.us/2768/apg/1226/EWG-1-Wind-power-plant-with-DFIG.htm|Wind Power Plant]]
+  * [[https://www.lucas-nuelle.us/2768/apg/13194/EWG-1-Wind-power-plant-with-DFIG.htm|Wind Power Plant]]
-  * [[https://www.lucas-nuelle.us/2768/apg/6965/EPH-3-Professional-Photovoltaics-Trainer-PV-.htm|Professional Photovoltaics (PV) Trainer]]
+  * [[https://www.lucas-nuelle.us/2768/apg/13581/-quot;Smart-Grids-quot;-Intelligent-power-supply-networks.htm|Smart Grid Training System]]
 **OPAL-RT Systems**
@@ Line 24: / Line 24: @@
   * [[https://www.opal-rt.com/resource-center/document/?resource=L00161_0374|DSP Controller Interface]]
-===== Software =====
+===== Software Applications =====
-  * LabVolt Electromechanical Systems Simulation (LVSIM-EMS)
+  * **LabVolt Electromechanical Systems Simulation (LVSIM-EMS)**
-  * LabVolt Data Acquisition and Control Interface (LVDAC-EMS)
+     * Electromenchanical Energy Conversion
-  * Lucas-Nuelle LabSoft Interactive Lab Assistant
+     * AC Power Transmission
-  * Power System Simulator for Engineering (PSS/E)
+  * **LabVolt Data Acquisition and Control Interface (LVDAC-EMS)**
-  * RT-LAB
+     * Electromenchanical Energy Conversion
-  * PSCAD/EMTDC
+     * AC Power Transmission
-  * Computer-Aided Protection Engineering (CAPE)
+     * Power Electronics
+     * Renewable Energy Systems
+  * **Lucas-Nuelle LabSoft Interactive Lab Assistant**
+     * Smart-Grid Systems
+     * Renewable Energy Systems
+  * **Power System Simulator for Engineering (PSS/E)**
+     * Power Flow Study
+     * Short-circuit Analysis
+     * Dynamic Stability Analysis
+  * **RT-LAB**
+     * Advanced Powers Systems Research
+  * **PSCAD/EMTDC**
+     * Advanced Powers Systems Research
+  * **Computer-Aided Protection Engineering (CAPE)**
+     * Fault Analysis
+     * Stepped-Event Analysis
+     * Whole Network Coordination Reviews
+  * **Electrical Transient Analyzer Program (ETAP)**
+     * Power Flow Study
+     * Short-circuit Analysis
+     * Dynamic Stability Analysis
+     * Protective Device Coordination Study
 ===== Documents =====
@@ Line 57: / Line 79: @@
   *[[https://www.eecs.yorku.ca/ee/EECS_LABS_BERGERON/BRG_316_POWER_SYSTEMS_TEACHING_LAB/OPAL_RT_Archive/USER_MANUALS/RT_LAB_Quickstart_Latest.pdf|RT-LAB Quickstart Guide]]
   *[[https://www.eecs.yorku.ca/ee/EECS_LABS_BERGERON/BRG_316_POWER_SYSTEMS_TEACHING_LAB/OPAL_RT_Archive/USER_MANUALS/Remote_Use_RT_Simulator.pdf|Remote Use Instruction for Real-Time Simulator]]
-  *[[https://www.eecs.yorku.ca/ee/EECS_LABS_BERGERON/BRG_316_POWER_SYSTEMS_TEACHING_LAB/OPAL_RT_Archive/USER_MANUALS/OP5600_Simulator_User_Manual.pdf|Real-time Simulator User Manual]]
+  *[[https://www.eecs.yorku.ca/ee/EECS_LABS_BERGERON/BRG_316_POWER_SYSTEMS_TEACHING_LAB/OPAL_RT_Archive/USER_MANUALS/OP5600_Simulator_User_Manual.pdf|RT Simulator User Manual]]