Urban Rail Transit Power Monitoring System Techniques Based on Synchronous Phasor Measurement Unit

Failures in power systems of rail transit systems lead to the disruption of transportation, which causes significant economic losses and profound social effects. We consider the application of smart energy system to power fault monitoring of rail transit. The causes of these failures are often not immediately determined in the existing rail transit power monitoring system, and this situation will prolong the repair time. To analyze accidents and immediately determine faults in the rail transit power systems, the entire power data acquisition system of a rail transit is built on the basis of the existing power system. Data acquisition, processing, and computing of power system AC phasor are achieved through precision sampling of phasor measurement units and advanced algorithms. Furthermore, problems of decentralized power equipment and data transmission delay are solved through clock synchronization technology. At the same time, the shortage of power data acquisition system is effectively compensated by demonstration project, which is beneficial to the safe operation of power supply system of Shanghai urban rail transit. In this case, equipment failure of the rail transit power system, fault location, and repair time are reduced.

[1]  Alireza Shahsavari,et al.  Distribution Grid Reliability Versus Regulation Market Efficiency: An Analysis Based on Micro-PMU Data , 2017, IEEE Transactions on Smart Grid.

[2]  Anna Mutule,et al.  Line parameter estimation based on PMU application in the power grid , 2015, 2015 IEEE 5th International Conference on Power Engineering, Energy and Electrical Drives (POWERENG).

[3]  Chen Qiulin Distributed SCADA system with asynchronous data transmission for 10 kV power supply of railway , 2011 .

[4]  Berthold Bitzer,et al.  Cloud-based Smart Grid monitoring and controlling system , 2015, 2015 50th International Universities Power Engineering Conference (UPEC).

[5]  Dusmanta Kumar Mohanta,et al.  Remote monitoring system for real time detection and classification of transmission line faults in a power grid using PMU measurements , 2018, Protection and Control of Modern Power Systems.

[6]  Sharif M A Bhuiyan,et al.  Big data analysis of the electric power PMU data from smart grid , 2017, SoutheastCon 2017.

[7]  J. O. Gjerde,et al.  A Phasor Measurement Unit Based Fast Real-time Oscillation Detection Application for Monitoring Wind-farm-to-grid Sub–synchronous Dynamics , 2016 .

[8]  S. K. Soonee,et al.  The View from the Wide Side: Wide-Area Monitoring Systems in India , 2015, IEEE Power and Energy Magazine.

[9]  Shital Uttam Karpe,et al.  Power system backup protection in smart grid using synchronized PMU , 2016, 2016 International Conference on Signal Processing, Communication, Power and Embedded System (SCOPES).

[10]  David W. Roop Power System SCADA and Smart Grids [Book Reviews] , 2016, IEEE Power and Energy Magazine.

[11]  Mohd Rihan,et al.  GIS aided PMU placement for dynamic state measurement in power grid: A case study , 2016, 2016 International Conference on Computing, Communication and Automation (ICCCA).