Scada and its Application in Power Generation and Distribution System

Apar Agrawal, Ms. Aprajita, Abhinav Saxena

Abstract


The essential common sources like Coal, gas, Diesel, nuclear and so forth. Is single time useable due to which the quantity of these sources is decreasing day by day. The emission of these fuels is also responsible for air pollution. On the other hand, if we can use renewable sources like hydro power, solar power and wind power to generate electricity such that SCADA system can incorporate to have better monitoring and reliability of the system for proper distribution of load optimise. So we have developed a system in which consumers are connected to different types of power plants via a Grid. The network load and plants are checked and controlled by the SCADA framework. This provides the uninterrupted power supply to the distributors with more reliable solution.


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References


IEEE Research Paper on “Utility of SCADA in Power Generation and Distribution System”.2017.

IJARCCE Research Paper on “SCADA Implementation for Power Generator Performance and Condition Monitoring System”. 2016.

IJTRD Research Paper on “Application of SCADA in modelling of power distribution systems and induction motor”.2016.

IEEE Research Paper on “4th generation of SCADA implementation for Automation”, 2016.

Siemens smart process instrumentation tutorials for scaling and calibration. 2015.

Shekman L. Energy loss computation by using statistical techniques. IEEE Trans. Power Delivery. January 1990;5: pp. 254–258.

Ling W. M. & Chin H. G.A new approach for distribution reconfiguration for loss reduction and service restoration. IEEE Trans. Power Delivery. October 1998;13: pp. 870–875.

Ling W. M. & ChinH. G. A new approach for distribution reconfiguration for loss reduction and service restoration. IEEE Trans. Power Delivery. October 1998;13: pp. 870–875.

Byeon G., YoonT., OhS., & Jang G.Energy Management Strategy of the DC Distribution System in Buildings Using the EV Service Model. IEEE Trans. on Power Electronics. 2012;PP(99): pp. 1–11.

Lu D. D. C. & AgelidisV. G.Photovoltaic-Battery-Powered DC Bus System for Common Portable Electronic Devices. IEEE Trans. on Power Electronics. March 2012;24(3): pp. 849–855.

Hayashi Y. Approach for highly efficient and ultra-compact converters in next generation 380 V DC distribution system. In proc. of IEEE Energy Conversion Congress and Exposition. September 2012: pp. 3803–3810.

WuT. F., Chang C. H., Lin L. C., Yu G. R., & Chang Y. R. DC Bus Voltage Control with a Three Phase Bidirectional Inverter for DC Distribution Systems. IEEE Trans. On Power Electronics. April 2013;28(4): pp. 1890–1899.


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