More attention is being offered to renewable energy due to its cost effectiveness, ecological compatibility and optimized service transportation. In fact, many governments are dictating green energy standards to newly constructed buildings and compounds. Realizing its importance and ability to replace traditional energy sources, the green energy resources requires infrastructures and setups thus to generate consistent and reliable power. In view of that, the paper studies a bio-mechatronic control and monitoring system for an electrical substation using the internal wave energy. The electrical substation is part of self-sufficient standalone agro-industrial compound. The paper is structured around adequate mathematical model of the bio-mechatronic electrical substation and supported by simulation results of generating consistent electrical power and Steady–state stator current.
B Bastian et al. Mathematical model of synchronous generator for diagnostics and settingsž tests of marine AVRS. Zeszyty problemowe Maszyny Elektryczne Nr 100/2013 cz. II, 2013, pp. 181-184
S.E. Lyshevski: “Electromechanical Systems, Electric Machines and Applied Mechatronics”, CRC Press, 2000
T.Eirola et al. Stability of mathematical model for systems of synchronous and asynchronous machines. Technische mechanic, 1996, pp. 237-244.
A. Barakat et al. Analysis of synchronous machine modeling for simulation and industrial applications. Simulation Modelling Practice and TheoryVolume 18, Issue 9, October 2010, Pages 1382–1396
G. Younkin et al. Electric servo motor equations
and time constants. 7 pages