Electricity generation from moving currents without using dams (i.e., in-stream hydrokinetic electricity) has the potential to introduce multiple GW of renewable power to U.S. grids. This study evaluates a control system designed to regulate the generator rotor rate (rpm) to improve power production from in-stream hydrokinetic turbines. The control algorithm is evaluated using numerical models of both a rigidly mounted tidal turbine (TT) and a moored ocean current turbine (OCT) coupled to an induction electric machine model. The moored simulation utilizes an innovative approach for coupling a multiple degrees-of-freedom (DOF) nonlinear hydrodynamic/mechanical turbine model with a nonlinear electromechanical generator model. Based on the turbine torque-speed characteristic, as well as the asynchronous machine features, a proportional–integral (PI) controller is used to generate a correction term for the frequency of the three-phase sinusoidal voltages that are supplied to the asynchronous generator. The speed control of the induction generator through the supply frequency is accomplished by a simplified voltage source inverter (VSI). The simplified VSI consists of control voltage sources (CVSs), while the comparison with a real VSI using diodes and transistors, which are controlled by pulse width modulation (PWM) technique, is also presented. Simulations are used to evaluate the developed algorithms showing that rpm fluctuations are around 0.02 for a tidal turbine operating in a wave field with a 6 m significant wave height and around 0.005 for a moored ocean current turbine operating in a wave field with a 2 m significant wave height.
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Research-Article
System Modeling and Simulation of In-Stream Hydrokinetic Turbines for Power Management and Control
Vasileios Tzelepis,
Vasileios Tzelepis
School of Naval Architecture and
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: vtzelepi@uno.edu
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: vtzelepi@uno.edu
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James H. VanZwieten,
James H. VanZwieten
Southeast National Marine
Renewable Energy Center,
Florida Atlantic University,
777 Glades Road,
Boca Raton, FL 33067
e-mail: jvanzwi@fau.edu
Renewable Energy Center,
Florida Atlantic University,
777 Glades Road,
Boca Raton, FL 33067
e-mail: jvanzwi@fau.edu
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Nikolaos I. Xiros,
Nikolaos I. Xiros
School of Naval Architecture and
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: nxiros@uno.edu
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: nxiros@uno.edu
Search for other works by this author on:
Cornel Sultan
Cornel Sultan
Mem. ASME
Department of Aerospace and
Ocean Engineering,
Virginia Tech,
215 Randolph Hall,
Blacksburg, VA 24061
e-mail: csultan@vt.edu
Department of Aerospace and
Ocean Engineering,
Virginia Tech,
215 Randolph Hall,
Blacksburg, VA 24061
e-mail: csultan@vt.edu
Search for other works by this author on:
Vasileios Tzelepis
School of Naval Architecture and
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: vtzelepi@uno.edu
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: vtzelepi@uno.edu
James H. VanZwieten
Southeast National Marine
Renewable Energy Center,
Florida Atlantic University,
777 Glades Road,
Boca Raton, FL 33067
e-mail: jvanzwi@fau.edu
Renewable Energy Center,
Florida Atlantic University,
777 Glades Road,
Boca Raton, FL 33067
e-mail: jvanzwi@fau.edu
Nikolaos I. Xiros
School of Naval Architecture and
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: nxiros@uno.edu
Marine Engineering,
University of New Orleans,
2000 Lakeshore Drive,
New Orleans, LA 70148
e-mail: nxiros@uno.edu
Cornel Sultan
Mem. ASME
Department of Aerospace and
Ocean Engineering,
Virginia Tech,
215 Randolph Hall,
Blacksburg, VA 24061
e-mail: csultan@vt.edu
Department of Aerospace and
Ocean Engineering,
Virginia Tech,
215 Randolph Hall,
Blacksburg, VA 24061
e-mail: csultan@vt.edu
1Corresponding author.
Contributed by the Dynamic Systems Division of ASME for publication in the JOURNAL OF DYNAMIC SYSTEMS, MEASUREMENT, AND CONTROL. Manuscript received September 30, 2015; final manuscript received November 7, 2016; published online March 13, 2017. Assoc. Editor: Evangelos Papadopoulos.
J. Dyn. Sys., Meas., Control. May 2017, 139(5): 051005 (15 pages)
Published Online: March 13, 2017
Article history
Received:
September 30, 2015
Revised:
November 7, 2016
Citation
Tzelepis, V., VanZwieten, J. H., Xiros, N. I., and Sultan, C. (March 13, 2017). "System Modeling and Simulation of In-Stream Hydrokinetic Turbines for Power Management and Control." ASME. J. Dyn. Sys., Meas., Control. May 2017; 139(5): 051005. https://doi.org/10.1115/1.4035235
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