hybrid offshore-wind and tidal turbine (hott) energy conversion ii (6-pulse gto rectifier dc...

Hybrid Offshore-wind and Tidal Turbine (HOTT) Energy Conversion II 　

(6-Pulse GTO Rectifier DC connection and Inverter)

Mohammad Lutfur RahmanYasuyuki Shirai Kyoto University

Graduate school of energy science, Department of energy science and technology,

Yoshida honmachi, Sakyo-ku, Kyoto- 606-8501, Japan

　

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Introduction 　　　 The innovative renewable energy

conversion system called “Hybrid Offshore-wind and Tidal Turbine” (HOTT) 　Conversion was proposed. The research includes tidal turbine and offshore-wind turbine, new turbine designs and, turbine control of tidal energy and offshore-wind energy absorption. 　 HOTT will be entire five turbines, four turbines will be tidal turbine and one turbine will offshore- wind turbine arrangement.

04/18/23

Kyoto University, Graduate School of Energy Science, Department of Energy

Science and Technology2

Offshore Wind Turbine

Where

•Pw is power in watts for wind turbines,

•Ad is air density,

•rw is rotor radius,

•Vw is wind speed,

•Cpw is coefficient of performance (might be changed depending on the real system)

•Cgw is the generator efficiency and power conditioning efficiency (might be also changed depending on the real system).

04/18/23Kyoto University, Graduate School of

Energy Science, Department of Energy Science and Technology

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gwpwwwdw CCVrAP 32

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04/18/23 3Kyoto University, Graduate School of


it will shows that the offshore-wind turbine simulation output using PSCAD/EMTDC. It shows the active power, wind speed, torque output and AC voltage L-L (RMS)



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Offshore Wind Turbine

Simulation results for wind turbine. Its show the Active power ,wind speed, output torque of the turbine and wind AC voltage L-L (RMS)



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VW-CON-L-L (RMS)[kV]

P wind[MW]

Wwind[m/s]

Tmwind[pu]

• Starting point (~ 0.20s): The wind generator is in starting up condition.

• Noise amplitude controlling parameter 1rad/s, number of noise components 30

• Ramp wind starts at 6sec for number of ramp 3, ramp period when the machine delivering 2.78 MW+ of power to the system.

• Gust wind starts at 10sec number of gust 3, when the machine delivering 2.68 MW+ of power to the system.

• The Power fluctuation is between 1.54 MW to 3.0MW Offshore-wind torque when wind speed at reference height 8m/s+.



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Tidal Turbine

where

•Pt is power in watts for tidal turbines,

•Wd is sea water density,

•rt is rotor radius,

•Vt is sea water speed,

•Cpt is coefficient of performance (might be changed depending on the real system) and

•Cgt is the generator efficiency and power conditioning efficiency

(might be also changed depending on the real system).



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gtptttdt CCVrWP 32

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It will shows that the tidal turbine

simulation output using PSCAD/EMTDC. Its show the active power, torque output, torque output form the turbine and AC voltage L-L (RMS).



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Tidal Turbine



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Simulation results for tidal turbine. Its show the active power, torque output of the turbine, torque of the turbine and AC voltage L-L (RMS).

Ptidal[MW]　

Tmtidal[pu] VT-CON-L-L (RMS)[kV]

Wtidal[m/s]

• Starting point (~ 0.20s): The tidal generator is in starting up condition When generator condition getting 2.88 m/s tide speed, 0.87 sec the tidal turbine bring to the line to adjust the turbine.

• At t=1.48 sec to t=15 sec the speeds of the machine become 2.88 m/s when the power systems become steady condition and delivering real power 4.11MW to 4.20MW.



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Hybrid Offshore-wind and Tidal Turbine (HOTT) Energy Conversion II

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Energy Science, Department of Energy Science and Technology 11

• Phybrid total power in watts for hybrid turbine system of the tidal and the offshore-wind turbines

• Pt is power in watts for tidal turbines,

• Pw is power in watts for wind turbines,



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wthybrid PPP

• A huge coefficient of performance loss and distribute-energy-producing flows are low percentage. That’s why; if only offshore-wind turbine must be connected with the huge capacity size battery for continuous flow and for power system steady unless wind power will be an unacceptable consequence that may threaten the power system stability.

• The tidal energy conclude that tidal stream capacity factors are significantly greater than for wind energy.



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Why hybrid

• The integration of wind power in the Offshore-wind turbine system leads to minimum load problems at high levels of installed wind power capacity, in their blades has contributed to low rotational inertia.

• The proposed HOTT is more flexible than the single system, so that the stable generation ranges of the wind/tidal conditions can extended by adequate system control strategy.

• The advance simulation study have to be carried out to ensure stability and also gives a better understanding of the control aspects required to make it more efficient.



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HOTT



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6 pulse GTO rectifier DC side connection and inverter configuration using PSCAD/ EMTDC







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• A Induction Generator supplies the ac power at the sending end and controls the ac voltage at the sending end. The inverter controls the ac voltage magnitude, and the dc voltage. Pulse width modulation are employed to control the operation of the converters at both ends.

• The control system is designed such that the sending end (or the rectifier end) controls the amount for wind/tidal and the power transferred across the dc link, and the receiving end (or the inverter end) controls the dc voltage. So a constant dc power in the system , the voltage at the dc line should be constant.



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It will shows the hybrid turbine simulation output using PSCAD/EMTDC, form top to bottom, the DC transmission power (PDC), AC voltage line to line (RMS) (VINV-AC), the converter DC voltage (VCON-DC) and current (ICON-

DC), the inverter DC voltage (VINV-DC)and current(IINV-DC).



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Hybrid



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Simulation results for GTO 6 pulse rectifier and inverter

PDC　[pu]

VINV-L-L (RMS)[kV]

Simulation results for GTO 6 pulse rectifier and inverter



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ICON-DC [pu]　

IINV-DC [pu]

VCON-DC [kV]　

VINV-DC [kV]

• the converter DC voltage is 0.22kV to 29kV the graph this happens at t=0.16 sec to t=0.35 sec when generator is in starting up condition.

• 22 kV set point DC voltage become steady- state at t=0.51 sec to t=15 sec.

• AC voltage line to line (RMS) offshore-wind turbine rectifier side 5.8 kV, AC voltage line to line (RMS) tidal turbine rectifier side 8 kV and inverter side AC voltage line to line (RMS) 77 kV.

• The DC transmission line power is per unit 0.42.



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ADVANTAGE HOTT (Entire system) 1) Offers better stability and control.

2) The capital cost of civil works is reducing.

3) Disruption to ecosystems and boating is minimized. 　　　　　　　　　　

4) Ocean currents, wind-induced currents and as well as tidal flows can be used. There is no need for a large tidal rise and fall.

5) No fuel-absence of CO2 emissions, radiation and particulate matter pollution

6) No waste of disposal requirements, and no danger of spillage or other environmental damage

7) No noise pollution. No visual pollution.

8) No negative impact on marine life. In fact, can encourage growth of marine life and reduces shoreline erosion.



Conclusion • The PSCAD simulation results with a HOTT 6.3 MW+ test

system demonstrate satisfactory operation for a range of wind and tidal speeds using 6-pulse GTO rectifier DC connection and inverter, it was successfully simulated by PSCAD/EMTDC.

• The key techniques of offshore-wind and tidal power 　estimation, electric transmission and connection, system and stability operation, system investigation, reactive power and voltage control strategy, the interaction between offshore-wind and tidal turbine.

• HOTT will be competitive lead in its field, together with the most efficient technology and uniquely practical methods for servicing it. In short we believe our technology meets a huge new need, and can deliver energy in future, as predictably as the tides that drive it and with minimal risk to the local environment.



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Thank You

I appreciate for you valuable time and pay attention.

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Kyoto University, Graduate School of Energy Science, Department of Energy

Science and Technology25

hybrid offshore-wind and tidal turbine (hott) energy conversion ii (6-pulse gto rectifier dc...

Documents

department of energy

wind energy absorption

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wind torque

wind turbine arrangement

wind turbines

wind generator

ramp wind