Seminar On Wind Power Conversion And Grid Interconnection

Due to the intermittent nature of renewable energy sources, power flow patterns in future grids will experience  uctuation more often. This causes challenges in system operation to manage congestion in a high-speed fashion. The objective is to convert wind energy and interconnect it with national grid.Such capability is most desired in future grids with high penetration of renewable energy sources (e.g., wind and solar). The technology presented here uses the traditional LCC-HVDC recti er. This technology enables the HVDC recti er ac bus to act as an in nite bus and absorb fluctuating wind power. The study system consists of an ac system, an LCC-HVDC, and a doubly fed induction generator based wind farm. Parameters of the proposed control are investigated to show their impact on HVDC power routing and ac fault recovery.

Wind is a clean safe renewable form of energy. Unlike the trend towards large scale grid connected wind turbines, the more immediate demand for rural energy supply in developing countries is for smaller machines in the 5 - 100 kW range.These can be connected to small, localised micro-grid systems and used in conjunction with diesel generating sets or solar photovoltaic systems.

Seminar Report Consists of

•  HIGH VOLTAGE DIRECT CURRENT TRANSMISSION

>Advantages of Wind Power Generation 

>HVDC Technology

>Comparison of LCC and VSC

>Converter Transformer

• WIND POWER INTERCONNECTED SYSTEM

>Induction Generator Used In Wind Turbines

>Fixed Speed Turbines

>Variable Speed Wind Turbine

>Wide Speed Range Wind Turbine

>Filters Used In The System

>Rotor Side Converter AND Grid Side Converter

>Recti er and Inverter

>Case Study

>Response to a step change in voltage

Click Here To DownloadWind Power Conversion Seminar Report

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