- Version
- Download 48
- File Size 583.22 KB
- File Count 1
- Create Date 29/05/2024
- Last Updated 29/05/2024
DESIGN AND DEVELOPMENT OF TIDAL ENERGY GENERATION SYSTEM
Chetan Mahajan, Sumanth Katkamwar, Varad Shirshat, Manas Jadhav, Prof.BG Patil
1mechanical Engineering, k.k wagh Institute of Engineering and Research, Nashik
2mechanical Engineering, k.k wagh Institute of Engineering and Research, Nashik
3mechanical Engineering, k.k wagh Institute of Engineering and Research, Nashik
4mechanical Engineering, k.k wagh Institute of Engineering and Research, Nashik
5mechanical Engineering, k.k wagh Institute of Engineering and Research, Nashik
--------------------------------------------------------------------***---------------------------------------------------------------------
Abstract - Sustainable energy generation is becoming increasingly important due to the expected limitations in current energy resources and to reduce pollution. Wave energy generation has seen significant development in recent years. Renewable power generation has become increasingly vital in addressing global energy challenges and mitigating the impacts of climate change. Various forms of renewable energy sources, such as solar, wind, and hydroelectric power, have gained prominence in the pursuit of sustainable energy solutions. Among these, tidal power stands out as a promising option due to its predictability and minimal environmental impact. This abstract explores the significance of renewable power generation and introduces the concept of tidal power generation, focusing on the innovative technology of tidal floater turbines. It delves into their construction and operational principles, illustrating their potential as a sustainable energy source. Ultimately, this abstract underscores the growing importance of harnessing tidal power as a clean and reliable source of electricity for the future.
Tidal floater turbines represent an innovative system for harnessing the energy potential of ocean tides. These turbines are strategically constructed on the surface of the sea, where the dynamic ebb and flow of tides generate kinetic energy. The turbines consist of underwater rotors connected to electrical generators, which are capable of converting the mechanical energy of tidal currents into electricity. The operation of tidal floater turbines is driven by the predictable and consistent nature of tidal cycles, making them a dependable source of renewable energy. By exploiting the immense power of the ocean's tides, these turbines offer a sustainable solution for meeting the world's growing energy demands. The result from wave simulator using a real wave profile captured at a location in UK using an ultra sound system it was seen that ±0.8m wave at 10sec time period, produce a condition power output of approximate 22KW at optimum load condition for the tested 3 phase 44KW permanent magnet generator type STK500 the result indicate that this new technology could provide an effective and low cost method of generating electricity from waves.
In conclusion, the utilization of tidal power generation, specifically through the innovative technology of tidal floater turbines, holds significant promise in the realm of renewable energy. As society seeks to reduce its carbon footprint and transition towards cleaner energy sources, the predictability and consistency of tidal power make it an attractive option. Moreover, the construction of these turbines on the sea's surface minimizes ecological disruptions, further emphasizing their environmental sustainability. With ongoing research and development, tidal power generation has the potential to play a pivotal role in our quest for a greener and more sustainable energy future.
Key Words: Generator STK500, Sustainable power generation