| Abstrakt: |
The incorporation of renewable energy sources to fulfill the global energy demands has emerged as a crucial aspect in a complete investigation. Various options for generating renewable energy encompass multiple elements, including wind, steam, and water. The objective of the project is to investigate the modeling of Hydroelectric Power as a viable option for the advancement of sustainable green energy. The Hydroelectric power system was modeled using fluid dynamics computational program utilizing up-elements. The highest fluid flow rate of 153.67 liters per minute corresponds to a pumping power of 15,146 Newton meters per second, or a pump efficiency of 27,630%. On the other hand, the minimum flow rate of 95,230 liters per minute results in a pump power of 24,630 Newton meters per second, with an efficiency of 62,049%. Based on the experimental simulation results, it can be inferred that the water hose will function most effectively over a prolonged period with a low flow rate. This is because a minimal u (x, y) value will result in low pressure on the hose. [ABSTRACT FROM AUTHOR] |
