Powering Remote Areas: The Best Mix of Green Energy

In the quest for sustainable energy, especially in far-off places, a recent study took a deep dive into a unique energy system. This system combines solar power, wind energy, biomass, and batteries in a single setup. The goal? To figure out the best way to size up these components for the lowest cost and most reliable power. The study used some clever math tricks, like the osprey optimization algorithm (OOA), zebra optimization algorithm (ZOA), and flying foxes optimization (FFO) algorithm. These algorithms helped determine the best mix of solar panels, wind turbines, biomass, and batteries. The research focused on a specific location: Tabuk, Saudi Arabia. This area has a unique climate, with plenty of sun and wind, making it a great testbed for this kind of energy system. The study aimed to meet certain standards for power reliability and excess energy. The study looked at three types of batteries: flooded lead-acid, lithium iron phosphate (LFP), and nickel iron (Ni-Fe). These batteries were tested to see which one worked best with the energy system. The results showed that the zebra optimization algorithm (ZOA) was the most effective. It provided electricity at the lowest cost of 0. 1285 $/kWh in one setup, with the LFP battery having the lowest net present cost (NPC) of 3. 8 M$.The zebra optimization algorithm also showed great stability and accuracy. It had a tight objective function range and lower relative error metrics, making it a strong choice for optimizing this type of energy system. The study highlights the potential of this integrated approach to make off-grid hybrid microgrid systems more affordable and reliable. This is especially important in arid and semi-arid regions, where traditional power sources can be challenging. The research also underscores the importance of using the right optimization algorithms and battery technologies. These factors can significantly impact the cost and reliability of renewable energy systems in remote areas. The study's findings could pave the way for more efficient and cost-effective renewable energy solutions. It shows that with the right mix of technologies and smart optimization, even the most remote areas can have access to reliable and affordable power.