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Welcome to this video overview of the Openiano Gas Turbine, a cuttingedge, nonconventional turbine design that redefines the way we think about energy efficiency, environmental impact, and operational flexibility. Unlike traditional gas turbines, the Openiano Gas Turbine offers a unique configuration with independent components, optimizing performance while maintaining ecofriendly standards. Lets take a closer look at how this system works. Design Overview At the heart of the Openiano Gas Turbine is its proprietary design. Unlike conventional gas turbines, which use a common shaft to connect the compressor, combustor, and turbine, the Openiano system separates each key component for maximum optimization. Here, we have the 1st Openiano Turbine, which drives the generator, and the 2nd Openiano Turbine, which powers the Dual HighSpeed Compressor. This configuration allows for greater operational flexibility and efficiency. Compressor Functionality Let’s start with the compressor. The Dual HighSpeed Compressor supplies pressurized air to the compressor tank. From there, the highpressure air is directed to 12 combustion chambers, where it plays a key role in the combustion process. It’s important to note that in this design, the compressed air doesn’t go directly to the turbine. Instead, it is first collected in the compressor tank. This allows the system to control the pressure and flow of air before it enters the combustion chambers, ensuring better combustion efficiency and reduced emissions. Combustion Process The combustion chambers in the Openiano Gas Turbine are the heart of the system. These 12 chambers are not ignited simultaneously. Instead, they follow a sequential ignition process. Every 1.5 seconds, the next combustion chamber is ignited in a carefully timed cycle. This means that it takes 18 seconds for each combustion cycle to complete, with the ignition sequence cycling back to the first chamber after the 12th. This unique approach helps achieve more complete combustion, significantly reducing carbon emissions and increasing fuel efficiency. The H.P. air and natural gas enter each combustion chamber and are ignited by a spark igniter. The rapid expansion of the airfuel mixture results in highpressure air that is expelled to the main collecting tanks. Environmental Benefits and CO2 Reduction A key advantage of the Openiano Gas Turbine is its ecofriendly performance. The combustion temperature inside the chambers is maintained below 600C, a critical threshold for reducing nitrogen oxide NOx emissions. Traditional gas turbines can reach temperatures above 1,400C, leading to higher NOx emissions. In contrast, the Openiano Gas Turbine produces less than 2 parts per million ppm of NOx, far lower than the 15 ppm typically seen in other systems. This lower temperature not only helps reduce NOx but also lowers CO2 emissions. Additionally, the system’s design includes a recovery process where remnant air from the combustion chambers is sucked out and recirculated back to the compressor, further reducing emissions. AirEductors and Turbine Operation Now, lets dive into the turbine section. Unlike traditional turbines that are driven by hot gases from the combustor, the Openiano Gas Turbine uses highvelocity water to turn the turbine blades. The highpressure air from the main collecting tanks is used as the motive force for the aireductors. These aireductors increase the velocity of the water coming from the pressurized water tank. The resulting highvelocity water is then used to drive the turbine blades, significantly increasing the energy output compared to using just highpressure air alone. System Design and Versatility The Openiano Gas Turbine is vertically oriented, which allows for efficient disposal of the discharge water. It also features multiple turbine stages—three are shown here, but additional stages can be added for even more versatility. The system’s ability to handle multiple stages and additional layers of aireductors makes it highly adaptable to various operational needs, pushing the boundaries of conventional gas turbine designs. In summary, the Openiano Gas Turbine represents a revolutionary approach to gas turbine technology. With its unique design, enhanced fuel efficiency, reduced emissions, and innovative use of waterpowered turbine blades, it’s a technology that promises to make conventional gas turbines obsolete. Thank you for watching, and we hope this video has provided you with a clear understanding of how the Openiano Gas Turbine works and its significant advantages over traditional systems.