The hydraulic mini-reactor is easy to operate and can be adapted to a number of machines in different fields. Firstly, a cylinder in the center of the reactor acts as a propeller. Six turbines are installed in the cylinder. The speed of the water accelerates these turbines without ever stopping, making it a hydro-autonomous propulsion system. At the center is the so-called "placebo", an energy receiver that converts the energy leaving the turbines into electrical current. This structure operates simultaneously, enabling the reactor to generate energy and power itself without interruption.
Project presentation
Here's an original project, the Electric Hydraulic Propulsion Reactor (EHPR), which dates back many years and is in the archives. We're updating it today to facilitate the well-being and future of everyone.
The mini-hydraulic reactor is easy to operate and can be adapted to several machines in different fields. Here's a detailed explanation of how it works in four steps:
Stage 1: Initial propulsion
At the heart of the reactor is a central cylinder that serves as the thruster. This cylinder is designed to harness the force of moving water. When a flow of water enters the cylinder, it is directed to maximize water pressure and velocity, initiating the propulsion process.
Stage 2: Turbine acceleration
Six turbines are strategically positioned inside the cylinder. As water velocity increases, these turbines are continuously accelerated. Thanks to a precise guidance system, the water keeps the turbines in constant rotation without ever stopping, guaranteeing hydro-autonomous propulsion. This continuous rotation mechanism is essential for the reactor's stability and efficiency.
Stage 3: Energy conversion
At the center of the reactor is a device we call the "placebo". This energy receiver plays a crucial role in converting the mechanical energy generated by the turbines into electrical energy. This conversion process is carried out using state-of-the-art materials and technologies to ensure maximum efficiency. The electrical current produced is then ready to be used to power various external devices or systems.
Stage 4: Self-powering and continuous production
The EHPR is designed to operate autonomously. The reactor's structure enables continuous energy production while self-powering. This means that the reactor can generate the energy required for its own operation while producing a usable energy surplus. This cycle of production and self-supply is made possible by an optimized design that minimizes energy losses and maximizes efficiency.
In short, the Electric Hydraulic Propulsion Reactor (EHPR) is a technological innovation that promises to revolutionize the way we produce and use energy. Thanks to its ingenious design and four-stage operation, this mini-hydraulic reactor offers a sustainable and efficient solution for a wide range of industrial and domestic applications.