Hydrogene (H2) combustion with oxygen (O2) engine generates only H20 !
Hydrogen: Why?
The environmental challenges posed by fossil fuels are well known, and hydrogen presents a promising alternative. When hydrogen (H₂) combusts with oxygen (O₂) from the air, the byproduct is simply water (H₂O), making it a clean energy source. On a large scale, hydrogen offers a sustainable solution to our energy needs. On a smaller scale, it opens up exciting possibilities for innovative engine designs, starting with the smallest and most efficient engines ever conceived.
Hydrogen: How?
Traditionally, hydrogen has been used in piston engines and fuel cells. However, SCORE introduces a groundbreaking approach by replacing the conventional up-and-down piston movement with a rotary chamber, creating a new paradigm in hydrogen-powered engine design. This rotary motion promises greater efficiency and smoother operation compared to traditional engines.
Hydrogen: Challenges
Hydrogen presents unique challenges in combustion engines. Typically, fuel serves three functions: cooling, lubrication, and providing the chemical energy for combustion. Hydrogen, however, is the smallest and lightest element, and it doesn’t offer the same lubricating properties as conventional fuels. It tends to leak easily, and its combustion generates higher temperatures and stronger explosions compared to gasoline or diesel. These extreme conditions can stress engine components, leading to faster wear, particularly in metal parts and valves that erode more quickly.
Hydrogen: SCORE Solutions
SCORE addresses these challenges with innovative solutions. The rotary chamber design redistributes power across multiple chambers, mitigating the strain on any single component. By employing separation chambers, leaks can be captured and recycled into the next combustion cycle, improving efficiency and reducing waste.
One key insight in this new process is that innovation doesn’t stop with the engine. The true breakthrough lies in the crankshaft design, where SCORE’s patented technology resides. By focusing on the crankshaft’s ability to manage and distribute power, SCORE delivers a more durable and efficient solution.
Additionally, ceramics play a critical role in overcoming hydrogen’s challenges. Ceramic materials can withstand the higher temperatures produced by hydrogen combustion, while also reducing leaks, ensuring longevity and stability in the engine’s operation.
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