Japan tests rotating detonation engine for the first time in space – Inceptive Mind

The Japan Aerospace Exploration Agency (JAXA) has announced that it has successfully demonstrated the operation of a “rotating detonation engine” for the first time in space. The novelty of the technologies in question is that such systems obtain a large amount of thrust by using much less fuel compared to conventional rocket engines, which is quite advantageous for space exploration.

On July 27, the Japanese agency launched a pair of futuristic propulsion systems into space to carry out the first tests. They were launched from the Uchinoura Space Center aboard the S-520-31, a single-stage rocket capable of lofting a 220 lbs (100 kg) payload well above 186 miles (300 km). After recovering the rocket from the ocean, the JAXA team of engineers analyzed the data and confirmed the success of the mission, which put the new system at an estimated altitude of (146 miles) 234.9 km.

The rotating detonation engine uses a series of controlled explosions that travel around an annular channel in a continuous loop. This process generates a large amount of super-efficient thrust coming from a much smaller engine using significantly less fuel – which also means sending less weight on a space launch. According to JAXA, it has the potential to be a game-changer for deep space exploration.

The rocket began the test demonstrations after the first stage separated, burning the rotating detonation engine for six seconds, while a second pulse detonation engine operated for two seconds on three occasions. The pulse engine uses detonation waves to combust the fuel and oxidizer mixture.

When the rocket was recovered after the demonstration, it was discovered that the rotary engine produced about 500 Newtons of thrust, which is only a fraction of what conventional rocket engines can achieve in space.

According to JAXA engineers, the successful in-space test has greatly increased the possibility that the detonation engine will be used in practical applications, including in rocket motors for deep space exploration, first-stage, and two-stage engines, and more. The engines could indeed allow us to travel deep into space using a fraction of the fuel and weight, which will be critical in interplanetary journeys.

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