Unlocking Lunar Green Hydrogen: Tsukuba’s Pioneering Role in Space Innovation

September 20, 2024 | by Unboxify

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Unlocking the Moon’s Potentials: Green Hydrogen Production on the Lunar Surface

🚀 Science City: Tsukuba’s Role in Lunar Exploration

Research labs are ubiquitous across Tsukuba, Japan’s “Science City.” Here, two distinct companies embark on a pioneering mission: to separate moon water into hydrogen and oxygen on the lunar surface. This endeavor is far from a dream; the countdown has already begun.

🔧 Takasago Thermal Engineering: The Pioneers of Lunar Electrolysis

Crafting a Mini Electrolyzer

It has taken Takasago Thermal Engineering four years to develop a mini electrolyzer capable of withstanding the harsh conditions of space travel. The task of adapting this technology for extreme conditions was taken up by Takasago engineer Atsushi Kato. I had exclusive access to the lab where fundamental hydrogen research takes place.

The Challenges

Executing this project on the lunar surface is extremely challenging. One of the major hurdles is the intense vibrations during liftoff. If the electrolyzer remains intact post-lunar landing, it will harness solar energy available for about 10 lunar hours a day (approximately two weeks in Earth time). Operated remotely, the initial plan is to generate hydrogen from water transported from Earth.

🏛️ Takasago’s Legacy and Future

A Century of Innovation

Takasago’s legacy spans over a century, with their ducts and ventilation systems gracing many of Japan’s iconic buildings. With over 700 patents to their name, the company now focuses on green hydrogen as the cornerstone of their future. According to Hiroyuki Muraoka, Takasago’s Executive Officer, the company began studying hydrogen 20 years ago and is now delving into large-scale electrolysis.

Scaling the Mission

Though the electrolyzer for this mission is tiny, this experimental venture will yield essential data to help develop more efficient and user-friendly machines in collaboration with interested companies. “Yes, to do what you’re talking about requires scale,” Muraoka concedes. “This mission will provide pivotal insights for future developments.”

🔭 Partnerships: Hitching a Ride with ispace

The Road to the Moon

To reach the lunar surface, Takasago has partnered with ispace, a company founded in the global race to the moon 11 years ago. As an early investor, Takasago has secured a spot on ispace’s second attempt to land a lunar module, slated for launch on a SpaceX rocket in the fourth quarter of 2024.

Insights from Chief Technology Officer Ryo Ujiie

I had the opportunity to speak with Ryo Ujiie, ispace’s Chief Technology Officer, to discuss the physical features of their lunar lander. He revealed that 70% of the lander’s mass is propellant. The ultimate goal is to produce enough hydrogen through electrolysis on the moon, potentially reducing the need to carry such substantial amounts of propellant.

🏛️ Government Support: Fostering Space Innovation

Public/Private Sector Collaboration

Unlike other nations relying heavily on wealthy individuals, Japan fosters a collaborative approach between public and private sectors. Earlier this year, the Japanese government launched a $6 billion fund to support private space ventures, helping companies like ispace grow.

🔬 The Science Behind Lunar Electrolysis

Physicist Hitoshi Murayama’s Insights

Physicist Hitoshi Murayama shed light on the experiment’s viability. The most pressing challenge is extracting water on the lunar surface. Although it is believed that water is hidden within the lunar soil, separating it from unwanted material is a complex task. However, once accomplished, water splitting into hydrogen and oxygen is a well-understood process.

The Realism of the Mission

Murayama believes that the mission is feasible in principle. “The critical question is the efficiency of the process,” he points out. Current reliance on solar power means substantial energy is required for the splitting process.

🌌 Dreaming Big: A Look to the Future

Looking forward, numerous obstacles still need to be overcome—getting to the moon, extracting and processing lunar water, and scaling up production to make sufficient hydrogen for fuel. Yet for now, the pursuit of this mission continues to ignite our imaginations and aspirations, propelling both scientific progress and human curiosity to new heights.

  • Separation of moon water into hydrogen and oxygen
  • Four-year development of a mini electrolyzer
  • Partnership with ispace for lunar landing
  • $6 billion government fund to boost private space ventures
  • Insights from experts on the mission’s viability

As humanity stands at the verge of groundbreaking innovations in space exploration, the endeavor to produce green hydrogen on the lunar surface promises to open new frontiers, echoing our infinite capacity to dream and achieve. 🚀🌕🌌

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