China Confirms Crewed Lunar Landing by 2030, Plans Permanent Moon Base by 2035 to Harness Helium-3 Energy

China has officially confirmed that its first crewed lunar landing will take place by 2030, with all research, development, and construction work said to be progressing “smoothly.” The announcement, made by senior officials of the China National Space Administration (CNSA), reinforces Beijing’s long-term strategy to not only reach the Moon but also stay there permanently. By 2035, China aims to establish a fully functional lunar base, designed for continuous operations and resource extraction — particularly of Helium-3 (He-3), a rare isotope that could serve as a clean and virtually limitless source of energy for humanity.

The Path to 2030: Human Lunar Landing

China’s lunar program, known as the Chang’e Project, has evolved steadily over two decades. Having already achieved robotic sample return with Chang’e-5 in 2020, and far-side exploration with Chang’e-4, the upcoming Chang’e-7 (around 2026) and Chang’e-8 (by 2029) missions will focus on the Moon’s south polar region. This area is considered ideal for human habitation due to its near-constant sunlight and possible water ice deposits — essential for life support and rocket fuel production.

The crewed landing mission, expected by 2030, will be carried out using a new Long March 10 heavy-lift rocket and a next-generation crewed spacecraft capable of lunar orbit insertion and return. The astronauts are likely to spend several days conducting surface operations, testing life-support systems, and setting up initial infrastructure for future missions.

The 2035 Vision: Building a Lunar Base

Following the landing, the next phase of China’s plan will focus on creating a permanent lunar outpost, often referred to as the International Lunar Research Station (ILRS). Jointly planned with Russia, and open to participation from other countries, the ILRS will consist of modular habitats, scientific labs, solar and nuclear power plants, and automated mining systems.

According to CNSA’s roadmap, the lunar base will support both robotic and human crews, with supply chains from Earth supplemented by in-situ resource utilization (ISRU) — using lunar materials to build and sustain operations. China has already simulated closed-loop habitats on Earth (such as Yuegong-1) and is testing 3D printing methods to construct structures using lunar regolith.

The Energy Ambition: Helium-3 Extraction

At the core of this grand vision lies Helium-3, a rare isotope of helium deposited in the Moon’s surface soil by solar winds. Unlike conventional fusion fuels, Helium-3 can produce energy without generating harmful radioactive waste, making it an ideal candidate for clean nuclear fusion. Scientists estimate that the Moon could contain millions of tons of this isotope — enough to meet Earth’s energy demands for centuries if fusion technology becomes commercially viable.

China’s long-term goal is to mine and transport Helium-3 from the lunar surface to Earth. Specialized lunar mining systems and magnetic launch platforms are being studied to reduce the cost of bringing extracted materials back. If successful, Helium-3 could revolutionize global energy systems, making the Moon not just a scientific frontier but an energy hub for humanity’s future.

Strategic and Technological Implications

China’s lunar program is more than a scientific pursuit — it’s a strategic milestone in space leadership. A successful manned landing followed by a permanent base would place China ahead of its global competitors in establishing a long-term presence beyond Earth. Moreover, the pursuit of Helium-3 aligns with China’s domestic drive for clean energy independence, potentially reducing reliance on fossil fuels and reshaping the global energy economy.

However, major challenges remain. Extracting He-3 from lunar soil is technologically demanding; concentrations are extremely low, requiring massive processing volumes. Additionally, fusion reactors capable of using He-3 fuel are still in experimental stages. Maintaining human operations on the Moon also presents difficulties — from radiation protection and thermal control to life-support and transport logistics.

A New Space Era

If China’s plan proceeds on schedule, the 2030s could mark the beginning of a new space age — one where the Moon becomes an extension of human civilization rather than a distant goal. By combining technological innovation, strategic foresight, and resource-driven ambition, Beijing’s vision seeks to transform the Moon into both a scientific stronghold and a sustainable energy source.

As the world watches this unfolding lunar race, the success of China’s program could redefine not only who leads in space — but also how humanity powers its future.