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市場調查報告書
商品編碼
1733795
全球太空採礦市場規模(按階段、應用、小行星類型、區域覆蓋和預測)Global Space Mining Market Size by Phase (Spacecraft Design, Launch, Operation), By Application (Construction, Resource Harvesting, 3D Printing), By Asteroid Type (Type C, Type S, Type M), By Geographic Scope And Forecast |
預計 2024 年太空採礦市場規模將達到 143.3 億美元,到 2032 年將達到 372.5 億美元,2026 年至 2032 年的複合年成長率為 12.68%。
太空採礦是從小行星、行星和衛星中提取有價值的礦物、金屬和其他資源,尋求利用外星礦物獲取經濟利益,同時可能促進太空研究並減少地球上的資源枯竭。
太空採礦是從小行星和天體中獲取金屬、礦物和水等寶貴資源的過程,這些資源可以為太空探勘提供關鍵礦物,促進地球的永續發展,甚至在太空中開啟新的經濟機會。
太空採礦是從小行星和其他天體中提取寶貴資源的嘗試,它有可能透過提供稀有礦物和金屬、促進太空殖民、緩解地球資源枯竭以及促進太空探勘技術和經濟進步來徹底改變工業。
影響全球太空採礦市場的關鍵市場動態是:
關鍵市場促進因素
資源需求不斷成長:到2030年,全球對稀土元素的需求預計將達到每年31.5萬噸。稀土元素對電子和綠色能源等技術至關重要。這一成長將催生一個價值60億美元的產業,並激發人們對太空開採這些豐富元素的興趣。
太空技術的進步:太空採礦是全球太空產業的重要組成部分,美國商務部估計,到 2040 年,全球太空產業將成為一個數兆美元的產業。太空技術的進步使這個雄心勃勃的願景變得更加可行,並有可能改變整個產業。
投資不斷成長:美國地質調查局預測,到2025年,小行星採礦的價值可能達到500億美元,目前正吸引大量投資。高額回報和豐富資源的潛力,正在推動資金支持和技術創新,推動太空採礦計畫的發展。
主要挑戰
初始投資成本高:根據美國國家航空暨太空總署(NASA)2023年的一項研究,單一小行星採礦任務的估計費用在500億美元至1000億美元之間。如此高的初始成本對許多企業來說構成了巨大的進入門檻。
技術限制:根據2024年歐洲太空總署(ESA)的評估,目前只有約30%的太空採礦所需技術達到技術完備等級(TRL)6或以上,這是太空應用的最低標準。
監管不確定性:截至2024年,僅有五個國家(美國、盧森堡、阿拉伯聯合大公國、日本和中國)頒布了針對太空資源利用的國內立法。缺乏清晰的國際框架給潛在投資者帶來了困惑。
長期投資收益(ROI) 時間框架:美國商務部太空商務辦公室的一份報告估計,大多數太空採礦企業的損益平衡點將在營運開始後 15-20 年。
主要趨勢:
更重視水資源:雖然鉑金和黃金等貴金屬越來越受到關注,但人們對開採富含水的小行星(C 型小行星)的興趣也日益濃厚,這些小行星可能是太空中的重要資源,既可以為火箭提供動力,也可以為未來太空定居點的人類生活提供支持。
太空船設計與發射技術的進步:太空採礦任務需要功能強大、經濟高效的太空船,能夠遠距飛行並在惡劣的太空環境中運作。可重複使用的火箭和更有效率的引擎的研發對於實現太空採礦的獲利能力至關重要。
探索地外應用:從太空開採的資源將不僅限於地球。開採的材料未來可用於建造衛星、太空站,甚至月球基地。利用地外材料進行 3D 列印也是一項頗具吸引力的技術。
Space Mining Market size was valued at USD 14.33 Billion in 2024 and is projected to reach 37.25 USD Billion by 2032 growing at a CAGR of 12.68% from 2026 to 2032.
Space mining is the extraction of precious minerals, metals and other resources from asteroids, planets and moons. It seeks to use alien minerals for economic gain, while also promoting space research and potentially decreasing Earth's resource depletion.
Space mining is the process of harvesting valuable resources such as metals, minerals and water from asteroids and celestial bodies. This might provide critical minerals for space exploration, encourage sustainable development on Earth and even open up new economic opportunities in space.
Space mining seeks to extract valuable resources from asteroids and other celestial bodies, potentially revolutionizing industries by providing rare minerals and metals, promoting space colonization and mitigating Earth's resource depletion, thereby driving technological and economic advancements in space exploration.
The key market dynamics that are shaping the global space mining market include:
Key Market Drivers:
Growing Demand for Resources: By 2030, the global demand for rare earth elements, which are critical in technologies such as electronics and green energy, is predicted to reach 315,000 tons per year. This boom creates a $6 billion industry, which sparks interest in space mining for these rich elements.
Advancement in Space Technology: Space mining is a crucial component of the global space industry, which the US Department of Commerce estimates will be worth USD 1 Trillion by 2040. Advances in space technology are making this ambitious vision more feasible, with the potential to change the industry.
Increasing Investments: Asteroid mining, which the US Geological Survey predicts would be worth USD 50 Billion by 2025, is attracting significant investment. The possibility for large returns and resource abundance drives financial backing and innovation in space mining ventures.
Key Challenges:
High Initial Investment Costs: According to NASA research from 2023, the estimated cost of a single asteroid mining trip ranges between USD 50 Billion and USD 100 Billion. This large initial cost is a substantial barrier to entry for many businesses.
Technological Limitations: According to a 2024 European Space Agency (ESA) assessment, only around 30% of the technologies required for space mining are currently at a Technology Readiness Level (TRL) of 6 or higher, the minimum for space applications.
Regulatory Uncertainties: As of 2024, just five countries (the United States, Luxembourg, the United Arab Emirates, Japan and China) currently have national legislation addressing space resource utilization. The lack of a clear international framework causes confusion for potential investors.
Long Return on Investment (ROI) Timeframe: A report from the U.S. Department of Commerce's Office of Space Commerce estimated that the break-even point for most space mining ventures is likely to be 15-20 years from the start of operations.
Key Trends:
Growing Focus on Water Resources: While precious metals like as platinum and gold attract attention, there is a growing interest in mining water-rich asteroids (C-type). This water might be a vital resource in space, driving rockets or supporting human life in future space settlements.
Advancements in Spacecraft Design and Launch Technologies: Space mining missions require strong and cost-effective spacecraft that can travel long distances and operate in hostile space settings. Developments in reusable rockets and more efficient engines are critical to making space mining profitable.
Exploration of Applications Beyond Earth: The resources taken from space are not limited to Earth. The mined materials might be utilized to build satellites, space stations and possibly future lunar outposts. Another fascinating technology is 3D printing using extra-terrestrial materials.
Here is a more detailed regional analysis of the global space mining market:
North America:
According to Verified Market Research, North America is expected to dominate the global space mining market.
North America is expected to dominate the global space mining market because to advanced space technology, significant investments and a favorable regulatory environment. The region offers a solid infrastructure, top companies and major financing for research and development in space exploration and mineral exploitation.
The U.S. Commercial Space Launch Competitiveness Act of 2015 increased commercial interest by establishing legal mechanisms for resource recovery. This legislative support, together with the presence of large corporations and technological expertise, establishes North America as the dominating force influencing the future of space mining and resource exploitation.
Asia Pacific:
According to Verified Market Research, Asia Pacific is fastest growing region in global space mining market.
Asia-Pacific is the fastest-growing area in the worldwide space mining market, owing to large investments, quick technical breakthroughs and a strategic focus on extending space exploration capabilities.
Countries such as China and Japan are heavily investing in space technologies and infrastructure, hoping to capitalize on the immense resources available in space. Government initiatives and increasing cooperation with private enterprises help to drive growth.
The region's powerful aerospace sector and supporting regulations have contributed to its rapid growth, establishing Asia-Pacific as a vital player in the future of space mining and resource extraction.
The Global Space Mining Market is segmented based on Phase, Asteroid Type, Application and Geography.
Based on Phase, the Global Space Mining Market is divided into Spacecraft Design, Launch and Operation. Spacecraft Design dominates the global space mining industry since it entails the creation of modern spacecraft required for missions. Investment in innovative design ensures efficient resource extraction and transportation, which lays the groundwork for successful space mining operations. This phase is critical for ensuring the viability of succeeding stages.
Based on Application, Global Space Mining Market is divided into Construction, Resource Harvesting and 3D Printing. In the worldwide space mining industry, resource harvesting is the most popular application. This industry focuses on mining precious minerals and metals from asteroids and other celestial bodies in order to meet the growing demand for rare earth elements and support a wide range of commercial applications, including electronics and green technologies.
Based on Asteroid Type, Global Space Mining Market is divided into Type C, Type S and Type M. Type C asteroids dominate the global space mining market because they are abundant and contain large concentrations of water, carbon, and critical minerals. These asteroids are extremely important because to their abundance of materials, which are critical for the survival of future space missions and life in space.
Based on the Geography, the Global Space Mining Market divided into North America, Europe, Asia Pacific and Rest of the World. North America is projected to dominate the global space mining industry owing to superior technology, large investments, and favorable policies. Asia-Pacific is the fastest-growing area, because to rapid technical developments, increased investment, and an emphasis on developing space exploration and resource extraction technology.
Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share and market ranking analysis of the above-mentioned players globally.