太空產業環境永續性的成長機會

Growth Opportunities for Environmental Sustainability in the Space Industry

出版日期: 2024年11月15日 | 出版商:

Frost & Sullivan | 英文 68 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

促進太空經濟環境永續性的創新、法規結構和合作策略

在世界應對氣候變遷的迫切需求的支持下，太空產業正迅速發展成為環境永續性的關鍵驅動力。本研究重點關注衛星技術、創新製造流程和戰略夥伴關係關係的進步如何塑造永續太空營運的未來，並為該領域的市場參與企業和相關人員識別關鍵的成長機會。隨著對基於衛星的環境解決方案的需求迅速成長，合成孔徑雷達（SAR）和高光譜遙測影像等技術使得對重要環境變量的精確監測成為可能。這些進步將支持農業、能源、城市規劃和自然資源管理等各產業的永續性努力，同時也有助於實現聯合國永續發展目標（SDG）等全球目標。本報告還強調了積層製造和在軌服務、組裝和製造（ISAM）技術的變革潛力。積層製造有助於生產更輕、更有效率的衛星零件，降低發射成本和排放。 ISAM 提供創新的在軌維護解決方案，延長衛星的使用壽命並最大限度地減少太空碎片。這些技術將共同提高營運效率並促進整個太空價值鏈的永續性。航太部門必須克服諸如高昂的初始成本、不斷變化的監管環境以及碎片管理的技術複雜性等挑戰。但透過利用先進的分析、促進國際合作以及投資尖端綠色技術，太空產業走向更永續的未來，無論是在地球上還是在軌道上。

太空火箭和地面區隔
太空火箭和地面區隔：推進劑
競爭格局：推進劑
太空火箭和地面區隔：可重複使用的火箭
競爭格局：太空火箭
太空火箭和地面區隔：製造
競爭格局：積層製造技術
市場成熟度與時間範圍：太空火箭和地面領域的永續技術

太空的永續性

太空的永續性
太空永續性：太空碎片清除和脫軌系統
競爭格局：ADR
太空永續性：在軌定序
競爭環境：在軌定序
太空永續性：軌道堵塞
競爭環境：SSA和STM公司
太空永續性：反衛星測試
市場成熟度和時間範圍：軌道上的永續性

永續性法規和舉措

與太空永續性相關的主要法規和舉措

成長機會領域

成長機會1：環保應用
成長機會2：積層製造技術
成長機會3：在軌服務、組裝和製造（ISAM）

附錄與後續步驟

成長機會的好處和影響
行動項目和後續步驟
附件清單
免責聲明

簡介目錄

Product Code: KA8E-66

Technological Innovations, Regulatory Frameworks, and Collaborative Strategies to Drive Environmental Sustainability in the Space Economy

The space industry is rapidly evolving as a critical driver of environmental sustainability, underpinned by the urgent global need to combat climate change. This study identifies the key growth opportunities for market participants and stakeholders in the sector, focusing on how advancements in satellite technology, innovative manufacturing processes, and strategic partnerships are shaping the future of sustainable space operations. As demand for satellite-enabled environmental solutions surges, technologies such as synthetic aperture radar (SAR) and hyperspectral imaging are enabling precise monitoring of critical environmental variables. These advancements support sustainability efforts across industries, including agriculture, energy, urban planning, and natural resource management, while contributing to global objectives like the United Nations' sustainable development goals (SDGs). The report also highlights the transformative potential of additive manufacturing and in-orbit servicing, assembly, and manufacturing (ISAM) technologies. Additive manufacturing facilitates the production of lighter, more efficient satellite components, reducing launch costs and emissions. ISAM offers innovative solutions for in-orbit maintenance, extending satellite lifespans and minimizing space debris. Together, these technologies enhance operational efficiency and drive sustainability across the space value chain. The space sector has to navigate challenges such as high initial costs, evolving regulatory landscapes, and the technical complexities of debris management. However, by leveraging advanced analytics, fostering international collaboration, and investing in cutting-edge green technologies, the industry is well-positioned to lead the charge toward a more sustainable future, both on Earth and in its orbit.

Strategic Imperatives

Why is it Increasingly Difficult to Grow?
The Strategic Imperative 8™
The Impact of the Top 3 Strategic Imperatives on Environmental Sustainability in the Space Industry
Growth Opportunities Fuel the Growth Pipeline Engine™

Growth Opportunity Analysis

Growth Drivers
Growth Drivers Analysis
Growth Restraints
Growth Restraint Analysis
Project Outline

Aligning the Space Industry with the UN SDGs

UN SDGs
SDGs
Economic Development Goals
Environmental Development Goals
Technologies-Key Applications

Sustainability of the Space Launch Vehicles and the Ground Segment

Space Launch Vehicles and the Ground Segment
Space Launch Vehicles and the Ground Segment-Propellants
Competitive Landscape-Propellants
Space Launch Vehicles and the Ground Segment-Reusable Launch Vehicles
Competitive Landscape-Space Launch Vehicles
Space Launch Vehicles and the Ground Segment-Manufacturing
Competitive Landscape-Additive Manufacturing
Market Maturity vs. Time Horizon-Sustainable Technologies for the Space Launch Vehicles and the Ground Segment