市場調查報告書
商品編碼
1520604
全球衛星製造與發射系統市場評估:依類型、軌道等級、運載火箭、衛星子系統、應用、最終用戶、地區、機會、預測,2017-2031Satellite Manufacturing and Launch System Market Assessment, By Type, By Orbital Class, By Launch Vehicle, Satellite Subsystem By Application, By End-user, By Region, Opportunities and Forecast, 2017-2031F |
2024-2031年預測期間,全球衛星製造和發射系統市場規模將以12.01%的年複合成長率擴大,從2023年的250.3億美元成長到2031年的620.3億美元。億美元。
太空計畫在支持和轉變經濟方面發揮了重要作用。關鍵的通訊和導航網路是透過軌道衛星運行的,因此各國投資衛星製造和發射系統。最近的趨勢是小型衛星和立方體衛星的採用迅速增加,因為它們成本低且機動性高。
火箭動力的另一個發展趨勢是使用不同類型的燃料。這包括液體推進劑,例如液化天然氣、甲烷和高純度煤油(RP-1)。
先進的衛星發射技術需要更大容量的小型衛星的支援。此外,還需要體積小、重量輕且具成本效益的衛星。這些衛星用於快速週轉時間(TAT)內的地球成像和科學任務。許多銀行和金融機構都安裝了通訊衛星以更佳運作。微型衛星和立方體衛星的出現縮短了衛星的研發和生產。由於勘探和觀測的增加,衛星技術的消耗不斷增加,改變發射系統。人工智慧(AI)和機器學習(ML)的使用透過增強資料處理技術來增加太空交通。這些組件在衛星資料的解釋中發揮著非常重要的作用。
本報告調查了全球衛星製造和發射系統市場,提供市場概況,及依類型、軌道等級、運載火箭、衛星子系統、應用、最終用戶和地區的趨勢,以及進入市場的公司簡介。
Global satellite manufacturing and launch system market is projected to witness a CAGR of 12.01% during the forecast period 2024-2031, growing from USD 25.03 billion in 2023 to USD 62.03 billion in 2031.
Space programs have played an essential role in supporting and transforming economies. As significant communication and navigation networks operate through orbital satellites, nations are investing in satellite manufacturing and launch systems. The recent trend shows a spike in the adoption of minisatellites and cube satellites due to lower cost and higher mobility. For instance, NASA Ames launched 16 CubeSats in December 2006. Furthermore, the entrance of private players in space exploration and communication technology is expanding the market size. Some players are emerging as an alternative with reusable rockets and launching technology.
Another evolving trend in supplying power to the rocket is using different fuel types. It includes liquid propellants such as liquefied natural gas, methane, and highly refined kerosene (RP-1). For instance, China's Landscape Technology Corporation launched the world's first methane-propelled rocket named Zhuque-2 in July 2023, while it delivered three satellites in December. Methane propulsion holds advantages such as lower cost of production, less coking, higher specific impulse, and less complex ignition. The government is setting up research programs to advance satellite manufacturing and promote innovative and efficient launch ideas.
Miniaturization and Nanosatellite to Deliver Opportunities for Space Exploration
The advanced satellite launching technology is powered by small-sized satellites with expanded capacity. Furthermore, compact, lightweight, and cost-effective satellites are in high demand. These satellites are being used for earth imaging and science missions within a quick turn-around time (TAT). Many banking and finance players are setting up their communication satellites for better operations. The advent of nanosatellites or CubeSats has shortened the development and production of satellites. The increased consumption of satellite technology due to increased exploration and observation is transforming the launch system. The utilization of artificial intelligence (AI) and machine learning (ML) has increased space traffic with enhanced data processing technology. These components play a pivotal role in satellite data interpretation.
For instance, space exploration giant SpaceX launched 22 Starlink V2 mini-satellites into orbit. The Falcon 9 rocket carried these mini satellites, which are powerful versions of its earlier Starlink spacecraft. The company has fitted these satellites with hall thruster electric propulsion systems. SpaceX used its reusable Falcon 9 rocket for the launch. Its first-stage booster returned to the Atlantic Ocean.
Another example is the Indian Space Research Organization (ISRO) launching JANUS-1, a software-defined 6U demonstration satellite, in February 2023. The satellite was created entirely on the Antaris software platform within ten months. Furthermore, several payload and subsystem providers around the globe are a part of the mission.
Increased Space Tourism and Advanced Propulsion Tech to Gain Traction in the Market
High-speed global connectivity is thriving upon new communicative measures. New space tourism programs require better space imaging information, so companies structured their payloads and space exploration satellites in various orbits. Space tourism and exploration are expected to push the boundaries of satellite technology and unlock potential around the space ecosystem. The integration of artificial technology, improved space data collection, and increased shelf life are at the center point of satellite manufacturing. From launching systems to sub-systems, the innovation in propulsion is shaping the future satellite launch programs. It allows miniaturized satellites to function in lower orbitals, limiting the overall cost. Furthermore, more powerful satellites and launch systems are driving the satellite manufacturing and launch system market growth.
In December 2023, Blue Origin successfully launched its New Shepard rocket with an uncrewed manifest of 33 NASA scientific payloads. The payloads include components that will study the orbits and deliver better information to help the space exploration program, which will enable humans to travel in space.
Winning the Space Race with Affordable Costs, Greener Fuel, and Successful Satellite Launchers
Cost-effective usage of green fuel and upcoming innovative ideas have enabled governments to invest in the space race. The technologically driven world depends upon satellite communication technology. Emerging economies, such as India and China, are hopping on the space ladder with innovative technology and alternative fuels. The private space sector across the globe is getting investment through governments as they build new launching satellites and launch systems. In May 2023, the government of India announced its space policy in 2023. The objective of the policy is to create a supportive regulatory framework for the promotion of private involvement in all-encompassing space activities. With the implementation of the policy, Indian consumers can purchase space technology or space services, such as communication services, remote sensing services, data launch services, etc., from private or public sources.
Apart from communications and earth observation, governments across the globe use these satellites for defense applications such as surveillance satellites. For instance, China added another surveillance satellite, Yaogan to its orbital fleet in September 2023. The satellite is expected to be a radar reconnaissance satellite with an undisclosed payload.
Improved Internet to Contribute Toward Communication Segment Dominance
Based on application type, the communication application of satellites dominates the market share. The communication satellite segment performs significantly well during the forecast period. Increasing demand for internet services due to high data transmission speeds has led to an increase in the number of communication satellites deployed in low earth orbit (LEO). The military surveillance segment is expected to gain traction throughout the forecast period. The segment is driven by the increasing emphasis on extending satellite networks to enhance military surveillance in developing countries such as China and India.
For instance, in January 2024, ISRO announced its partnership with United States SpaceX to launch its GSAT-20 communication satellite. The satellite weighs 4,700 kg and has been loaded with a Ka-Ka band and a high throughput capacity of 32 beams. ISRO has chosen SpaceX's Falcon 9 rocket for launch in August 2024. The satellite is expected to cover Pan-India along with the unconnected areas of Jammu and Kashmir and Lakshadweep Island.
Private Partnerships and Government Investments to Flourish the North American Market
North America holds a significant share of the global satellite manufacturing and launch system market. The United States has always been a leader in the space race. The growth is attributed to high investments in privately owned space companies. These companies work on reusable, sustainable, and affordable satellite technologies. For instance, in June 2023, the National Aeronautics and Space Administration declared its partnership with seven United States private companies, including SpaceX, Blue Origin, and Northrop Grumman. The partnership is expected to focus on helping these organizations with low-earth orbit space missions. In May 2023, A Blue Origin-led team won a USD 3.4 billion contracts from NASA to construct a spacecraft to transport and land on the moon. NASA's selection of Blue Origin is expected to give the company a second chance to send astronauts to the moon under the Artemis program. Developments like these are helping many startups that work for satellite technology and launch systems.
Key Players Landscape and Outlook
The satellite manufacturing and launch system market holds potential for new entrants, while established key players focus on enhancing the supply chain and technological advancements. The competitors experiment with satellite size, fuel, propulsion, and network bandwidths. Furthermore, brands commence government projects efficiently. It involves satellite manufacturing, deployment, subsystem development, and launching operations. An edge-to-edge competition can be witnessed between more space-prominent exploration companies for taking government projects. The companies work on low-carbon aviation, autonomous controls, and different components of the fourth industrial revolution. For instance, SpaceX uses an AI-enabled autopilot that guides the satellite for autonomous operations such as docking with the International Space Station.
In August 2023, Lockheed Martin Corporation received a firm-fixed-price agreement valued at around USD 816 million from the Space Development Agency (SDA). The agreement involved building 36 tranches and 2 transport layer (T2TL) Beta satellites. T2TL is part of an extension plan that enhances deterrence with highly resilient space structures. The communication network satellite is structured for beyond-line-of-sight (BLOS) targeting, advanced missile detection and tracking, and data transport.
In January 2023, Airbus SAS tied contact with the Belgian Ministry of Defense to deliver tactical satellite communication services to Belgian armed forces for a contract period of 15 years. Airbus-built commercial telecommunications satellite will be used by the Belgian Armed Forces through channels provided by the Air Force's payload on board for commercial telecommunications satellite.
All segments will be provided for all regions and countries covered
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work