市場調查報告書
商品編碼
1554274
太空推進系統市場規模、佔有率和成長分析:按平台、推進類型、組件和地區 - 產業預測,2024-2031 年Space Propulsion Systems Market Size, Share, Growth Analysis, By Platform, By Propulsion Type, By Component, By Region - Industry Forecast 2024-2031 |
2022年全球太空推進系統市場規模將為61億美元,預測期間(2024-2031年)複合年成長率為21.2%,從2023年的74億美元增加至2031年的344億美元,預計還會成長。
全球太空推進系統市場是一個充滿活力且快速發展的領域,對於太空探勘和太空應用至關重要。這個市場包括推進系統的建造和實施,使太空船能夠在太空中機動、導航和推進。它對於支援各種太空任務至關重要,包括衛星部署、深空探勘和其他與太空相關的活動。該市場對於實現衛星定位、軌道控制、太空船推進、軌道調整和行星際導航等目標至關重要,是由通訊、廣播、天氣預報和導航等衛星服務不斷成長的需求所推動的。此外,人們對太空探勘和商業太空旅行的興趣日益濃厚,正在刺激尖端推進技術的發展。電力推進、離子推進器和太陽帆等技術創新提高了燃料效率、延長了使用壽命並提高了任務能力,進一步推動了市場成長並吸引了馬甦的大量研發投資。
Global Space Propulsion Systems Market size was valued at USD 6.1 Billion in 2022 and is poised to grow from USD 7.4 Billion in 2023 to USD 34.4 Billion by 2031, at a CAGR of 21.2% during the forecast period (2024-2031).
The Global Space Propulsion Systems Market is a dynamic and swiftly advancing sector pivotal to space exploration and utilization. This market encompasses the creation and implementation of propulsion systems that allow spacecraft to maneuver, navigate, and propel within space. It is integral for supporting various space missions, including satellite deployment, deep space exploration, and other space-related activities. Essential for achieving goals such as satellite positioning, orbit control, spacecraft propulsion, trajectory adjustments, and interplanetary travel, the market is driven by rising demand for satellite services in telecommunications, broadcasting, weather forecasting, and navigation. Additionally, the burgeoning interest in space exploration and commercial space travel is spurring the development of cutting-edge propulsion technologies. Innovations in electric propulsion, ion thrusters, and solar sails, which enhance fuel efficiency, extend operational lifetimes, and boost mission capabilities, are further propelling market growth and drawing substantial investments in research and development.
Top-down and bottom-up approaches were used to estimate and validate the size of the Global Space Propulsion Systems market and to estimate the size of various other dependent submarkets. The research methodology used to estimate the market size includes the following details: The key players in the market were identified through secondary research, and their market shares in the respective regions were determined through primary and secondary research. This entire procedure includes the study of the annual and financial reports of the top market players and extensive interviews for key insights from industry leaders such as CEOs, VPs, directors, and marketing executives. All percentage shares split, and breakdowns were determined using secondary sources and verified through Primary sources. All possible parameters that affect the markets covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analyzed to get the final quantitative and qualitative data.
Global Space Propulsion Systems Market Segmental Analysis
Global Space Propulsion Systems Market is segmented on the basis of Platform, Propulsion type, Component, Orbit, Support Service, End-user and Region. By Platform, the market is segmented into c Satellite (CubeSats, Small Satellites (Nanosatellites, Microsatellites, Minisatellites), Medium Satellites and Large Satellites), Capsules/Cargo (Crewed Spacecraft or Human Space Flight and Uncrewed or Unmanned Spacecraft), Interplanetary Spacecraft & Probes, Rovers/ Spacecraft Landers, and Launch Vehicles (Small Launch Vehicles, Medium to Heavy Launch Vehicles and Reusable Launch Vehicles). By Propulsion type, the market is segmented into Chemical propulsion (Solid (Homogeneous and Heterogeneous/Composites), Liquid (Monopropellant (Non-Green and Green), Biopropellant (Cryogenic and Hypergolic)), Hybrid and cold gas), non-chemical propulsion (Electric or Ion Propulsion (Electrothermal (Argon, Hydrogen and Others), Electromagnetic (PTFE), Electrostatic (Xenon, Krypton and Others)), and Solar Propulsion (Solar Sail Propulsion, Solar Electric Propulsion and Solar Thermal Propulsion), Tether Propulsion, Nuclear Propulsion and Laser Propulsion)). By Component, the market is segmented into Thrusters (Chemical Propulsion Thrusters (Cold & Warm Gas Thrusters, Monopropellant Thrusters, Bipropellant Tanks), and Electric Propulsion Thrusters (Gridded Ion Engines or Ion Thrusters (GIE), Hall- Effect Thrusters (HET), Pulsed Plasma Thruster (PPT) and Magneto Plasma Dynamic (MPD) Thruster)), Propellant Feed Systems ( Propellant Tanks (Monopropellant Tanks, Bipropellant Tanks, Oxidizer Tanks) , Pressure & Flow Regulators, Valves, Turbo Pumps and Combustion Chamber), Rocket Motors, Nozzles, Propulsion Thermal Control, Power Processing Units, and Others. By Orbit, the market is segmented into Low Earth Orbit (LEO), Medium Earth Orbit (MEO), Geosynchronous Earth Orbit (GEO) and Beyond Geosynchronous Earth Orbit. By Support Service, the market is segmented into D Design, Engineering, Operation & Maintenance, Hot Firing & Environmental Test Execution and Fuelling & Launch, and Ground Support. By End User, the market is segmented into Commercial (Satellite Operators & Owners and Space Launch Service Providers), and Government & Defense (Department of Defense, National Space Agencies and Others). By region, the market is segmented into North America, Europe, Asia Pacific, Middle East & Africa, and Latin America.
Drivers of the Global Space Propulsion Systems Market
The global space propulsion systems market is experiencing robust growth due to the increasing demand for satellite constellations and rising ambitions in space exploration. As satellite-based services like global broadband connectivity and Earth observation expand, satellite constellations have emerged, necessitating advanced propulsion systems for precise positioning, orbital adjustments, and satellite rendezvous and deorbiting. Notably, projects like SpaceX's Starlink, which aims to deploy thousands of small satellites in low Earth orbit, exemplify the need for sophisticated propulsion technology. Concurrently, the drive for deeper space exploration by government agencies and private companies further fuels market growth, as these missions demand powerful propulsion systems capable of supporting longer journeys, heavier payloads, and enhanced maneuverability. This growing complexity in space missions underscores the need for innovative propulsion solutions, driving the expansion of the market.
Restraints in the Global Space Propulsion Systems Market
The space propulsion systems market faces a significant restraint due to the high development and manufacturing costs associated with advanced propulsion technologies. The substantial financial investment required for research, development, and testing-particularly for cutting-edge systems such as ion thrusters or nuclear propulsion-can impede market growth. The considerable expenses involved in developing and validating these technologies often limit their adoption and deployment. This financial barrier also deters both private companies and government agencies from exploring new propulsion methods, as the costs associated with materials science, engineering, and extensive ground testing remain prohibitively high. Until more cost-effective development processes are realized, this challenge will continue to slow innovation within the space propulsion sector.
Market Trends of the Global Space Propulsion Systems Market
The Space Propulsion System Market is witnessing notable trends, particularly in the development of green propulsion technologies aimed at reducing dependence on hazardous propellants. Electric propulsion systems, including Hall effect and ion thrusters, are gaining traction for their superior fuel efficiency and reduced environmental impact compared to traditional chemical propulsion. The surge in demand for space exploration, driven by both governmental and private investments, is fueling the need for advanced propulsion systems capable of supporting deep space travel and scientific missions. The commercialization of space activities has shifted the industry dynamic from government-driven initiatives to private enterprises launching satellite constellations for various applications, necessitating reliable propulsion for orbital maneuvering. Additionally, electric propulsion systems are favored for their continuous low thrust capabilities, essential for satellite station-keeping and long-term missions. The rise of reusable launch vehicles further drives the demand for efficient propulsion systems that can handle both ascent and landing, emphasizing the need for innovative technologies. Concurrently, increasing focus on sustainability is spurring the development of cleaner, more environmentally friendly propulsion systems that minimize pollution from space launches.