Space Propulsion Systems Market Report and Forecast 2025-2034

Published Jul 28, 2025

Length 166 Pages

SKU # EMAR20318361

Description

The global space propulsion systems market would likely grow at a CAGR of 14.10% during 2025-2034. ‘Thrust’ drives a rocket through space and air. The rocket’s propulsion system generates thrust; different types of propulsion system create thrust in separate ways through the application of Newton's third law of motion. Asia, North America and Europe are likely to be important markets.

Global Market Likely to be Driven by Developments in Space Activities

Majority of existing rocket engines employ risky chemical reactions to heat and quicken propellant to generate thrust. As reactive chemical propellants carry carcinogenic risks and are explosive in nature, their use is quite dangerous. Further, use of such propellants is expensive due to costs related to rising fuel prices and regulatory compliances. Modern solutions offer significantly faster electric propulsion at lower cost, and are capable of using ordinary tap water as propellant, providing a cheaper, cleaner, safer and more affordable alternative. For example, in 2023, it was reported that TransAstra Corporation was granted a patent on a solar-thermal rocket engine that was expected to revolutionize the satellite industry and contribute towards the growth of the global space economy. The Omnivore™ thruster powering Worker Bee space tugs marked a significant shift from current rocket propellant systems as it operated with several propellant types, including water, either independently or in combination, and was directly powered by the sun’s energy without expensive solar panels or electronics. Such solutions are likely to drive the global space propulsion systems market.

There has been a consistent increase in the variety and number of in-space propulsion devices for small spacecraft, and a rise in private and public investments in small spacecraft propulsion technologies.

Technological Advancements and Advantages Afforded Likely to Boost Market Growth

In 2023, it was reported that ISRO successfully tested a hybrid motor which could possibly lead to the development of a new propulsion system for upcoming launch vehicles. Tested at IPRC, Mahendragiri, Tamil Nadu, the 30 kN hybrid motor was stackable and scalable. Such developments are expected to boost the global space propulsion systems market.

Electric propulsion systems provide several benefits over chemical propulsion systems; these include high performance at low complexity; highest specific impulse (>3000s) offers >30% launch mass saving; narrow beam divergence; decreased power processing unit mass; large throttle range and adaptable to available electric power; robust design with a large domain of operational stability; incomparable high precision spacecraft control; excellent thrust stability and fast thrust response; ability for continuous thrust over several months or years; relatively safe.

Orbital Propulsion Centre (an arm of ArianeGroup) produces propulsion systems for a variety of international satellites and spacecraft. Applications of propulsion system include interplanetary spacecraft and probes, orbital satellites and spacecraft, control of re-entry vehicles, and others.

Market Segmentation

Global Space Propulsion Systems Market Report and Forecast 2025-2034” offers a detailed analysis of the market based on the following segments:

By type, the market is segmented into

Chemical Propulsion
Non-Chemical Propulsion

By class of orbit, the global space propulsion systems market is divided into

Elliptical
GEO
LEO
MEO

By end user, the market is classified into

Civil and Earth Observation
Government and Military
Commercial

By region, the market is segmented into:

North America
Europe
Asia Pacific
Latin America
Middle East and Africa

Key Industry Players in the Market

The report offers an extensive assessment of major players in the global Space Propulsion Systems market; it evaluates their capability, observes latest occurrences such as mergers and acquisitions, capacity expansions, and plant turnarounds:

Northrop Grumman Corporation
Safran S.A.
Moog Inc.
Rafael Advanced Defense Systems Ltd.
IHI Corporation
OHB System AG
VACCO Industries Inc.
Accion Systems Inc.
Ariane Group
CU Aerospace, L.L.C
Others

Using SWOT analysis and Porter’s Five Forces model, the EMR report offers deep insights into the industry.

1 Executive Summary: 1.1 Market Size 2024-2025; 1.2 Market Growth 2025(F)-2034(F); 1.3 Key Demand Drivers; 1.4 Key Players and Competitive Structure; 1.5 Industry Best Practices; 1.6 Recent Trends and Developments; 1.7 Industry Outlook
2 Market Overview and Stakeholder Insights: 2.1 Market Trends; 2.2 Key Verticals; 2.3 Key Regions; 2.4 Supplier Power; 2.5 Buyer Power; 2.6 Key Market Opportunities and Risks; 2.7 Key Initiatives by Stakeholders
3 Economic Summary: 3.1 GDP Outlook; 3.2 GDP Per Capita Growth; 3.3 Inflation Trends; 3.4 Democracy Index; 3.5 Gross Public Debt Ratios; 3.6 Balance of Payment (BoP) Position; 3.7 Population Outlook; 3.8 Urbanisation Trends
4 Country Risk Profiles: 4.1 Country Risk; 4.2 Business Climate
5 Global Space Propulsion Systems Market Analysis: 5.1 Key Industry Highlights; 5.2 Global Space Propulsion Systems Historical Market (2018-2024); 5.3 Global Space Propulsion Systems Market Forecast (2025-2034); 5.4 Global Space Propulsion Systems Market by Type; 5.4.1 Chemical Propulsion; 5.4.1.1 Market Share; 5.4.1.2 Historical Trend (2018-2024); 5.4.1.3 Forecast Trend (2025-2034); 5.4.2 Non-Chemical Propulsion; 5.4.2.1 Market Share; 5.4.2.2 Historical Trend (2018-2024); 5.4.2.3 Forecast Trend (2025-2034); 5.5 Global Space Propulsion Systems Market by Class of Orbit; 5.5.1 Elliptical; 5.5.1.1 Market Share; 5.5.1.2 Historical Trend (2018-2024); 5.5.1.3 Forecast Trend (2025-2034); 5.5.2 GEO; 5.5.2.1 Market Share; 5.5.2.2 Historical Trend (2018-2024); 5.5.2.3 Forecast Trend (2025-2034); 5.5.3 LEO; 5.5.3.1 Market Share; 5.5.3.2 Historical Trend (2018-2024); 5.5.3.3 Forecast Trend (2025-2034); 5.5.4 MEO; 5.5.4.1 Market Share; 5.5.4.2 Historical Trend (2018-2024); 5.5.4.3 Forecast Trend (2025-2034); 5.6 Global Space Propulsion Systems Market by End User; 5.6.1 Civil and Earth Observation; 5.6.1.1 Market Share; 5.6.1.2 Historical Trend (2018-2024); 5.6.1.3 Forecast Trend (2025-2034); 5.6.2 Government and Military; 5.6.2.1 Market Share; 5.6.2.2 Historical Trend (2018-2024); 5.6.2.3 Forecast Trend (2025-2034); 5.6.3 Commercial; 5.6.3.1 Market Share; 5.6.3.2 Historical Trend (2018-2024); 5.6.3.3 Forecast Trend (2025-2034); 5.7 Global Space Propulsion Systems Market by Region; 5.7.1 North America; 5.7.1.1 Market Share; 5.7.1.2 Historical Trend (2018-2024); 5.7.1.3 Forecast Trend (2025-2034); 5.7.2 Europe; 5.7.2.1 Market Share; 5.7.2.2 Historical Trend (2018-2024); 5.7.2.3 Forecast Trend (2025-2034); 5.7.3 Asia Pacific; 5.7.3.1 Market Share; 5.7.3.2 Historical Trend (2018-2024); 5.7.3.3 Forecast Trend (2025-2034); 5.7.4 Latin America; 5.7.4.1 Market Share; 5.7.4.2 Historical Trend (2018-2024); 5.7.4.3 Forecast Trend (2025-2034); 5.7.5 Middle East and Africa; 5.7.5.1 Market Share; 5.7.5.2 Historical Trend (2018-2024); 5.7.5.3 Forecast Trend (2025-2034)
6 North America Industrial Alcohol Market Analysis: 6.1 United States of America; 6.1.1 Market Share; 6.1.2 Historical Trend (2018-2024); 6.1.3 Forecast Trend (2025-2034); 6.2 Canada; 6.2.1 Market Share; 6.2.2 Historical Trend (2018-2024); 6.2.3 Forecast Trend (2025-2034)
7 Europe Industrial Alcohol Market Analysis: 7.1 United Kingdom; 7.1.1 Market Share; 7.1.2 Historical Trend (2018-2024); 7.1.3 Forecast Trend (2025-2034); 7.2 Germany; 7.2.1 Market Share; 7.2.2 Historical Trend (2018-2024); 7.2.3 Forecast Trend (2025-2034); 7.3 Russia; 7.3.1 Market Share; 7.3.2 Historical Trend (2018-2024); 7.3.3 Forecast Trend (2025-2034); 7.4 France; 7.4.1 Market Share; 7.4.2 Historical Trend (2018-2024); 7.4.3 Forecast Trend (2025-2034); 7.5 Italy; 7.5.1 Market Share; 7.5.2 Historical Trend (2018-2024); 7.5.3 Forecast Trend (2025-2034); 7.6 Others
8 Asia Pacific Industrial Alcohol Market Analysis: 8.1 China; 8.1.1 Market Share; 8.1.2 Historical Trend (2018-2024); 8.1.3 Forecast Trend (2025-2034); 8.2 Japan; 8.2.1 Market Share; 8.2.2 Historical Trend (2018-2024); 8.2.3 Forecast Trend (2025-2034); 8.3 India; 8.3.1 Market Share; 8.3.2 Historical Trend (2018-2024); 8.3.3 Forecast Trend (2025-2034); 8.4 South Korea; 8.4.1 Market Share; 8.4.2 Historical Trend (2018-2024); 8.4.3 Forecast Trend (2025-2034); 8.5 Australia; 8.5.1 Market Share; 8.5.2 Historical Trend (2018-2024); 8.5.3 Forecast Trend (2025-2034); 8.6 Others
9 Latin America Industrial Alcohol Market Analysis: 9.1 Brazil; 9.1.1 Market Share; 9.1.2 Historical Trend (2018-2024); 9.1.3 Forecast Trend (2025-2034); 9.2 Mexico; 9.2.1 Market Share; 9.2.2 Historical Trend (2018-2024); 9.2.3 Forecast Trend (2025-2034); 9.3 Others
10 Middle East and Africa Industrial Alcohol Market Analysis: 10.1 Saudi Arabia; 10.1.1 Market Share; 10.1.2 Historical Trend (2018-2024); 10.1.3 Forecast Trend (2025-2034); 10.2 Israel; 10.2.1 Market Share; 10.2.2 Historical Trend (2018-2024); 10.2.3 Forecast Trend (2025-2034); 10.3 South Africa; 10.3.1 Market Share; 10.3.2 Historical Trend (2018-2024); 10.3.3 Forecast Trend (2025-2034); 10.4 Others
11 Market Dynamics: 11.1 SWOT Analysis; 11.1.1 Strengths; 11.1.2 Weaknesses; 11.1.3 Opportunities; 11.1.4 Threats; 11.2 Porter’s Five Forces Analysis; 11.2.1 Supplier’s Power; 11.2.2 Buyer’s Power; 11.2.3 Threat of New Entrants; 11.2.4 Degree of Rivalry; 11.2.5 Threat of Substitutes; 11.3 Key Indicators for Demand; 11.4 Key Indicators for Price
12 Competitive Landscape: 12.1 Supplier Selection; 12.2 Key Global Players; 12.3 Key Regional Players; 12.4 Key Player Strategies; 12.5 Company Profiles; 12.5.1 Northrop Grumman Corporation; 12.5.1.1 Company Overview; 12.5.1.2 Product Portfolio; 12.5.1.3 Demographic Reach and Achievements; 12.5.1.4 Certifications; 12.5.2 Safran S.A.; 12.5.2.1 Company Overview; 12.5.2.2 Product Portfolio; 12.5.2.3 Demographic Reach and Achievements; 12.5.2.4 Certifications; 12.5.3 Moog Inc.; 12.5.3.1 Company Overview; 12.5.3.2 Product Portfolio; 12.5.3.3 Demographic Reach and Achievements; 12.5.3.4 Certifications; 12.5.4 Rafael Advanced Defense Systems Ltd.; 12.5.4.1 Company Overview; 12.5.4.2 Product Portfolio; 12.5.4.3 Demographic Reach and Achievements; 12.5.4.4 Certifications; 12.5.5 IHI Corporation; 12.5.5.1 Company Overview; 12.5.5.2 Product Portfolio; 12.5.5.3 Demographic Reach and Achievements; 12.5.5.4 Certifications; 12.5.6 OHB System AG; 12.5.6.1 Company Overview; 12.5.6.2 Product Portfolio; 12.5.6.3 Demographic Reach and Achievements; 12.5.6.4 Certifications; 12.5.7 VACCO Industries Inc.; 12.5.7.1 Company Overview; 12.5.7.2 Product Portfolio; 12.5.7.3 Demographic Reach and Achievements; 12.5.7.4 Certifications; 12.5.8 Accion Systems Inc.; 12.5.8.1 Company Overview; 12.5.8.2 Product Portfolio; 12.5.8.3 Demographic Reach and Achievements; 12.5.8.4 Certifications; 12.5.9 Ariane Group; 12.5.9.1 Company Overview; 12.5.9.2 Product Portfolio; 12.5.9.3 Demographic Reach and Achievements; 12.5.9.4 Certifications; 12.5.10 CU Aerospace, L.L.C; 12.5.10.1 Company Overview; 12.5.10.2 Product Portfolio; 12.5.10.3 Demographic Reach and Achievements; 12.5.10.4 Certifications; 12.5.11 Others

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