Global Electric Propulsion Satellites Market Size, Share, and Growth & Trends Analysis By Mass Class (Small Satellite (0-500 Kg), Medium Satellite (501-2,200 Kg), Large Satellite (Above 2,200 Kg) By Mission Type (Earth Observation, Communication, Technology Development, Others) By Mission Application (Station Keeping, Orbit Raising) By Component (Power Control Units, Power Distribution Units, Pointing Mechanism, Pressure Regulators, Valves, Flow Controllers, Mass Flow Sensors, Pressure Transducers, Particle Filters, Tanks, Plumbing/Tuning, Propulsion Chamber/Nozzle) Regional Outlook, Growth Potential and Segments Forecast 2024-2031

Loading...
Electric Propulsion Satellites Market Size, Demand & Forecast to 2031 | Insider Market Research

Budget constraints? Get in touch with us for special pricing

Buying Options

Original price was: $9,999.00.Current price is: $8,999.00.
Original price was: $4,999.00.Current price is: $3,999.00.
Original price was: $3,999.00.Current price is: $2,999.00.
Speak To Analyst
  • +1 (614) 602 2897
  • sales@insidermarketresearch.com
Loading...

Description

The Global Electric Propulsion Satellites Market size was USD $48.93 billion in 2023 and is projected to reach USD $51.22 billion by 2031, with a CAGR of 9.5% during the forecast period. 

Electric Propulsion Satellites Market Overview:

The electric propulsion satellites market is experiencing significant growth driven by several key innovations and trends. Emerging technologies such as solar electric propulsion (SEP), which harnesses solar power for propellant acceleration, and electric iodine thrusters, which use compact iodine propellant, are at the forefront. Multi-Modal Electric Propulsion Engines (MEPE) offer versatility with both high thrust and efficiency, while Field-Emission Electric Propulsion (FEEP) provides precise control through the electrostatic acceleration of liquid metal droplets. Air-Scooping Electric Propulsion (ASEP) systems, which gather ambient atmospheric particles for propulsion, further highlight advancements. All-electric satellites, which utilize electric propulsion for all maneuvers, are increasingly favored due to their reduced mass, enhanced payload capacity, and lower launch costs. The rising demand for small satellite constellations, especially in telecommunications and Earth observation, is pushing the development of efficient electric propulsion systems. Significant investments in research and development by entities like NASA and the European Space Agency aim to enhance performance and lower costs. Additionally, the commercialization of space activities, including satellite constellations and in-space transportation, is opening new avenues for electric propulsion technologies. These trends collectively drive the market forward, setting the stage for continued innovation and expansion in the coming years.

Electric Propulsion Satellites Market Dynamics:

  • Growth Drivers:

1. Technological advancements

Continuous innovations in electric propulsion technologies, such as Hall effect thrusters and ion propulsion, are significantly driving the market. These advancements enhance the efficiency, performance, and lifespan of satellites, making them more attractive for various space missions. Enhanced propulsion systems enable satellites to perform complex maneuvers, improve their orbit maintenance capabilities, and extend their operational lifespans. The ongoing research and development in electric propulsion are expected to lead to more powerful and cost-effective solutions, further fuelling the growth of the electric propulsion satellites market.

2. Increased demand for satellite constellations

The surge in satellite constellations for applications such as global internet coverage and Earth observation is propelling the electric propulsion satellites market. These constellations require frequent repositioning and maintenance, which electric propulsion systems are well-suited to handle due to their high efficiency and extended operational lifetimes. The growing need for large-scale satellite networks to provide comprehensive coverage and data collection capabilities underscores the demand for advanced propulsion systems that can support the complex operational requirements of these constellations.

  • Restraining Factor:

1. Technical complexity and reliability

Electric propulsion systems, while advanced, are technically complex and can present reliability challenges. The intricate nature of these systems requires precise engineering and manufacturing, which can lead to higher risks of technical failures or performance issues. Ensuring the reliability and robustness of electric propulsion systems under various space conditions is crucial but challenging. These technical complexities can result in increased development times and costs, potentially deterring some operators from adopting electric propulsion technologies.

  • Opportunity Factors:

1. Emerging space economy

The expanding space economy, driven by commercial ventures and private sector investments, presents significant opportunities for electric propulsion satellites. As private companies and new entrants increasingly invest in space exploration, satellite communications, and space tourism, there is a growing demand for advanced propulsion systems. Electric propulsion offers advantages in terms of efficiency and operational flexibility that align well with the needs of emerging space missions. This burgeoning market offers substantial growth potential for electric propulsion technologies as they become integral to a wide range of space activities.

1. Advancements in space missions

The increasing complexity and ambition of space missions, such as interplanetary exploration and deep-space research, create opportunities for electric propulsion systems. These missions often require high-efficiency propulsion technologies capable of sustained operation over long durations. Electric propulsion systems, with their ability to provide continuous thrust and operate efficiently in space, are well-suited for these demanding missions. As space agencies and private companies push the boundaries of space exploration, the need for advanced propulsion solutions like electric propulsion will grow, driving market expansion.

Electric Propulsion Satellites Market: Segmentation

By Mass Class:

  • Small Satellite (0-500 Kg)
  • Medium Satellite (501-2,200 Kg)
  • Large Satellite (Above 2,200 Kg)

By Mission Type:

  • Earth Observation
  • Communication
  • Technology Development
  • Others

By Mission Application:

  • Station Keeping
  • Orbit Raising

By Component:

  • Power Control Units
  • Power Distribution Units
  • Pointing Mechanism
  • Pressure Regulators
  • Valves
  • Flow Controllers
  • Mass Flow Sensors
  • Pressure Transducers
  • Particle Filters
  • Tanks
  • Plumbing/Tuning
  • Propulsion Chamber/Nozzle

Electric Propulsion Satellites Market: Regional Insights

North American electric propulsion satellites market is experiencing significant growth, driven by increasing demand for efficient and sustainable space operations. Electric propulsion systems, which offer higher fuel efficiency and longer mission lifespans compared to traditional chemical propulsion, are becoming the preferred choice for both commercial and government satellite operators. Key factors fuelling this growth include advancements in ion thruster technology, the rising need for satellite constellations for telecommunications and Earth observation, and the push for reduced operational costs. Additionally, regulatory support and investment in space infrastructure further bolster market expansion. Major players are focusing on enhancing propulsion capabilities and reducing costs, aiming to cater to the evolving needs of satellite missions. As a result, North America is poised to remain a leading hub for electric propulsion satellite technology, driving innovation and establishing new industry standards.

Asia Pacific electric propulsion satellites market is experiencing significant growth, driven by advancements in satellite technology and increased demand for efficient and cost-effective space missions. Electric propulsion systems, which utilize ion or Hall effect thrusters, offer substantial advantages over traditional chemical propulsion, including higher efficiency and extended mission lifetimes. This technology is increasingly favored for satellite applications such as communication, Earth observation, and navigation. Key factors fueling the market include the rising need for low Earth orbit (LEO) satellite constellations, which benefit from electric propulsion’s ability to maintain precise orbital positions with minimal fuel consumption. Additionally, governments and private players across the Asia Pacific region are investing in satellite infrastructure and space exploration, further boosting market growth. Countries like China, India, and Japan are at the forefront, leveraging electric propulsion to enhance their satellite capabilities and space missions. As the region continues to develop its space technology infrastructure, the electric propulsion satellites market is set to expand, offering new opportunities and innovations in space exploration and satellite operations.

Electric Propulsion Satellites Market: Competitive Landscape

  • Accion Systems
  • Airbus
  • Aliena Pte Ltd.
  • ArianeGroup
  • Astra, Busek, Co. Inc.
  • CU Aerospace
  • ENPULSION GmbH
  • Moog Inc.
  • Neutron Star Systems
  • Northrop Grumman
  • Orbion Space Technology
  • Phase Four, Inc.
  • Safran
  • Sitael S.p.A
  • Thales Alenia Space

Electric Propulsion Satellites Market: Recent Developments

  • In March 2024, ISRO satellite to showcase a homegrown electric propulsion system. A Technology Demonstration Satellite, which is anticipated to be launched in the second half of 2024, will be used to showcase the system. Later this year, the Indian Space Research Organization (ISRO) plans to demonstrate the usage of a satellite powered by an electric propulsion system that was created in the country. 
  • In April 2023, The ThrustMe NPT30-I2 iodine-fueled electric propulsion system on board the Norwegian Space Agency’s NorSat-TD satellite was successfully launched from the Vandenberg Space Force Base in California on a SpaceX Falcon 9 rocket.

Table of Content

a:2:{i:0;a:3:{s:5:”title”;s:16:”Table of Content”;s:2:”id”;s:16:”table-of-content”;s:7:”content”;s:12401:”CHAPTER 1: EXECUTIVE SUMMARY
1.1. SummaryCHAPTER 2: RESEARCH METHODOLOGY2.1. Research Process2.2. Primary Research2.3. Secondary Research2.4. Market Size Estimation2.5. Research Methodology2.6. Analyst Tools/Models/Techniques2.6.1. Notations2.7. Market Scope & Segmentation2.8. Currency & Pricing ConsideredCHAPTER 3: MARKET TRENDS3.1. Introduction3.2. Drivers3.2.1. Technological advancements3.2.2. Increased demand for satellite constellations3.3. Restraints3.3.1. Technical complexity and reliability3.4. Opportunities3.4.1. Emerging space economy3.4.2. Advancements in space missions3.5. Investment Feasibility Analysis3.6. Latest TrendsCHAPTER 4: MARKET ASSESSMENT4.1. Porters Five Forces Analysis4.1.1. Bargaining Power of Suppliers4.1.2. Bargaining Power of Buyers4.1.3. Threat of New Entrants4.1.4. Threat of Substitute4.1.5. Intensity of Competitive Rivalry4.2. Value Chain Analysis4.3. Market Share Analysis4.4. Impact of Key Regulations on the Market4.5. SWOT Analysis4.6. PESTEL Analysis4.7. Patent Analysis4.7.1. By MASS CLASS4.7.2. By MISSION TYPE4.7.3. By MISSION APPLICATION4.7.4. By COMPONENT4.8. Roadmap Development4.9. Market Lineage Outlook4.9.1. Parent Market Outlook4.9.2. Ancillary Market OutlookCHAPTER 5: IMPACT OF RECESSION ON THE MARKET5.1. Introduction5.1.1. Short Term Impact5.1.2. Long Term ImpactCHAPTER 6: GLOBAL ELECTRIC PROPULSION SATELLITES MARKET, BY MASS CLASS6.1. Introduction6.1.1. Market Size & Forecast6.1.2. Global ELECTRIC PROPULSION SATELLITES Market Share, by Mass Class -2023 and 2031 (%)6.2. SMALL SATELLITE (0-500 KG)6.2.1. Key market Trends, Growth Factors, and Opportunities6.2.2. Market Size and Forecast, by Regions6.3. MEDIUM SATELLITE (501-2,200 KG)6.3.1. Key market Trends, Growth Factors, and Opportunities6.3.2. Market Size and Forecast, by Regions6.4. LARGE SATELLITE (ABOVE 2,200 KG)6.4.1. Key market Trends, Growth Factors, and Opportunities6.4.2. Market Size and Forecast, by RegionsCHAPTER 7: GLOBAL ELECTRIC PROPULSION SATELLITES MARKET, BY MISSION TYPE7.1. Introduction7.1.1. Market Size & Forecast7.1.2. Global ELECTRIC PROPULSION SATELLITES Market Share, MISSION TYPE -2023 and 2031 (%)7.2. EARTH OBSERVATION7.2.1. Key market Trends, Growth Factors, and Opportunities7.2.2. Market Size and Forecast, by Regions7.3. COMMUNICATION7.3.1. Key market Trends, Growth Factors, and Opportunities7.3.2. Market Size and Forecast, by Regions7.4. TECHNOLOGY DEVELOPMENT7.4.1. Key market Trends, Growth Factors, and Opportunities7.4.2. Market Size and Forecast, by Regions7.5. OTHERS7.5.1. Key market Trends, Growth Factors, and Opportunities7.5.2. Market Size and Forecast, by RegionsCHAPTER 8: GLOBAL ELECTRIC PROPULSION SATELLITES MARKET, BY MISSION APPLICATION8.1. Introduction8.1.1. Market Size & Forecast8.1.2. Cloud Storage Market Share, by MISSION APPLICATION -2023 and 2031 (%)8.2. STATION KEEPING8.2.1. Key market Trends, Growth Factors, and Opportunities8.2.2. Market Size and Forecast, by Regions8.3. ORBIT RAISING8.3.1. Key market Trends, Growth Factors, and Opportunities8.3.2. Market Size and Forecast, by RegionsCHAPTER 9: GLOBAL ELECTRIC PROPULSION SATELLITES MARKET, BY COMPONENT9.1. Introduction9.1.1. Market Size & Forecast9.1.2. Global ELECTRIC PROPULSION SATELLITES Market Share, by COMPONENT -2023 and 2031 (%)9.2. POWER CONTROL UNITS9.2.1. Key market Trends, Growth Factors, and Opportunities9.2.2. Market Size and Forecast, by Regions9.3. POWER DISTRIBUTION UNITS9.3.1. Key market Trends, Growth Factors, and Opportunities9.3.2. Market Size and Forecast, by Regions9.4. POINTING MECHANISM9.4.1. Key market Trends, Growth Factors, and Opportunities9.4.2. Market Size and Forecast, by Regions9.5. PRESSURE REGULATORS9.5.1. Key market Trends, Growth Factors, and Opportunities9.5.2. Market Size and Forecast, by Regions9.6. OTHERS9.6.1. Key market Trends, Growth Factors, and Opportunities9.6.2. Market Size and Forecast, by RegionsCHAPTER 10: NORTH AMERICA MARKET ANALYSIS10.1. Introduction10.2. ELECTRIC PROPULSION SATELLITES Market by Country10.3. North America ELECTRIC PROPULSION SATELLITES Market by Country, USD Million 2019-203110.3.1. Market Size & Forecast, By MASS CLASS10.3.2. Market Size & Forecast, by MISSION TYPE10.3.3. Market Size & Forecast, by MISSION APPLICATION10.3.4. Market Size & Forecast, by COMPONENT10.4. U.S.10.4.1. Market Size & Forecast, By MASS CLASS10.4.2. Market Size & Forecast, by MISSION TYPE10.4.3. Market Size & Forecast, by MISSION APPLICATION10.4.4. Market Size & Forecast, by COMPONENT10.5. Canada10.5.1. Market Size & Forecast, By MASS CLASS10.5.2. Market Size & Forecast, by MISSION TYPE10.5.3. Market Size & Forecast, by MISSION APPLICATION10.5.4. Market Size & Forecast, by COMPONENTCHAPTER 11: EUROPE MARKET ANALYSIS11.1. Introduction11.2. ELECTRIC PROPULSION SATELLITES Market by Country11.3. Europe ELECTRIC PROPULSION SATELLITES Market by Country, USD Million 2019-203111.3.1. Market Size & Forecast, By MASS CLASS11.3.2. Market Size & Forecast, by MISSION TYPE11.3.3. Market Size & Forecast, by MISSION APPLICATION11.3.4. Market Size & Forecast, by COMPONENT11.4. Germany11.4.1. Market Size & Forecast, By MASS CLASS11.4.2. Market Size & Forecast, by MISSION TYPE11.4.3. Market Size & Forecast, by MISSION APPLICATION11.4.4. Market Size & Forecast, by COMPONENT11.5. France11.5.1. Market Size & Forecast, By MASS CLASS11.5.2. Market Size & Forecast, by MISSION TYPE11.5.3. Market Size & Forecast, by MISSION APPLICATION11.5.4. Market Size & Forecast, by COMPONENT11.6. U.K.11.6.1. Market Size & Forecast, By MASS CLASS11.6.2. Market Size & Forecast, by MISSION TYPE11.6.3. Market Size & Forecast, by MISSION APPLICATION11.6.4. Market Size & Forecast, by COMPONENT11.7. Italy11.7.1. Market Size & Forecast, By MASS CLASS11.7.2. Market Size & Forecast, by MISSION TYPE11.7.3. Market Size & Forecast, by MISSION APPLICATION11.7.4. Market Size & Forecast, by COMPONENT11.8. Spain11.8.1. Market Size & Forecast, By MASS CLASS11.8.2. Market Size & Forecast, by MISSION TYPE11.8.3. Market Size & Forecast, by MISSION APPLICATION11.8.4. Market Size & Forecast, by COMPONENT11.9. Benelux11.9.1. Market Size & Forecast, By MASS CLASS11.9.2. Market Size & Forecast, by MISSION TYPE11.9.3. Market Size & Forecast, by MISSION APPLICATION11.9.4. Market Size & Forecast, by COMPONENT11.10. Rest of Europe11.10.1. Market Size & Forecast, By MASS CLASS11.10.2. Market Size & Forecast, by MISSION TYPE11.10.3. Market Size & Forecast, by MISSION APPLICATION11.10.4. Market Size & Forecast, by COMPONENTCHAPTER 12: ASIA-PACIFIC MARKET ANALYSIS12.1. Introduction12.2. ELECTRIC PROPULSION SATELLITES Market by Country12.3. Asia Pacific Cloud Storage Market by Country, USD Million 2019-203112.3.1. Market Size & Forecast, By MASS CLASS12.3.2. Market Size & Forecast, by MISSION TYPE12.3.3. Market Size & Forecast, by MISSION APPLICATION12.3.4. Market Size & Forecast, by COMPONENT12.4. China12.4.1. Market Size & Forecast, By MASS CLASS12.4.2. Market Size & Forecast, by MISSION TYPE12.4.3. Market Size & Forecast, by MISSION APPLICATION12.4.4. Market Size & Forecast, by COMPONENT12.5. India12.5.1. Market Size & Forecast, By MASS CLASS12.5.2. Market Size & Forecast, by MISSION TYPE12.5.3. Market Size & Forecast, by MISSION APPLICATION12.5.4. Market Size & Forecast, by COMPONENT12.6. Japan12.6.1. Market Size & Forecast, By MASS CLASS12.6.2. Market Size & Forecast, by MISSION TYPE12.6.3. Market Size & Forecast, by MISSION APPLICATION12.6.4. Market Size & Forecast, by COMPONENT12.7. Australia12.7.1. Market Size & Forecast, By MASS CLASS12.7.2. Market Size & Forecast, by MISSION TYPE12.7.3. Market Size & Forecast, by MISSION APPLICATION12.7.4. Market Size & Forecast, by COMPONENT12.8. South Korea12.8.1. Market Size & Forecast, By MASS CLASS12.8.2. Market Size & Forecast, by MISSION TYPE12.8.3. Market Size & Forecast, by MISSION APPLICATION12.8.4. Market Size & Forecast, by COMPONENT12.9. Souethest Asia12.9.1. Market Size & Forecast, By MASS CLASS12.9.2. Market Size & Forecast, by MISSION TYPE12.9.3. Market Size & Forecast, by MISSION APPLICATION12.9.4. Market Size & Forecast, by COMPONENT12.10. Rest of Asia Pacific12.10.1. Market Size & Forecast, By MASS CLASS12.10.2. Market Size & Forecast, by MISSION TYPE12.10.3. Market Size & Forecast, by MISSION APPLICATION12.10.4. Market Size & Forecast, by COMPONENTCHAPTER 13: LATIN AMERICA AND THE CARIBBEAN MARKET ANALYSIS13.1. Introduction13.2. ELECTRIC PROPULSION SATELLITES Market by Country13.3. Latin America ELECTRIC PROPULSION SATELLITES Market by Country, USD Million 2019-203113.3.1. Market Size & Forecast, By MASS CLASS13.3.2. Market Size & Forecast, by MISSION TYPE13.3.3. Market Size & Forecast, by MISSION APPLICATION13.3.4. Market Size & Forecast, by COMPONENT13.4. Brazil13.4.1. Market Size & Forecast, By MASS CLASS13.4.2. Market Size & Forecast, by MISSION TYPE13.4.3. Market Size & Forecast, by MISSION APPLICATION13.4.4. Market Size & Forecast, by COMPONENT13.5. Mexico13.5.1. Market Size & Forecast, By MASS CLASS13.5.2. Market Size & Forecast, by MISSION TYPE13.5.3. Market Size & Forecast, by MISSION APPLICATION13.5.4. Market Size & Forecast, by COMPONENT13.6. Rest of Latin America13.6.1. Market Size & Forecast, By MASS CLASS13.6.2. Market Size & Forecast, by MISSION TYPE13.6.3. Market Size & Forecast, by MISSION APPLICATION13.6.4. Market Size & Forecast, by COMPONENTCHAPTER 14: THE MIDDLE EAST AND AFRICA MARKET ANALYSIS14.1. Introduction14.2. ELECTRIC PROPULSION SATELLITES Market by Country14.3. MEA ELECTRIC PROPULSION SATELLITES Market by Country, USD Million 2019-203114.3.1. Market Size & Forecast, By MASS CLASS14.3.2. Market Size & Forecast, by MISSION TYPE14.3.3. Market Size & Forecast, by MISSION APPLICATION14.3.4. Market Size & Forecast, by COMPONENT14.4. South Africa14.4.1. Market Size & Forecast, By MASS CLASS14.4.2. Market Size & Forecast, by MISSION TYPE14.4.3. Market Size & Forecast, by MISSION APPLICATION14.4.4. Market Size & Forecast, by COMPONENT14.5. Saudi Arabia14.5.1. Market Size & Forecast, By MASS CLASS14.5.2. Market Size & Forecast, by MISSION TYPE14.5.3. Market Size & Forecast, by MISSION APPLICATION14.5.4. Market Size & Forecast, by COMPONENT14.6. UAE14.6.1. Market Size & Forecast, By MASS CLASS14.6.2. Market Size & Forecast, by MISSION TYPE14.6.3. Market Size & Forecast, by MISSION APPLICATION14.6.4. Market Size & Forecast, by COMPONENT14.7. Rest of MEA14.7.1. Market Size & Forecast, By MASS CLASS14.7.2. Market Size & Forecast, by MISSION TYPE14.7.3. Market Size & Forecast, by MISSION APPLICATION14.7.4. Market Size & Forecast, by COMPONENTCHAPTER 15: COMPETITIVE LANDSCAPE15.1. Introduction15.2. Market Player Positioning, 202215.3. Company Evaluation Matrix15.4. Product Mapping of Top 10 Player15.5. Market Opportunities and Future Trends15.6. Competitive Heatmap15.7. Top Winning Growth Strategies15.7.1. Major Growth Strategies15.7.2. Expansion15.7.3. Merger and Acquisition15.7.4. Other DevelopmentsCHAPTER 16: COMPANY PROFILES16.1. ACCION SYSTEMS16.1.1. Company Overview16.1.2. Key Executives16.1.3. Financial Overview16.1.4. Business Mass Classnalysis16.1.5. Product Portfolio16.1.6. Key Strategic Developments16.2. AIRBUS16.3. CU AEROSPACE16.4. ENPULSION GMBH16.5. MOOG INC.16.6. NORTHROP GRUMMAN16.7. ORBION SPACE TECHNOLOGY16.8. PHASE FOUR, INC.16.9. SAFRAN16.10. THALES ALENIA SPACE16.11. Others”;}i:1;a:3:{s:5:”title”;s:16:”Tables & Figures”;s:2:”id”;s:14:”tables-figures”;s:7:”content”;s:17122:”LIST OF TABLESTable 1. Global ELECTRIC PROPULSION SATELLITES Market INDUSTRY SNAPSHOT, 2022-2031Table 2. Global ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 3. Global ELECTRIC PROPULSION SATELLITES Market SMALL SATELLITE (0-500 KG), BY REGION-2019-2031 (USD MILLION)Table 4. Global ELECTRIC PROPULSION SATELLITES Market MEDIUM SATELLITE (501-2,200 KG), BY REGION-2019-2031 (USD MILLION)Table 5. Global ELECTRIC PROPULSION SATELLITES Market LARGE SATELLITE (ABOVE 2,200 KG), BY REGION-2019-2031 (USD MILLION)Table 6. Global ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE SIZE-2019-2031 (USD MILLION)Table 7. Global ELECTRIC PROPULSION SATELLITES Market EARTH OBSERVATION, BY REGION-2019-2031 (USD MILLION)Table 8. Global ELECTRIC PROPULSION SATELLITES Market COMMUNICATION, BY REGION-2019-2031 (USD MILLION)Table 9. Global ELECTRIC PROPULSION SATELLITES Market TECHNOLOGY DEVELOPMENT, BY REGION-2019-2031 (USD MILLION)Table 10. Global ELECTRIC PROPULSION SATELLITES Market OTHERS, BY REGION-2019-2031 (USD MILLION)Table 11. Global ELECTRIC PROPULSION SATELLITES Market MISSION TYPE.5, BY REGION-2019-2031 (USD MILLION)Table 12. Global ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION -2019-2031 (USD MILLION)Table 13. Global ELECTRIC PROPULSION SATELLITES Market STATION KEEPING, BY REGION-2019-2031 (USD MILLION)Table 14. Global ELECTRIC PROPULSION SATELLITES Market ORBIT RAISING, BY REGION-2019-2031 (USD MILLION)Table 15. Global ELECTRIC PROPULSION SATELLITES Market SHARE, COMPONENT -2019-2031 (USD MILLION)Table 16. Global ELECTRIC PROPULSION SATELLITES Market FOR POWER CONTROL UNITS, BY REGION-2019-2031 (USD MILLION)Table 17. Global ELECTRIC PROPULSION SATELLITES Market FOR POWER DISTRIBUTION UNITS BY REGION-2019-2031 (USD MILLION)Table 18. Global ELECTRIC PROPULSION SATELLITES Market FOR POINTING MECHANISM BY REGION-2019-2031 (USD MILLION)Table 19. Global ELECTRIC PROPULSION SATELLITES Market FOR PRESSURE REGULATORS BY REGION-2019-2031 (USD MILLION)Table 20. Global ELECTRIC PROPULSION SATELLITES Market FOR OTHERS BY REGION-2019-2031 (USD MILLION)Table 21. NORTH AMERICA ELECTRIC PROPULSION SATELLITES Market BY COUNTRY, USD MILLION 2019-2031Table 22. NORTH AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 23. NORTH AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 24. NORTH AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 25. NORTH AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 26. U.S. ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 27. U.S. ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 28. U.S. ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 29. U.S. ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 30. CANADA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 31. CANADA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 32. CANADA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 33. CANADA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 34. EUROPE ELECTRIC PROPULSION SATELLITES Market BY COUNTRY, USD MILLION 2019-2031Table 35. EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 36. EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 37. EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 38. EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 39. GERMANY ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 40. GERMANY ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 41. GERMANY ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 42. GERMANY ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 43. FRANCE ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 44. FRANCE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 45. FRANCE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 46. FRANCE ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 47. UK ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 48. UK ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 49. UK ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 50. UK ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 51. ITALY ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 52. ITALY ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 53. ITALY ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 54. ITALY ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 55. SPAIN ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 56. SPAIN ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 57. SPAIN ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 58. SPAIN ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 59. BENELUX ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 60. BENELUX ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 61. BENELUX ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 62. BENELUX ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 63. REST OF EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 64. REST OF EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 65. REST OF EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 66. REST OF EUROPE ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 67. ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market BY COUNTRY, USD MILLION 2019-2031Table 68. ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 69. ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 70. ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 71. ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 72. CHINA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 73. CHINA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 74. CHINA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 75. CHINA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 76. INDIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 77. INDIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 78. INDIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 79. INDIA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 80. JAPAN ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 81. JAPAN ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 82. JAPAN ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 83. JAPAN ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 84. AUSTRALIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 85. AUSTRALIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 86. AUSTRALIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 87. AUSTRALIA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 88. SOUTH KOREA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 89. SOUTH KOREA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 90. SOUTH KOREA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 91. SOUTH KOREA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 92. SOUETHEST ASIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 93. SOUETHEST ASIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 94. SOUETHEST ASIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 95. SOUETHEST ASIA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 96. REST OF ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 97. REST OF ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 98. REST OF ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 99. REST OF ASIA PACIFIC ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 100. LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market BY COUNTRY, USD MILLION 2019-2031Table 101. LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 102. LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 103. LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 104. LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 105. BRAZIL ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 106. BRAZIL ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 107. BRAZIL ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 108. BRAZIL ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 109. MEXICO ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 110. MEXICO ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 111. MEXICO ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 112. MEXICO ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 113. REST OF LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 114. REST OF LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 115. REST OF LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 116. REST OF LATIN AMERICA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 117. MEA ELECTRIC PROPULSION SATELLITES Market BY COUNTRY, USD MILLION 2019-2031Table 118. MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 119. MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 120. MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 121. MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 122. SOUTH AFRICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 123. SOUTH AFRICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 124. SOUTH AFRICA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 125. SOUTH AFRICA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 126. SAUDI ARABIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 127. SAUDI ARABIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 128. SAUDI ARABIA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 129. SAUDI ARABIA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 130. UAE ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 131. UAE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 132. UAE ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 133. UAE ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 134. REST OF MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2019-2031 (USD MILLION)Table 135. REST OF MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2019-2031 (USD MILLION)Table 136. REST OF MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION – 2019-2031 (USD MILLION)Table 137. REST OF MEA ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2019-2031 (USD MILLION)Table 138. KEY EXPANSIONS (2019-2022)Table 139. KEY MERGERS AND ACQUISITION (2019-2022)Table 140. OTHER KEY DEVELOPMENTS (2019-2022)LIST OF FIGURESFigure 1. REGIONAL ANALYSIS (2022 & 2031)Figure 2. RESEARCH PROCESSFigure 3. ANALYSIS FRAMEWORKFigure 4. IMPACT OF KEY REGULATION ON THE MARKETFigure 5. SWOT ANALYSISFigure 6. Global ELECTRIC PROPULSION SATELLITES Market SHARE, by MASS CLASS -2023 & 2031 (USD MILLION)Figure 7. Global ELECTRIC PROPULSION SATELLITES Market , SMALL SATELLITE (0-500 KG) -2019-2031 (USD MILLION)Figure 8. Global ELECTRIC PROPULSION SATELLITES Market , MEDIUM SATELLITE (501-2,200 KG) -2019-2031 (USD MILLION)Figure 9. Global ELECTRIC PROPULSION SATELLITES Market , LARGE SATELLITE (ABOVE 2,200 KG) -2019-2031 (USD MILLION)Figure 10. Global ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION TYPE -2023 & 2031 (USD MILLION)Figure 11. Global ELECTRIC PROPULSION SATELLITES Market , EARTH OBSERVATION -2019-2031 (USD MILLION)Figure 12. Global ELECTRIC PROPULSION SATELLITES Market , COMMUNICATION -2019-2031 (USD MILLION)Figure 13. Global ELECTRIC PROPULSION SATELLITES Market , TECHNOLOGY DEVELOPMENT -2019-2031 (USD MILLION)Figure 14. Global ELECTRIC PROPULSION SATELLITES Market , OTHERS -2019-2031 (USD MILLION)Figure 15. Global ELECTRIC PROPULSION SATELLITES Market SHARE, by MISSION APPLICATION -2023 & 2031 (USD MILLION)Figure 16. Global ELECTRIC PROPULSION SATELLITES Market , STATION KEEPING -2019-2031 (USD MILLION)Figure 17. Global ELECTRIC PROPULSION SATELLITES Market , ORBIT RAISING -2019-2031 (USD MILLION)Figure 18. Global ELECTRIC PROPULSION SATELLITES Market SHARE, by COMPONENT -2023 & 2031 (USD MILLION)Figure 19. Global ELECTRIC PROPULSION SATELLITES Market , POWER CONTROL UNITS -2019-2031 (USD MILLION)Figure 20. Global ELECTRIC PROPULSION SATELLITES Market , POWER DISTRIBUTION UNITS -2019-2031 (USD MILLION)Figure 21. Global ELECTRIC PROPULSION SATELLITES Market , POINTING MECHANISM -2019-2031 (USD MILLION)Figure 22. Global ELECTRIC PROPULSION SATELLITES Market , PRESSURE REGULATORS -2019-2031 (USD MILLION)Figure 23. Global ELECTRIC PROPULSION SATELLITES Market , OTHERS -2019-2031 (USD MILLION)Figure 24. MARKET PLAYER POSITIONING, 2022Figure 25. COMPANY EVALUATION MATRIXFigure 26. PRODUCT MAPPING OF TOP 10 PLAYERSFigure 27. COMPETITIVE HEATMAP OF KEY PLAYERS”;}}

Tables & Figures

Frequently Asked Questions (FAQ):

  • What is the current size of the global electric propulsion satellites market?

    As of 2023, the global electric propulsion satellites market is valued at USD $48.93 billion. It is projected to reach USD $51.22 billion by 2031, growing at a CAGR of 9.5% during the forecast period.

  • How is the electric propulsion satellites market performing in different regions?

    North America: The market is growing due to advancements in ion thruster technology, demand for satellite constellations, and regulatory support. Major players in North America are focusing on enhancing propulsion capabilities and reducing costs. Asia Pacific: The region is experiencing significant growth driven by advancements in satellite technology and increased demand for cost-effective space missions. Countries like China, India, and Japan are leading in leveraging electric propulsion for their satellite and space exploration activities.

  • Who are the key players in the electric propulsion satellites market?

    Major companies include Accion Systems, Airbus, Aliena Pte Ltd., ArianeGroup, Astra, Busek Co. Inc., CU Aerospace, ENPULSION GmbH, Moog Inc., Neutron Star Systems, Northrop Grumman, Orbion Space Technology, Phase Four Inc., Safran, Sitael S.p.A., and Thales Alenia Space.

Buying Options

Original price was: $9,999.00.Current price is: $8,999.00.
Original price was: $4,999.00.Current price is: $3,999.00.
Original price was: $3,999.00.Current price is: $2,999.00.
Speak To Analyst
  • +1 (614) 602 2897
  • sales@insidermarketresearch.com