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Global Electric Propulsion Satellite Market Size By Propulsion Type, By Satellite Type, By Technology, By Geographic Scope And Forecast


Published on: 2024-08-07 | No of Pages : 320 | Industry : latest updates trending Report

Publisher : MIR | Format : PDF&Excel

Global Electric Propulsion Satellite Market Size By Propulsion Type, By Satellite Type, By Technology, By Geographic Scope And Forecast

Electric Propulsion Satellite Market Size And Forecast

Electric Propulsion Satellite Market size was valued at USD 13.58 Billion in 2023 and is projected to reach USD 24.58 Billion by 2030, growing at a CAGR of 7.61% during the forecast period 2024-2030.

Global Electric Propulsion Satellite Market Drivers

The market drivers for the Electric Propulsion Satellite Market can be influenced by various factors. These may include

  • Extended Lifespan of Satellites In general, electric propulsion technologies are more efficient than conventional chemical propulsion systems. This increases the amount of fuel that satellites can carry and lengthens their operating life.
  • Economy of Cost In the long term, electric propulsion solutions are frequently more economical. Even while the initial outlay may be more, during the course of the satellite’s mission, cost savings are achieved due to the decreased requirement for bulky, pricy chemical propellants and the longer operational life.
  • Mass reduction and fuel efficiency Electric propulsion systems may produce thrust more effectively and with less propellant because they have a higher specific impulse. As a result, the satellite’s mass is significantly reduced, enabling bigger payloads or cheaper launch expenses.
  • Growing Requirement for Low Earth Orbit (LEO) and Geostationary Satellites The necessity for effective propulsion systems that can improve satellite performance is being driven by the growing demand for communication, Earth observation, and navigation satellites, especially in low-Earth orbit and geostationary orbit.
  • Technological Developments in Electric Propulsion Electric propulsion systems are evolving as a result of ongoing research and development, becoming more dependable, scalable, and appropriate for a range of satellite missions.
  • Environmental Factors to Be Considered Because electric propulsion uses less harmful chemical propellants and produces less space debris, it is more environmentally friendly, which is in line with the growing concerns about sustainability and environmental effect.
  • Funding and Initiatives by the Government Electric propulsion technology research and development is being funded by both public and commercial space agencies, which promotes innovation and expands the market.
  • Growing Interest from Businesses Using Commercial Satellites Demand for satellites with electric propulsion is rising as more and more commercial satellite operators realize the advantages of electric propulsion systems in terms of reduced operating costs and increased mission flexibility.

Global Electric Propulsion Satellite Market Restraints

Several factors can act as restraints or challenges for the Electric Propulsion Satellite Market. These may include

  • High Initial Costs Developing and integrating electric propulsion systems into satellites might come with a hefty upfront cost. For certain satellite operators, particularly those with limited funds, this may serve as a constraint.
  • Technological Difficulties Although electric propulsion systems are more effective, there may be technological difficulties with their creation, integration, and upkeep. Because of concerns regarding electric propulsion’s dependability and the requirement for specialist knowledge, some businesses might be reluctant to implement it
  • Limited Power Generation The energy source for electric propulsion systems is usually solar power. The power generation may not be sufficient during times of eclipse or limited exposure to sunlight, which could affect the satellite’s functionality.
  • Weight considerations The satellite’s total weight may increase due to the additional parts needed for electric propulsion systems, such as ion thrusters and power processing units. This could be a problem for missions where weight restrictions are tight.
  • Regulatory Challenges The use of electric propulsion systems could need regulatory clearance, and the use of specific propellants in electric propulsion systems might raise questions about the environmental effects of doing so.
  • Limited Payload Capacity Electric propulsion systems may have less thrust than conventional chemical propulsion systems, but they are frequently selected for their propellant-saving efficiency. This may reduce the mission’s cargo capacity.
  • Integration Problems It might be difficult to integrate electric propulsion systems into new satellite designs or to retrofit existing spacecraft with them. There could be problems with compatibility with current satellite platforms, which would provide new difficulties.

Global Electric Propulsion Satellite Market Segmentation Analysis

The Global Electric Propulsion Satellite Market is Segmented on the basis of Propulsion Type, Satellite Type, Technology, and Geography.

Electric Propulsion Satellite, By Propulsion Type

  • Full Electric Satellites powered solely by electric propulsion, offering high fuel efficiency and long mission durations. This segment is the fastest-growing.
  • Hybrid Satellites using both chemical and electric propulsion, providing flexibility and overcoming limitations of each technology. This segment is gradually declining in share.

Electric Propulsion Satellite, By Satellite Type

  • Nanosatellites Small satellites (1-10kg) increasingly adopting electric propulsion due to its low weight and fuel efficiency.
  • Microsatellites Medium-sized satellites (10-100kg) utilizing electric propulsion for station keeping and orbit raising.
  • Communications Satellites Large satellites for relaying telecommunications signals, employing electric propulsion for precise positioning and extended lifespan.

Electric Propulsion Satellite, By Technology

  • Electrothermal Propulsion Uses heated propellant for thrust, offering good efficiency and simple design.
  • Electrostatic Propulsion Accelerates ions using electric fields, providing high fuel efficiency and thrust but complex systems.
  • Electromagnetic Propulsion Uses magnetic fields to accelerate plasma, offering high thrust but complex and power-hungry systems.

Electric Propulsion Satellite, By Region

  • North America Market conditions and demand in the United States, Canada, and Mexico.
  • Europe Analysis of the Electric Propulsion Satellite Market in European countries.
  • Asia-Pacific Focusing on countries like China, India, Japan, South Korea, and others.
  • Middle East and Africa Examining market dynamics in the Middle East and African regions.
  • Latin America Covering market trends and developments in countries across Latin America.

Key Players

The major players in the Electric Propulsion Satellite Market are

  • Airbus SE
  • Northrop Grumman Corporation
  • Safran SA
  • Thales Group
  • The Boeing Company
  • Accion Systems Inc
  • Busek Co. Inc
  • Sitael S.p.A.

Report Scope

REPORT ATTRIBUTESDETAILS
STUDY PERIOD

2020-2030

BASE YEAR

2023

FORECAST PERIOD

2024-2030

HISTORICAL PERIOD

2020-2022

UNIT

Value (USD Billion)

KEY COMPANIES PROFILED

Airbus SE, Northrop Grumman Corporation, Safran SA, Thales Group, The, Boeing Company, Accion Systems Inc, Busek Co. Inc.

SEGMENTS COVERED

By Type, By Satellite Type, By Technology, and By Geography.

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