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Space Propulsion Market by Type (Chemical Propulsion, Non-Chemical Propulsion), System Component (Thrusters, Propellant Feed System, Nozzle), Platform (Satellite, Launch Vehicle), Orbit, End User, Orbit, Support Service, Region - Global Forecast to 2026

Space Propulsion Market by Type (Chemical Propulsion, Non-Chemical Propulsion), System Component (Thrusters, Propellant Feed System, Nozzle), Platform (Satellite, Launch Vehicle), Orbit, End User, Orbit, Support Service, Region - Global Forecast to 2026

The space propulsion market is projected to grow from USD 8.3 billion in 2021 to USD 22.5 billion by 2026, at a CAGR of 22.1% from 2021 to 2026. Developed economies of North America and Europe are currently the leaders in the market, considering the strong presence of OEMs in these regions, while emerging economies, especially those from the Asia Pacific region, are projected to be the upcoming major markets for space propulsion systems.

Conventionally, access to space has been extremely costly. But prices continue to fall with each passing decade as new technologies are created and the sector becomes more commercialized. SpaceX, for instance, has demonstrated the capability of reusable rockets. Other advances in the future may involve lighter materials, the use of inflatable modules, new fuel types, space planes, and/or more efficient engines.

This report categories space propulsion based on propulsion type as chemical propulsion technologies such as solid, liquid, hybrid, and cold gas propulsion and non-chemical propulsion technologies such as electric, solar, nuclear, and laser propulsions. Based components used in space propulsion systems, this report studies thrusters, propellant feed systems, rocket motors, nozzles, reactors, propulsion thermal control, and power processing units (PPU).

Also covers space propulsion market comprising chemical and non-chemical propulsions across government & military and commercial end users. Based on orbit, the report is categorized into low Earth orbit (LEO), medium Earth orbit (MEO), geostationary or geosynchronous Earth orbit (GEO), and beyond geosynchronous orbit. Furthermore, by region, covers North America, Europe, Asia Pacific, South America and Middle East &Africa.

Based on component systems used in space propulsion systems, this report studies thrusters, propellant feed systems, rocket motors, nozzles, reactors, propulsion thermal control, and power processing units (PPU). By system component, the thrusters segment is projected to lead the space propulsion market during the forecast period. Thrusters are extensively used for maneuvering and orbit control of satellites.

Based on propulsion type, report is categorized as chemical propulsion technologies, which include solid, liquid, hybrid, and cold gas propulsion and non-chemical propulsion technologies such as electric, solar, nuclear, and laser propulsions. By propulsion type, the non-chemical propulsion segment is projected to lead the space propulsion market during the forecast period. The demand for low-cost and reusable space propulsion systems is fueling the growth of the non-chemical propulsion segment.

By platform, the satellites segment is projected to lead the space propulsion market and have the highest CAGR during the forecast period due to the increasing small satellite launches for commercial and government applications and the adoption of advanced technology in small satellites and CubeSats

Based on end use segment, this research report covers space propulsion market comprising chemical and non-chemical propulsions across government & defense and commercial end users. Based on end users, Government & defense sub-segment would have the highest market share during the forecast period. The growth of this segment can be attributed to the increasing number of space exploration missions and the rising budgets for space exploration.

By orbit, the LEO (Low earth Orbit) segment is projected to lead the space propulsion market during the forecast period. The rising demand for communications and earth observation satellites fueling the growth of the Low Earth Orbit (LEO) segment.

North America is projected to hold the largest share of the space propulsion market during the forecast period. This is owing to the ever-rising small satellite launches and the entry of private players like SpaceX, which have boosted the space industry in recent times.

The break-up of profile of primary participants in the space propulsion market:
•By Company Type: Tier 1 – 49%, Tier 2 – 37%, and Tier 3 – 14%
•By Designation: C Level – 55%, Director Level – 27%, and Others – 18%
•By Region: North America – 55%, Europe – 27%, Asia Pacific – 9%, RoW – 9%

Key players of space propulsion market comprise Safran (France), Aerojet Rocketdyne Holdings, Inc. (US), SpaceX (US), IHI Corporation (Japan), and Northrop Grumman Corporation (US) and few others. These key players offer drones applicable for various sector and have well-equipped and strong distribution networks across the North American, European, Asia Pacific, Middle East & Africa and South America.

Research Coverage:
This report categories space propulsion based on propulsion type as chemical propulsion technologies such as solid, liquid, hybrid, and cold gas propulsion and non-chemical propulsion technologies such as electric, solar, nuclear, and laser propulsions. Based components used in space propulsion systems, this report studies thrusters, propellant feed systems, rocket motors, nozzles, reactors, propulsion thermal control, and power processing units (PPU). Also covers space propulsion market comprising chemical and non-chemical propulsions across government & military and commercial end users. Based on orbit, the report is categorised into low Earth orbit (LEO), medium Earth orbit (MEO), geostationary or geosynchronous Earth orbit (GEO), and beyond geosynchronous orbit.

Furthermore, by region, this research covers North America, Europe, Asia Pacific, South America and Middle East &Africa , along with their key countries. The scope of the report covers detailed information regarding the major factors, such as drivers, restraints, challenges, and opportunities, influencing the growth of the space propulsion market. A detailed analysis of the key industry players has been done to provide insights into their business overviews; solutions and services; key strategies; agreements, collaborations, new product launches, contracts, expansion, acquisitions, and partnerships associated with the space propulsion market.

Reasons to buy this report:
The report will help the market leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall space propulsion market and the subsegments. This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and to plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the market and provides them with information on key market drivers, restraints, challenges, and opportunities.

The report provides insights on the following pointers:
•Market Penetration: Comprehensive information on space propulsion offered by the top players in the market
•Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the space propulsion market
•Market Development: Comprehensive information about lucrative markets – the report analyzes the space propulsion market across varied regions
•Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the space propulsion market
•Competitive Assessment: In-depth assessment of market shares, growth strategies and service offerings of leading players in the space propulsion market
Table of Contents

1INTRODUCTION34
1.1OBJECTIVES OF THE STUDY34
1.2MARKET DEFINITION34
1.2.1INCLUSIONS & EXCLUSIONS35
1.3STUDY SCOPE35
1.3.1MARKETS COVERED35
FIGURE 1SPACE PROPULSION MARKET SEGMENTATION35
1.3.2REGIONAL SCOPE36
1.3.3YEARS CONSIDERED FOR THE STUDY36
1.4CURRENCY & PRICING37
1.5USD EXCHANGE RATES37
1.6LIMITATIONS37
1.7MARKET STAKEHOLDERS38
1.8SUMMARY OF CHANGES38
2RESEARCH METHODOLOGY40
2.1RESEARCH DATA40
FIGURE 2REPORT PROCESS FLOW40
FIGURE 3SPACE PROPULSION MARKET: RESEARCH DESIGN41
2.1.1SECONDARY DATA42
2.1.1.1Key data from secondary sources42
2.1.2PRIMARY DATA43
2.1.2.1Key data from primary sources43
2.1.2.2Breakdown of primaries43
FIGURE 4BREAKDOWN OF PRIMARY INTERVIEWS: BY COMPANY TYPE, DESIGNATION, AND REGION43
TABLE 1PRIMARY DETAILS44
2.2MARKET DEFINITION & SCOPE44
2.2.1SEGMENT DEFINITIONS44
2.2.1.1Space propulsion market, by propulsion type44
2.2.1.2Space propulsion market, by system component44
2.2.1.3Space propulsion market, by platform44
2.2.1.4Space propulsion market, by end user44
2.2.1.5Space propulsion market, by orbit44
2.2.1.6Space propulsion market, by support service44
2.3MARKET SIZE ESTIMATION & METHODOLOGY45
2.3.1BOTTOM-UP APPROACH45
FIGURE 5MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH46
2.3.1.1COVID-19 impact on market analysis46
2.3.2TOP-DOWN APPROACH47
FIGURE 6MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH47
2.4DATA TRIANGULATION48
FIGURE 7DATA TRIANGULATION48
2.5MARKET SIZING & FORECASTING49
2.6ASSUMPTIONS & ASSOCIATED RISKS49
2.7RISKS49
2.8LIMITATIONS50
3EXECUTIVE SUMMARY51
FIGURE 8THRUSTERS SEGMENT TO LEAD SPACE PROLUSION MARKET FROM
2021 TO 202651
FIGURE 9NON-CHEMICAL PROPULSION TO DOMINATE SPACE PROPULSION MARKET FROM 2021 TO 202652
FIGURE 10SATELLITES SEGMENT PROJECTED TO LEAD SPACE PROPULSION MARKET FROM 2021 TO 202652
FIGURE 11GOVERNMENT & DEFENSE END USERS PROJECTED TO LEAD SPACE PROPULSION MARKET FROM 2021 TO 202653
FIGURE 12NORTH AMERICA PROJECTED TO COMMAND LARGEST SHARE FROM
2021 TO 202653
4PREMIUM INSIGHTS54
4.1ATTRACTIVE OPPORTUNITIES IN SPACE PROPULSION MARKET54
FIGURE 13INCREASE IN SPACE EXPLORATION MISSIONS TO DRIVE MARKET54
4.2SPACE PROPULSION MARKET, BY PLATFORM54
FIGURE 14SATELLITES SEGMENT EXPECTED TO REGISTER HIGHEST CAGR DURING FORECAST PERIOD54
4.3SPACE PROPULSION MARKET, BY SYSTEM COMPONENT55
FIGURE 15THRUSTERS SEGMENT TO LEAD SPACE PROLUSION MARKET FROM
2021 TO 202655
4.4SPACE PROPULSION MARKET, BY ORBIT55
FIGURE 16LOW EARTH ORBIT (LEO) SEGMENT TO DOMINATE DURING FORECAST PERIOD55
4.5SPACE PROPULSION MARKET, BY END USER56
FIGURE 17COMMERCIAL SEGMENT TO GROW FASTER DURING FORECAST PERIOD56
4.6SPACE PROPULSION MARKET, BY PROPULSION TYPE56
FIGURE 18NON-CHEMICAL PROPULSION TO BE LARGER SEGMENT
DURING FORECAST PERIOD56
4.7SPACE PROPULSION MARKET, BY REGION57
FIGURE 19NORTH AMERICAN MARKET TO REGISTER HIGHEST CAGR
DURING FORECAST PERIOD57
5MARKET OVERVIEW58
5.1INTRODUCTION58
5.2MARKET DYNAMICS59
FIGURE 20SPACE PROPULSION MARKET DYNAMICS: DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES59
5.2.1DRIVERS59
5.2.1.1Increase in number of space exploration missions59
TABLE 2SPACE MISSIONS FROM 2020 TO 202660
5.2.1.2Increasing demand for LEO-based services60
TABLE 3SATELLITE LAUNCH VOLUME, BY LEO CONSTELLATION PROVIDER,
2019–202561
TABLE 4LEO AND MEO CONSTELLATIONS61
5.2.1.3Increasing focus on reducing mission costs61
5.2.1.4Demand for advanced electric propulsion systems62
5.2.1.5Technological advancements in space propulsion62
5.2.1.6Significant investments by venture capital companies in space exploration missions62
FIGURE 21VENTURE FUNDING IN SPACE TECH63
5.2.1.7Increasing use of small satellites in various applications63
FIGURE 22SMALL SATELLITE LAUNCHES (2015-2020)64
TABLE 5SMALL SATELLITE LAUNCH VOLUME, BY TYPE, 2018–202564
5.2.1.8Increasing players in space launch vehicles market64
FIGURE 23ESTABLISHED EMERGING SPACE FIRMS65
5.2.1.9Increasing demand for commercial-off-the-shelf components
for CubeSats65
FIGURE 24CUBESATS LAUNCHED FROM 2016 TO 202166
5.2.2RESTRAINTS66
5.2.2.1Complex government frameworks and stringent policies66
TABLE 6MAIN BARRIERS TO COPERNICUS PROJECT66
5.2.2.2Lack of dedicated small satellite launch vehicles67
FIGURE 25SMALL SATELLITE LAUNCHER STATUS68
5.2.3OPPORTUNITIES68
5.2.3.1Increase in research & development in space propulsion technologies68
5.2.3.2Technological upgrade in Electric propulsion to reduce cost and improve efficiency68
5.2.3.3Increased government investments in space technology69
FIGURE 26INVESTMENTS IN SPACE, 2000-2019 (USD BILLION)69
5.2.3.4Technological development in plasma thrusters70
5.2.3.5Increase in use of nuclear technology in propulsion systems70
5.2.4CHALLENGES71
5.2.4.1Concerns over space debris71
5.2.4.2Emissions due to space missions71
5.2.4.3Failure of satellite launch vehicles and satellites71
TABLE 7INSTANCES OF EARTH OBSERVATION SATELLITE LAUNCH FAILURES72
5.3COVID-19 IMPACT ON SPACE PROPULSION MARKET72
FIGURE 27COVID-19 IMPACT ON SPACE PROPULSION MARKET72
FIGURE 28COVID-19 IMPACT ON SUPPLY AND DEMAND SIDES OF SPACE PROPULSION MARKET73
5.3.1RANGES AND SCENARIOS74
FIGURE 29SPECTRUM OF SCENARIOS FOR SPACE PROPULSION MARKET – 202675
5.4SUPPLY CHAIN ANALYSIS OF SPACE PROPULSION MARKET76
FIGURE 30SUPPLY CHAIN ANALYSIS76
5.5SPACE PROPULSION MARKET ECOSYSTEM77
FIGURE 31ECOSYSTEM MAP: SPACE PROPULSION MARKET77
5.6TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS77
5.6.1REVENUE SHIFT AND NEW REVENUE POCKETS FOR SPACE PROPULSION MARKET PLAYERS78
5.7AVERAGE SELLING PRICES78
TABLE 8AVERAGE PRICE OF SPACE PROPULSION THRUSTERS, 2020-2022 (USD)78
TABLE 9PRICING RANGE OF SATELLITES, 2020-2022 (USD MILLION)78
TABLE 10PRICING RANGE FOR SATELLITE SUBSYSTEMS, 2020-202279
TABLE 11PRICING RANGE FOR CUBESATS (USD MILLION)79
TABLE 12PRICING RANGE FOR CUBESAT SUBSYSTEMS80
TABLE 13COST COMPOSITION OF VARIOUS TYPES OF SPACECRAFT80
TABLE 14COST COMPARISON OF LAUNCH VEHICLES, 2018-202280
TABLE 15NASA’S SPACE TRANSPORTATION SYSTEM AND COMPONENTS COSTING81
TABLE 16COST COMPOSITION OF LEO PAYLOADS FROM 1981–2060 (FORECAST)81
5.8OPERATIONAL DATA82
TABLE 17GLOBAL SATELLITE LAUNCH VOLUME, BY SATELLITE TYPE, 2019–202582
TABLE 18SATELLITE LAUNCHES, BY PRIME CONTRACTOR (VOLUME), 2019–202582
TABLE 19US AND EUROPE: SATELLITE LAUNCH VOLUME, BY OPERATOR/OWNER, 2019–202583
5.9PORTER’S FIVE FORCES ANALYSIS83
TABLE 20SPACE PROPULSION MARKET: PORTER’S FIVE FORCES ANALYSIS84
5.9.1THREAT OF NEW ENTRANTS84
5.9.2THREAT OF SUBSTITUTES84
5.9.3BARGAINING POWER OF SUPPLIERS85
5.9.4BARGAINING POWER OF BUYERS85
5.9.5DEGREE OF COMPETITION85
5.10TARIFF AND REGULATORY LANDSCAPE86
5.10.1REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS86
5.10.1.1North America86
5.10.1.2Europe86
5.10.1.3Asia Pacific87
5.10.1.4Middle East87
5.11TRADE ANALYSIS88
TABLE 21COUNTRY-WISE IMPORT, 2019–2020 (USD THOUSAND)88
TABLE 22COUNTRY-WISE EXPORTS, 2019–2020 (USD THOUSAND)88
5.12EVENTS AND CONFERENCES IN 2022-202389
TABLE 23LIST OF UPCOMING SPACE PROPULSION EVENTS AND CONFERENCES,
2022-202389
6INDUSTRY TRENDS91
6.1INTRODUCTION91
6.2TECHNOLOGY TRENDS91
6.2.1ULTRA COLD STORAGE TANKS FOR LIQUID HYDROGEN TO SUPPORT FUTURE SPACE MISSIONS91
6.2.2USE OF MICRO PROPULSION91
6.2.3SPACE ELEVATOR PROPULSION BY MECHANICAL WAVES92
6.2.4LOW-COST ELECTRIC PROPULSION THRUSTER FOR DEEP-SPACE
ROBOTIC MISSIONS92
6.2.5DEDICATED LAUNCH VEHICLES FOR SMALL SATELLITES93
TABLE 24STATE-OF-THE-ART SMALL SATELLITE -CUBESAT TECHNOLOGIES93
6.2.6USE OF PLASMA THRUSTERS FOR SPACE EXPLORATION94
6.2.7NUCLEAR PROPULSION: GAME-CHANGER FOR SPACE EXPLORATION95
6.2.8USE OF GREEN FUEL AS PROPELLANT IN SPACECRAFT95
6.2.9IMPROVEMENTS IN PROPELLANT TECHNOLOGY95
6.2.10HYPERSONIC INFLATABLE AERODYNAMIC DECELERATOR (HIAD)-
RECOVERY TECHNOLOGY96
6.2.11REUSABLE LAUNCH VEHICLES96
TABLE 25EXAMPLES OF LAUNCH VEHICLES97
6.3TECHNOLOGY ANALYSIS97
6.3.1DIPOLE DRIVE FOR SPACE PROPULSION97
6.3.2ION PROPULSION97
6.3.3CUBESAT-BASED NEW PROPULSION SYSTEMS98
6.3.3.1NASA Solar Sail Mission98
6.3.3.2Water as Fuel98
6.3.3.3Iodine Electric Propulsion System98
6.4USE CASES99
6.4.1WATER ELECTROLYSIS PROPULSION99
6.4.2SOLAR SAIL TECHNOLOGY99
6.4.3BUSEK FIRM’S BHT-200 - HIGH PERFORMANCE AND MATURE
PROPULSION SYSTEM100
6.4.4PROPULSION TECHNOLOGY IN SUPER HEAVY-LIFT EXPENDABLE
LAUNCH VEHICLE100
6.4.5PROPULSION TECHNOLOGY FOR CUBESATS101
6.5IMPACT OF MEGATRENDS101
6.5.1MINIATURIZATION IN SPACE TECHNOLOGY101
6.5.2SPACE 4.0101
6.5.3RIDESHARE PROGRAM102
6.6INNOVATIONS & PATENT REGISTRATIONS102
TABLE 26INNOVATIONS & PATENT REGISTRATIONS, 2015–2019103
7SPACE PROPULSION MARKET, BY PLATFORM105
7.1INTRODUCTION106
FIGURE 34SATELLITES SEGMENT PROJECTED TO REGISTER HIGHEST CAGR
DURING FORECAST PERIOD106
TABLE 27SPACE PROPULSION MARKET, BY PLATFORM, 2018–2020 (USD MILLION)106
TABLE 28SPACE PROPULSION MARKET, BY PLATFORM, 2021–2026 (USD MILLION)107
7.2SATELLITES107
TABLE 29SPACE PROPULSION MARKET, BY SATELLITE SIZE,
2018–2020 (USD MILLION)107
TABLE 30SPACE PROPULSION MARKET, BY SATELLITE SIZE,
2021–2026 (IN USD MILLION)108
TABLE 31SATELLITE VOLUME, BY SATELLITE SIZE, 2018–2026 (UNITS)108
7.2.1CUBESATS108
7.2.1.1Growing demand for in-space propulsion108
7.2.2SMALL SATELLITES109
TABLE 32SMALL SATELLITES: SPACE PROPULSION MARKET, BY TYPE,
2018–2020 (USD MILLION)109
TABLE 33SMALL SATELLITES: SPACE PROPULSION MARKET, BY TYPE,
2021–2026 (USD MILLION)109
7.2.2.1Nanosatellites110
7.2.2.1.1Demand for miniaturization of space technology110
7.2.2.2Microsatellites110
7.2.2.2.1Demand for complex space missions boosts segment110
7.2.2.3Minisatellites110
7.2.2.3.1Wide-scale use of minisatellites for Earth observation and broadband internet110
7.2.3MEDIUM SATELLITES111
7.2.3.1INCREASE IN LAUNCH OF MEDIUM SATELLITES FOR SCIENTIFIC RESEARCH & EXPLORATION111
7.2.4LARGE SATELLITES111
7.2.4.1Increasing launch of large satellites for scientific missions in GEO111
7.3CAPSULES/CARGOS111
TABLE 34CAPSULES/CARGOS: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)111
TABLE 35CAPSULES/CARGOS: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)112
7.3.1CREWED SPACECRAFT OR HUMAN SPACE FLIGHT112
7.3.1.1Increasing launch of crewed spacecraft to ISS112
7.3.2UNCREWED OR UNMANNED SPACECRAFT112
7.3.2.1Increased launch of unmanned spacecraft for space observation missions112
7.4INTERPLANETARY SPACECRAFT & PROBES113
7.4.1INCREASE IN INTERPLANETARY SPACECRAFT & PROBE MISSIONS FOR SCIENTIFIC OBSERVATION113

7.5ROVERS/SPACECRAFT LANDERS113
7.5.1DEMAND FROM SPACE EXPLORATION MISSIONS FUELS SEGMENT113
7.6LAUNCH VEHICLES113
TABLE 36LAUNCH VEHICLES: SPACE PROPULSION MARKET, BY TYPE,
2018–2020 (USD MILLION)114
TABLE 37LAUNCH VEHICLES: SPACE PROPULSION MARKET, BY TYPE,
2021–2026 (USD MILLION)114
7.6.1SMALL LAUNCH VEHICLES114
7.6.1.1Increasing demand for small satellite constellations boost segment114
7.6.2MEDIUM TO HEAVY LAUNCH VEHICLES115
7.6.2.1Growing demand for medium to heavy constellations for satellite applications fuels segment115
7.6.3REUSABLE LAUNCH VEHICLES115
7.6.3.1Increasing need to reduce mission costs to access space drives segment115
8SPACE PROPULSION MARKET, BY PROPULSION TYPE116
8.1INTRODUCTION117
FIGURE 35CHEMICAL PROPULSION TO REGISTER HIGHER CAGR
DURING FORECAST PERIOD117
TABLE 38SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)117
TABLE 39SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)118
8.2CHEMICAL PROPULSION118
TABLE 40CHEMICAL SPACE PROPULSION MARKET, BY TYPE,
2018–2020 (USD MILLION)118
TABLE 41CHEMICAL SPACE PROPULSION MARKET, BY TYPE,
2021–2026 (USD MILLION)118
8.2.1SOLID119
8.2.1.1Solid propellants can provide significant amount of thrust119
8.2.1.2Homogeneous119
8.2.1.3Heterogeneous/Composites119
8.2.2LIQUID120
8.2.2.1High demand for liquid propellant thrusters for active and future launch vehicles120
TABLE 42LIQUID PROPELLANTS USED IN VARIOUS FLIGHTS VEHICLES120
8.2.2.2Monopropellant121
8.2.2.2.1Non-green121
8.2.2.2.2Green121
8.2.2.3Bi-propellent121
8.2.2.3.1Cryogenic122
8.2.2.3.2Hypergolic122

8.2.3HYBRID122
8.2.3.1Efficient performance, reduced weight, and advanced cooling methodology drive segment122
8.2.4COLD GAS123
8.2.4.1Inert fuel - one of the safest possible for rocket engines123
8.3NON-CHEMICAL PROPULSION123
TABLE 43NON-CHEMICAL SPACE PROPULSION MARKET, BY TYPE,
2018–2020 (USD MILLION)123
TABLE 44NON-CHEMICAL SPACE PROPULSION MARKET, BY TYPE,
2021–2026 (USD MILLION)124
8.3.1ELECTRIC OR ION PROPULSION124
8.3.1.1Efficient use of fuel boosts segment growth124
8.3.1.2Electrothermal124
8.3.1.2.1High demand for generating required level of thrust124
8.3.1.2.2Argon125
8.3.1.2.3Hydrogen125
8.3.1.2.4Others125
8.3.1.3Electromagnetic125
8.3.1.3.1High proficiency to convert power to thrust125
8.3.1.3.2PTFE125
8.3.1.4Electrostatic126
8.3.1.4.1Increased use of krypton for ion propulsion to raise orbit, perform maneuvers, and de-orbit126
8.3.1.4.2Xenon126
8.3.1.4.3Krypton126
8.3.1.4.4Others127
8.3.2SOLAR PROPULSION127
8.3.2.1Solar sail propulsion127
8.3.2.1.1Demand driven by need to maneuver small satellites127
8.3.2.2Solar Electric Propulsion (SEP)127
8.3.2.2.1Increased space exploration and science missions fuel segment127
8.3.2.3Solar thermal propulsion128
8.3.2.3.1Demand driven by need for cost-effective alternatives to conventional propulsion technologies128
8.3.3TETHER PROPULSION128
8.3.3.1Reduced cost of in-space propulsion drives segment128
8.3.4NUCLEAR PROPULSION128
8.3.4.1High energy, which directly reduces spacecraft travel time, boosts growth128
8.3.5LASER PROPULSION129
8.3.5.1Laser propulsion reduces space travel time129

9SPACE PROPULSION MARKET, BY SYSTEM COMPONENT130
9.1INTRODUCTION131
FIGURE 36THRUSTERS SEGMENT TO DOMINATE DURING FORECAST PERIOD131
TABLE 45SPACE PROPULSION MARKET, BY SYSTEM COMPONENT,
2018–2020 (USD MILLION)132
TABLE 46SPACE PROPULSION MARKET, BY SYSTEM COMPONENT,
2021–2026 (USD MILLION)132
9.2THRUSTERS132
TABLE 47THRUSTERS: SPACE PROPULSION MARKET, BY TYPE,
2018–2020 (USD MILLION)133
TABLE 48THRUSTERS: SPACE PROPULSION MARKET, BY TYPE,
2021–2026 (USD MILLION)133
9.2.1CHEMICAL PROPULSION THRUSTERS133
TABLE 49CHEMICAL PROPULSION THRUSTERS: SPACE PROPULSION MARKET, BY TYPE, 2018–2020 (USD MILLION)133
TABLE 50CHEMICAL PROPULSION THRUSTERS: SPACE PROPULSION MARKET, BY TYPE, 2021–2026 (USD MILLION)134
9.2.1.1Cold & warm gas thrusters134
9.2.1.1.1Used widely for less complex and small bus structures134
9.2.1.2Monopropellant thrusters134
9.2.1.2.1Best used for attitude control and satellite decommissioning134
9.2.1.3Bipropellant thrusters135
9.2.1.3.1Best suited for maneuvering and orbit control of large satellites135
9.2.2ELECTRIC PROPULSION THRUSTERS135
9.2.2.1Widely used to extend operational life of satellites and reduce launch and operation costs135
9.2.2.2Gridded Ion Engine (GIE) or ion thruster135
9.2.2.3Hall Effect Thruster (HET)136
9.2.2.4Pulsed Plasma Thruster (PPT)136
9.2.2.5Magneto Plasma Dynamic (MPD) thruster136
9.3PROPELLANT FEED SYSTEMS136
TABLE 51PROPELLANT FEED SYSTEMS: SPACE PROPULSION MARKET, BY TYPE,
2018–2020 (USD MILLION)137
TABLE 52PROPELLANT FEED SYSTEMS: SPACE PROPULSION MARKET, BY TYPE,
2021–2026 (USD MILLION)137
TABLE 53PROPELLANT FEED SYSTEMS: SPACE PROPULSION MARKET, BY PLATFORM, 2018–2020 (USD MILLION)137
TABLE 54PROPELLANT FEED SYSTEMS: SPACE PROPULSION MARKET, BY PLATFORM, 2021–2026 (USD MILLION)138
9.3.1PROPELLANT TANKS138
TABLE 55PROPELLANT TANKS: SPACE PROPULSION MARKET, BY TYPE,
2018–2020 (USD MILLION)138
TABLE 56PROPELLANT TANKS: SPACE PROPULSION MARKET, BY TYPE,
2021–2026 (USD MILLION)138
9.3.1.1Monopropellant tanks139
9.3.1.1.1Monopropellant composite tanks significantly reduce cost and weight of heavy-lift launch vehicles139
9.3.1.2Bipropellant tanks139
9.3.1.2.1Bipropellant tanks majorly used for larger spacecraft and satellites139
9.3.1.3Oxidizer tank139
9.3.1.3.1Absence of oxygen in atmosphere necessitates use of oxidizer tank139
9.3.2PRESSURE & FLOW REGULATORS139
9.3.2.1Development of new & lightweight high-flow regulators underway139
9.3.3VALVES140
9.3.3.1Improved manufacturing methods enhance engine performance, reliability, and timely execution140
9.3.4TURBOPUMPS140
9.3.4.1Play important role in flow rate and injection pressure management140
9.3.5COMBUSTION CHAMBERS140
9.3.5.1Additive manufacturing technologies and advanced materials used to develop combustion chambers140
9.4ROCKET MOTORS141
9.4.1USE OF SOLID PROPULSION SYSTEM AT BOOSTER STAGES DRIVES DEMAND141
9.5NOZZLES141
9.5.1ADVANCEMENTS IN MANUFACTURING TECHNIQUES HELP CATER TO TIMELY EXECUTION OF SPACE MISSIONS141
9.6PROPULSION THERMAL CONTROL142
9.6.1NEED FOR TEMPERATURE STABILITY FOR SPACECRAFT FUELS SEGMENT142
9.7POWER PROCESSING UNITS142
9.7.1NEEDED FOR SUPPLY OF REQUIRED VOLTAGE TO SUBSYSTEMS OF SPACECRAFT142
9.8OTHERS142
10SPACE PROPULSION MARKET, BY ORBIT143
10.1INTRODUCTION144
FIGURE 37LEO SEGMENT EXPECTED TO REGISTER HIGHEST CAGR
DURING FORECAST PERIOD144
TABLE 57SPACE PROPULSION MARKET, BY ORBIT, 2018–2020 (USD MILLION)144
TABLE 58SPACE PROPULSION MARKET, BY ORBIT, 2021–2026 (USD MILLION)145
10.2LOW EARTH ORBIT (LEO)145
10.2.1RISE OF PRIVATE PLAYERS IN SPACE SECTOR LEADS TO MORE LEO LAUNCHES145
10.3MEDIUM EARTH ORBIT (MEO)145
10.3.1SEGMENT DRIVEN BY DEMAND FOR SATELLITE INTERNET AND COMMUNICATION145
10.4GEOSTATIONARY EARTH ORBIT (GEO)146
10.4.1NEED FOR PAYLOADS WITH LONG LIFE EXPECTANCY FUELS SEGMENT146
10.5BEYOND GEOSYNCHRONOUS ORBIT146
10.5.1NEW TECHNOLOGIES TO BOOST FUTURE DEEP-SPACE EXPLORATION146
11SPACE PROPULSION MARKET, BY END USER148
11.1INTRODUCTION149
FIGURE 38COMMERCIAL SEGMENT TO GROW FASTER DURING FORECAST PERIOD149
TABLE 59SPACE PROPULSION MARKET, BY END USER, 2018–2020 (USD MILLION)149
TABLE 60SPACE PROPULSION MARKET, BY END USER, 2021–2026 (USD MILLION)150
11.2COMMERCIAL150
11.2.1INCREASING INVOLVEMENT OF PRIVATE PLAYERS IN GLOBAL SPACE INDUSTRY BOOSTS SEGMENT150
TABLE 61COMMERCIAL: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)150
TABLE 62COMMERCIAL: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)151
TABLE 63COMMERCIAL: SPACE PROPULSION MARKET, BY REGION,
2018–2020 (USD MILLION)151
TABLE 64COMMERCIAL: SPACE PROPULSION MARKET, BY REGION,
2021–2026 (USD MILLION)151
TABLE 65FUNDING BY COMMERCIAL ORGANIZATIONS FOR SPACE LAUNCHES,
2018–2021 (USD MILLION)152
TABLE 66FUNDING BY COMMERCIAL ORGANIZATIONS FOR SPACE LAUNCHES
(USD MILLION)154
11.2.2SATELLITE OPERATORS & OWNERS155
11.2.2.1Segment driven by extensive use of satellites for commercial applications and data transferability155
11.2.3SPACE LAUNCH SERVICE PROVIDERS155
11.2.3.1Major booster - emergence of private companies in launch services155
11.3GOVERNMENT & DEFENSE156
TABLE 67GOVERNMENT & DEFENSE: SPACE PROPULSION MARKET, BY END USER, 2018–2020 (USD MILLION)156
TABLE 68GOVERNMENT & DEFENSE: SPACE PROPULSION MARKET, BY END USER, 2021–2026 (USD MILLION)156
TABLE 69GOVERNMENT & DEFENSE: SPACE PROPULSION MARKET, BY REGION, 2018–2020 (USD MILLION)157
TABLE 70GOVERNMENT & DEFENSE: SPACE PROPULSION MARKET, BY REGION, 2021–2026 (USD MILLION)157
TABLE 71US NATIONAL SECURITY SPACE BUDGET REQUEST, BY MILITARY SERVICE, 2020 (USD MILLION)157
TABLE 72SPACE BUDGET BY NATIONAL SPACE AGENCIES (USD MILLION)158
11.3.1DEPARTMENTS OF DEFENSE159
11.3.1.1Increasing demand for real-time data and imaging boosts segment159
11.3.2NATIONAL SPACE AGENCIES159
11.3.2.1Segment fueled by demand for Earth observation and remote sensing159
11.3.3OTHERS159
12SPACE PROPULSION MARKET, BY SUPPORT SERVICE160
12.1INTRODUCTION160
12.2DESIGN, ENGINEERING, OPERATION & MAINTENANCE160
12.2.1NEED FOR ADVANCED DESIGN & ENGINEERING TO REDUCE COSTS & COMPLEXITIES OF PROPULSION SYSTEMS160
12.3HOT FIRING & ENVIRONMENTAL TEST EXECUTION160
12.3.1NEED TO INCREASE EFFICIENCY AND REDUCE FAILURES FUELS SEGMENT160
12.4FUELING & LAUNCH AND GROUND SUPPORT161
12.4.1FUELING & LAUNCH SUPPORT REQUIRED TO ENSURE MAXIMUM RELIABILITY & SAFETY161
13REGIONAL ANALYSIS162
13.1INTRODUCTION163
FIGURE 39NORTH AMERICA ESTIMATED TO ACCOUNT FOR LARGEST SHARE OF SPACE PROPULSION MARKET IN 2021164
TABLE 73SPACE PROPULSION MARKET, BY REGION, 2018–2020 (USD MILLION)164
TABLE 74SPACE PROPULSION MARKET, BY REGION, 2021–2026 (USD MILLION)165
13.2NORTH AMERICA165
FIGURE 40NORTH AMERICA SPACE PROPULSION MARKET SNAPSHOT166
TABLE 75NORTH AMERICA: SPACE PROPULSION MARKET, BY COUNTRY,
2018–2020 (USD MILLION)166
TABLE 76NORTH AMERICA: SPACE PROPULSION MARKET, BY COUNTRY,
2021–2026 (USD MILLION)167
TABLE 77NORTH AMERICA: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)167
TABLE 78NORTH AMERICA: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)167
TABLE 79NORTH AMERICA: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)168
TABLE 80NORTH AMERICA: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)168
TABLE 81NORTH AMERICA: SPACE PROPULSION MARKET, BY ORBIT,
2018–2020 (USD MILLION)169
TABLE 82NORTH AMERICA: SPACE PROPULSION MARKET, BY ORBIT,
2021–2026 (USD MILLION)169
TABLE 83NORTH AMERICA: SPACE PROPULSION MARKET, BY PROPULSION TYPE, 2018–2020 (USD MILLION)169
TABLE 84NORTH AMERICA: SPACE PROPULSION MARKET, BY PROPULSION TYPE, 2021–2026 (USD MILLION)169
TABLE 85NORTH AMERICA: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)170
TABLE 86NORTH AMERICA: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)170

13.2.1US170
13.2.1.1Increase in scheduled space expedition programs170
TABLE 87US: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)171
TABLE 88US: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)171
TABLE 89US: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)171
TABLE 90US: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)172
TABLE 91US: SPACE PROPULSION MARKET, BY ORBIT, 2018–2020 (USD MILLION)172
TABLE 92US: SPACE PROPULSION MARKET, BY ORBIT, 2021–2026 (USD MILLION)172
TABLE 93US: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)172
TABLE 94US: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)173
TABLE 95US: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)173
TABLE 96US: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)173
13.2.2CANADA173
13.2.2.1Launch of Space Technology Development Program (STDP) by Canadian Space Agency fuels market173
TABLE 97CANADA: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)174
TABLE 98CANADA: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)174
TABLE 99CANADA: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)174
TABLE 100CANADA: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)175
TABLE 101CANADA: SPACE PROPULSION MARKET, BY ORBIT,
2018–2020 (USD MILLION)175
TABLE 102CANADA: SPACE PROPULSION MARKET, BY ORBIT,
2021–2026 (USD MILLION)175
TABLE 103CANADA: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)175
TABLE 104CANADA: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)176
TABLE 105CANADA: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)176
TABLE 106CANADA: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)176
13.3EUROPE176
TABLE 107EUROPE: SPACE PROPULSION MARKET, BY COUNTRY,
2018–2020 (USD MILLION)177
TABLE 108EUROPE: SPACE PROPULSION MARKET, BY COUNTRY,
2021–2026 (USD MILLION)177
FIGURE 41EUROPE SPACE PROPULSION MARKET SNAPSHOT178
TABLE 109EUROPE: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)178
TABLE 110EUROPE: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)179
TABLE 111EUROPE: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)179
TABLE 112EUROPE: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)179
TABLE 113EUROPE: SPACE PROPULSION MARKET, BY ORBIT,
2018–2020 (USD MILLION)180
TABLE 114EUROPE: SPACE PROPULSION MARKET, BY ORBIT,
2021–2026 (USD MILLION)180
TABLE 115EUROPE: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)180
TABLE 116EUROPE: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)180
TABLE 117EUROPE: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)181
TABLE 118EUROPE: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)181
13.3.1RUSSIA181
13.3.1.1Increasing number of space launch programs to drive market181
TABLE 119RUSSIA: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)182
TABLE 120RUSSIA: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)182
TABLE 121RUSSIA: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)182
TABLE 122RUSSIA: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)183
TABLE 123RUSSIA: SPACE PROPULSION MARKET, BY ORBIT,
2018–2020 (USD MILLION)183
TABLE 124RUSSIA: SPACE PROPULSION MARKET, BY ORBIT,
2021–2026 (USD MILLION)183
TABLE 125RUSSIA: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)183
TABLE 126RUSSIA: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)184
TABLE 127RUSSIA: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)184
TABLE 128RUSSIA SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)184
13.3.2UK184
13.3.2.1Combined public and private sector efforts in space exploration boost market184
TABLE 129UK: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)185
TABLE 130UK: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)185
TABLE 131UK: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)185
TABLE 132UK: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)186
TABLE 133UK: SPACE PROPULSION MARKET, BY ORBIT, 2018–2020 (USD MILLION)186
TABLE 134UK: SPACE PROPULSION MARKET, BY ORBIT, 2021–2026 (USD MILLION)186
TABLE 135UK: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)187
TABLE 136UK: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)187
TABLE 137UK: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)187
TABLE 138UK: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)187
13.3.3GERMANY188
13.3.3.1Increase in CubeSat launches driving demand for space propulsion188
TABLE 139GERMANY: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)188
TABLE 140GERMANY: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)188
TABLE 141GERMANY: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)189
TABLE 142GERMANY: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)189
TABLE 143GERMANY: SPACE PROPULSION MARKET, BY ORBIT,
2018–2020 (USD MILLION)189
TABLE 144GERMANY: SPACE PROPULSION MARKET, BY ORBIT,
2021–2026 (USD MILLION)190
TABLE 145GERMANY: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)190
TABLE 146GERMANY: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)190
TABLE 147GERMANY: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)190
TABLE 148GERMANY: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)191
13.3.4FRANCE191
13.3.4.1Market driven by increasing partnerships among national space agencies191
TABLE 149FRANCE: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)191
TABLE 150FRANCE: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)192
TABLE 151FRANCE: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)192
TABLE 152FRANCE: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)192
TABLE 153FRANCE: SPACE PROPULSION MARKET, BY ORBIT,
2018–2020 (USD MILLION)193
TABLE 154FRANCE: SPACE PROPULSION MARKET, BY ORBIT,
2021–2026 (USD MILLION)193
TABLE 155FRANCE: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)193
TABLE 156FRANCE: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)193
TABLE 157FRANCE: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)194
TABLE 158FRANCE: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)194
13.3.5ITALY194
13.3.5.1Active participation and efforts to make space operation cheaper drive market194
TABLE 159ITALY: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)195
TABLE 160ITALY: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)195
TABLE 161ITALY: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)195
TABLE 162ITALY: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)196
TABLE 163ITALY: SPACE PROPULSION MARKET, BY ORBIT, 2018–2020 (USD MILLION)196
TABLE 164ITALY: SPACE PROPULSION MARKET, BY ORBIT, 2021–2026 (USD MILLION)196
TABLE 165ITALY: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2018–2020 (USD MILLION)196
TABLE 166ITALY: SPACE PROPULSION MARKET, BY PROPULSION TYPE,
2021–2026 (USD MILLION)197
TABLE 167ITALY: SPACE PROPULSION MARKET, BY END USER,
2018–2020 (USD MILLION)197
TABLE 168ITALY: SPACE PROPULSION MARKET, BY END USER,
2021–2026 (USD MILLION)197
13.4ASIA PACIFIC197
FIGURE 42ASIA PACIFIC SPACE PROPULSION MARKET SNAPSHOT198
TABLE 169ASIA PACIFIC: SPACE PROPULSION MARKET, BY COUNTRY,
2018–2020 (USD MILLION)198
TABLE 170ASIA PACIFIC: SPACE PROPULSION MARKET, BY COUNTRY,
2021–2026 (USD MILLION)199
TABLE 171ASIA PACIFIC: SPACE PROPULSION MARKET, BY PLATFORM,
2018–2020 (USD MILLION)199
TABLE 172ASIA PACIFIC: SPACE PROPULSION MARKET, BY PLATFORM,
2021–2026 (USD MILLION)199
TABLE 173ASIA PACIFIC: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2018–2020 (USD MILLION)200
TABLE 174ASIA PACIFIC: SPACE PROPULSION MARKET, BY SATELLITE TYPE,
2021–2026 (USD MILLION)200
TABLE 175ASIA PACIFIC: SPACE PROPULSION MARKET, BY ORBIT,
2018–2020 (USD MILLION)200
TABLE 176ASIA PACIFIC: SPACE PROPULSION MARKET, BY ORBIT,
2021–2026 (USD MILLION)201
TABLE 177ASIA PACIFIC: SPACE PROPULSION MARKET, B

Report Title: Space Propulsion Market by Type (Chemical Propulsion, Non-Chemical Propulsion), System Component (Thrusters, Propellant Feed System, Nozzle), Platform (Satellite, Launch Vehicle), Orbit, End User, Orbit, Support Service, Region - Global Forecast to 2026


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