세계의 우주 추진 시장 : 추진 유형별, 구성요소별, 플랫폼별, 최종사용자별, 서비스별, 지역별 - 예측(-2030년)
Space Propulsion Market by Propulsion Type (Solid, Liquid, Electric, Solar, Hybrid), Component (Bipropellant Thruster, Hall-Effect Thruster, Rocket Motor), Platform (Satellite, Launch Vehicle), End User, Services and Region - Global forecast to 2030
상품코드:1668765
리서치사:MarketsandMarkets
발행일:2025년 02월
페이지 정보:영문 300 Pages
라이선스 & 가격 (부가세 별도)
ㅁ Add-on 가능: 고객의 요청에 따라 일정한 범위 내에서 Customization이 가능합니다. 자세한 사항은 문의해 주시기 바랍니다.
한글목차
세계 우주 추진 시장의 시장 규모는 2024년 102억 1,000만 달러로 2030년까지 200억 2,000만 달러에 달할 것으로 추정되며, 연평균 11.9%로 성장할 것으로 예상됩니다.
우주 추진의 촉진요인은 추진 기술 발전, 로켓 발사 증가, 정부 및 국방 노력의 확대 등입니다. 상업용 우주 부문의 확대는 초고속 인터넷 서비스, 방송, 달 탐사에 대한 수요 증가로 인해 촉진되고 있으며, 이는 우주 추진 수요에 중요한 영향을 미치고 있습니다. 환경 규제 강화와 지속가능한 우주 활동에 대한 강조는 우수한 추진 시스템에 대한 산업계의 수요를 형성하고 있습니다.
조사 범위
조사 대상 연도
2020-2030년
기준 연도
2023년
예측 기간
2024-2030년
단위
10억 달러
부문
플랫폼, 구성요소, 추진 유형, 최종사용자, 지원 서비스, 지역
대상 지역
북미, 유럽, 아시아태평양, 기타 지역
"위성 플랫폼은 예측 기간 동안 우주 추진 시장에서 두 번째 시장 점유율을 차지할 것입니다."
위성 플랫폼 추진은 위성 서비스에 대한 수요 증가, 위성 메가 컨스텔레이션의 급증, 위성의 성능과 수명을 향상시키는 추진 기술의 향상으로 인해 비즈니스에서 놀라운 성장을 보이고 있습니다. SpaceX, OneWeb, Amazon's Project Kuiper 등의 기업은 통신, 지구 관측, 항법, 방위 등의 서비스를 제공하기 위해 이들 위성에 크게 의존하고 있습니다. 소형 위성 및 큐브샛의 발사 임무에 대한 수요는 지속적으로 증가하고 있으며, 이에 따라 최소의 연료 소비로 정밀한 조종이 가능한 소형 추진 시스템 개발이 촉진되고 있습니다. 우주 상업화의 진전, 비용 효율적인 발사 방법, 재사용 가능한 로켓 기술이 위성의 배치를 촉진하고 새로운 추진 솔루션에 대한 수요가 증가하고 있습니다.
"상업 부문이 예측 기간 동안 우주 추진 시장에서 가장 큰 시장 점유율을 차지할 것입니다."
우주 추진 시장의 상업 부문은 예측 기간 동안 가장 높은 CAGR로 성장할 것으로 예상됩니다. SpaceX, Amazon, OneWeb과 같은 기업들이 광대역 통신, 내비게이션, 지구 관측, IoT를 위해 향후 몇 년 내에 저궤도(LEO)에 배치될 수천 개의 위성을 개발하고 있는 것처럼, 위성 역시 스테이션 키핑, 궤도 이탈, 궤도 조종에 이용하는 효율적인 추진 시스템을 필요로 하고 있습니다.
우주에 대한 접근성이 높아진 이유는 우주 시설에 접근하는 가격이 낮아졌기 때문이며, SpaceX의 Falcon 9과 Rocket Lab의 Electron과 같은 재사용 가능한 발사체도 더 많은 상업적 사용자가 우주 시장에 진입할 수 있도록 문을 열어주었습니다. 우주 시장에 진입할 수 있는 문을 열었습니다. 또한, 비상장 기업들은 미션의 유연성을 높이고 운영 비용을 절감하기 위해 홀 스러스터, 이온 추진, 하이브리드 추진 등 차세대 추진 솔루션에 많은 투자를 하고 있습니다. 그 외 추진시스템의 수요를 가속화하고 있는 것으로는 상업적 우주여행, 달 탐사, 타당성 조사 단계에 있는 심우주 채굴 벤처, NASA와 민간기업과의 제휴, 규제 개혁, 상업적 우주개발을 지원하는 정부의 노력 등이 있습니다. 경쟁이 심화되는 가운데, 추진에 큰 진전을 이루기 위해 노력하는 이들 민간 기업들은 우주를 보다 상업적으로 매력적이고 접근하기 쉽게 만들고 있습니다.
세계의 우주 추진 시장에 대해 조사 분석했으며, 주요 촉진요인과 억제요인, 경쟁 구도, 향후 동향 등의 정보를 전해드립니다.
목차
제1장 소개
제2장 조사 방법
제3장 주요 요약
제4장 주요 인사이트
우주 추진 시장 기업에서 매력적인 기회
우주 추진 시장 : 플랫폼별
우주 추진 시장 : 부품별
우주 추진 시장 : 최종사용자별
우주 추진 시장 : 유형별
우주 추진 시장 : 국가별
제5장 시장 개요
소개
시장 역학
성장 촉진요인
성장 억제요인
기회
과제
고객 비즈니스에 영향을 미치는 동향과 혼란
가격 분석
위성 평균판매가격 동향 : 지역별
참고 가격 분석 : 위성 유형별
참고 가격 분석 : 발사 로켓 구별
밸류체인 분석
생태계 분석
저명 기업
민간 기업과 중소기업
최종사용자
기술 분석
주요 기술
보완 기술
인접 기술
규제 상황
무역 분석
주요 이해관계자와 구입 기준
이용 사례 분석
NanoAvionics, 세계 최초의 액체 화학 추진 큐브샛을 궤도에 발사
NASA, 향후 Artemis 임무를 지원하는 추가 RS-25 엔진을 조달
Phase Four, VLEO 활동용 대기 흡입식 전기 추진 시스템을 개발
주요 회의와 이벤트(2025년)
투자와 자금 조달 시나리오
거시경제 전망
소개
북미
유럽
아시아태평양
중동
라틴아메리카
아프리카
비즈니스 모델
기술 로드맵
위성 컨스텔레이션 추진 매핑
부품표
총소유비용
생성형 AI의 영향
소개
우주의 AI 채용 : 주요 국가별
우주 산업에 대한 AI의 영향
우주 추진 시장에 대한 AI의 영향
운영 데이터
수량 데이터
제6장 산업 동향
소개
기술 동향
하이브리드 추진
원자력 열 추진, 원자력 전기 추진
마이크로/나노 추진
플라즈마 추진
첨단 전기 스러스터
그린 추진
메가트렌드의 영향
스페이스 4.0
AI
적층 가공
공급망 분석
특허 분석
제7장 우주 추진 시장 : 유형별
소개
화학 추진
비화학 추진
제8장 우주 추진 시장 : 플랫폼별
소개
위성
캡슐/화물
행성 간 우주선·탐사기
로버/착륙선
발사 로켓
제9장 우주 추진 시장 : 구성요소별
소개
스러스터
추진제 공급 시스템
로켓 모터
노즐
추진 열 제어
전력 처리 유닛
기타 구성요소
제10장 우주 추진 시장 : 최종사용자별
소개
상업
정부·방위
제11장 우주 추진 시장 : 서포트 서비스별
소개
설계, 엔지니어링, 운영, 보수
고온 연소, 환경 시험 실시
연료 보급, 발사, 지상 지원
제12장 우주 추진 시장 : 지역별
소개
북미
PESTLE 분석
미국
캐나다
유럽
PESTLE 분석
러시아
영국
독일
프랑스
이탈리아
아시아태평양
PESTLE 분석
중국
일본
인도
한국
호주
중동
PESTLE 분석
GCC
기타 중동
기타 지역
PESTLE 분석
라틴아메리카
아프리카
제13장 경쟁 구도
소개
주요 진출 기업 전략/강점(2020-2024년)
매출 분석(2020-2023년)
시장 점유율 분석(2023년)
기업 평가 매트릭스 : 주요 기업(2024년)
기업 평가 매트릭스 : 스타트업/중소기업(2024년)
브랜드/제품의 비교
기업 평가와 재무 지표
경쟁 시나리오
제14장 기업 개요
주요 기업
SAFRAN
IHI CORPORATION
SPACEX
NORTHROP GRUMMAN
L3HARRIS TECHNOLOGIES, INC.
MOOG INC.
RAFAEL ADVANCED DEFENSE SYSTEMS LTD.
LOCKHEED MARTIN CORPORATION
THALES
OHB SE
SIERRA NEVADA CORPORATION
AIRBUS
VACCO INDUSTRIES
BLUE ORIGIN
EATON
기타 기업
THRUSTME
URSA MAJOR TECHNOLOGIES INC
PHASEFOUR
EXOTRAIL
DAWN AEROSPACE
AST ADVANCED SPACE TECHNOLOGIES GMBH
STANFORD MU CORPORATION
MANASTU SPACE TECHNOLOGIES PRIVATE LIMITED
KREIOS SPACE
FIREFLY AEROSPACE
제15장 부록
ksm
영문 목차
영문목차
The Space Propulsion market is estimated in terms of market size to be USD 10.21 billion in 2024 to USD 20.02 billion by 2030, at a CAGR of 11.9%. The drivers for Space Propulsion include advancements in propulsion technology, rising deployment of launch vehicles, and expansion of government and defense initiatives. Commercial space sector expansion is driven by increasing need for high-speed internet services, broadcasting, lunar exploration which have an important effect on Space Propulsion demand. Growing environmental regulations and a high emphasis on the sustainable space operations are shaping the industry's demand towards better propulsion systems.
Scope of the Report
Years Considered for the Study
2020-2030
Base Year
2023
Forecast Period
2024-2030
Units Considered
Value (USD Billion)
Segments
By Platform, Component, Propulsion Type, End User, Support Services and region
Regions covered
North America, Europe, APAC, RoW
"The Satellite platform will account for the 2nd largest market share in the Space Propulsion market during the forecast period."
The Satellite platform in Space Propulsion market is expected to account for 2nd highest market share during the forecast period. Satellite platform propulsion is experiencing phenomenal growth in business due to the increasing demand for satellite services, the proliferation of satellite mega-constellations, and better propulsion technology which improves satellite performance and longevity. Having taken upon themselves the deployment of thousands of satellites into LEO and beyond, companies such as SpaceX, OneWeb, Amazon's Project Kuiper, and so on, rely heavily on these satellites to provide services for communications, Earth observation, navigation, and defense. The demand for small satellite and CubeSat launch missions keeps increasing, thereby promoting the development of miniaturized propulsion systems that allow for precision maneuvering in the least amount of fuel-consumption. The increased commercialization of space, cost-effective launch methodologies, and reusable rocket technologies boost the satellite deployment and the increasing demand for novel propulsion solutions.
"The Commercial segment will account for the largest market share in the Space Propulsion market during the forecast period."
The Commercial segment in Space Propulsion market is expected to grow at highest CAGR during the forecast period. Commercial users are rapidly opening up in the market for space propulsion. The infringing market dimensions are burgeoning with the need for satellite-client applications, more private-sector investment, and technology development for cost-effective propulsion. As companies like SpaceX, Amazon, and OneWeb, as developing thousands of satellites to be deployed into low Earth orbit (LEO) within the next couple of years for broadband coverage, navigation, Earth observation, and the Internet of Things, the satellites also need efficient propulsion systems for station-keeping, deorbiting, and orbital maneuvering, while mostly electric propulsion and chemical propulsion.
The reason attributed to this increasing affordability in entering into space is due to the reduced price for accessing an outer space facility. Reusable launch vehicles such as Falcon 9 offered by SpaceX and Rocket Lab's Electron also opened doors to more commercial users to farm on the space market. Also, private space companies are investing significantly in next-generation propulsion solutions, such as Hall-effect thrusters, ion propulsion, and hybrid propulsion, to improve mission flexibility and reduce operational expenses. Among other things speeding up demand for propulsion systems are commercial space tourism, lunar exploration, and deep-space mining ventures on a feasibility study level, partnered with NASA partnerships with private firms along with regulatory reforms-greater government initiatives to support commercial space developments. With competition gearing up, these commercial players, working on huge advancements in propulsion, have made space more commercially attractive and accessible.
"The Asia Pacific market is estimated to lead the market."
The Asia Pacific Space Propulsion market is expected to account for 2nd highest marjet share during the forecast period of 2024-2030. The space propulsion business in Asia-Pacific is thriving very fast owing to numerous government investments, commercial space ventures, and evolving country-specific propulsion technologies. China, India, Japan, and South Korea are heavily investing in their space programs involving satellite deployment, deep-space exploration, and defense applications.
The space propulsion business is flourishing rapidly in the Asia-Pacific region because of the rising investments made by governments, the expansion of commercial space endeavors, and the evolution of indigenous propulsion technologies. Countries like China, India, Japan, and South Korea are seriously investing in their space programs focusing on satellite deployment, deep-space exploration, and defense applications. CNSA, China's space agency, is developing advanced propulsion systems for lunar and Mars missions, while commercial entities like CASC and iSpace are making strides in reusable rocket technology. On the other hand, India through ISRO is equipping itself with cryogenic, semi-cryogenic, and electric propulsion technologies to expand its propulsion capabilities into its ambitious space programs such as the Gaganyaan crewed mission and planetary exploratory initiatives.
Breakdown of primaries
The study contains insights from various industry experts, ranging from component suppliers to Tier 1 companies and OEMs. The break-up of the primaries is as follows:
By Company Type: Tier 1-35%; Tier 2-45%; and Tier 3-20%
By Designation: C Level-35%; Directors-25%; and Others-40%
By Region: North America-20%; Europe-25%; Asia Pacific-35%; Middle East-10%; RoW-10%
Northrop Grumman (US), Safran SA (France), SpaceX (US), L3Harris Technologies, Inc. (US), and IHI Corporation (Japan) are some of the leading players operating in the Space Propulsion market.
Research Coverage
The study covers the Space Propulsion market across various segments and subsegments. It aims to estimate the size and growth potential of this market across different segments based on propulsion, capacity, operation, and region. This study also includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to their solutions and business offerings, recent developments undertaken by them, and key market strategies adopted by them.
Key benefits of buying this report:
This 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 its subsegments. The report covers the entire ecosystem of the Space Propulsion market. It will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and plan suitable go-to-market strategies. The report will also help stakeholders understand the pulse of the market and provide them with information on key market drivers, restraints, challenges, and opportunities.
The report provides insights on the following pointers:
Analysis of key drivers and factors, such as increasing launch of satellites for communication and earth observation services, increase in public-private partnerships for development of Space Propulsion could contribute to an increase in the Space Propulsion market.
Product Development: In-depth analysis of product innovation/development by companies across various region.
Market Development: Comprehensive information about lucrative markets - the report analyses the Space Propulsion market across varied regions.
Market Diversification: Exhaustive information about new solutions, untapped geographies, recent developments, and investments in Space Propulsion market.
Competitive Assessment: In-depth assessment of market shares, growth strategies, and product offerings of leading players like Northrop Grumman (US), Safran SA (France), SpaceX (US), L3Harris Technologies, Inc. (US), and IHI Corporation (Japan) among others in the Space Propulsion market.
TABLE OF CONTENTS
1 INTRODUCTION
1.1 STUDY OBJECTIVES
1.2 MARKET DEFINITION
1.3 STUDY SCOPE
1.3.1 MARKETS COVERED AND REGIONAL SCOPE
1.3.2 INCLUSIONS AND EXCLUSIONS
1.3.3 YEARS CONSIDERED
1.4 CURRENCY CONSIDERED
1.5 STAKEHOLDERS
1.6 SUMMARY OF CHANGES
2 RESEARCH METHODOLOGY
2.1 RESEARCH DATA
2.1.1 SECONDARY DATA
2.1.1.1 Key data from secondary sources
2.1.2 PRIMARY DATA
2.1.2.1 Primary sources
2.1.2.2 Key data from primary sources
2.1.2.3 Breakdown of primary interviews
2.2 FACTOR ANALYSIS
2.2.1 INTRODUCTION
2.2.2 DEMAND-SIDE INDICATORS
2.2.3 SUPPLY-SIDE INDICATORS
2.3 MARKET SIZE ESTIMATION
2.3.1 BOTTOM-UP APPROACH
2.3.2 TOP-DOWN APPROACH
2.4 DATA TRIANGULATION
2.5 RESEARCH ASSUMPTIONS
2.6 RESEARCH LIMITATIONS
2.7 RISK ASSESSMENT
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN SPACE PROPULSION MARKET
4.2 SPACE PROPULSION MARKET, BY PLATFORM
4.3 SPACE PROPULSION MARKET, BY COMPONENT
4.4 SPACE PROPULSION MARKET, BY END USER
4.5 SPACE PROPULSION MARKET, BY TYPE
4.6 SPACE PROPULSION MARKET, BY COUNTRY
5 MARKET OVERVIEW
5.1 INTRODUCTION
5.2 MARKET DYNAMICS
5.2.1 DRIVERS
5.2.1.1 Growing deployment of satellites
5.2.1.2 Advancements in propulsion technologies
5.2.1.3 Expansion of deep-space missions
5.2.1.4 Need for advanced propellants for long-duration missions
5.2.2 RESTRAINTS
5.2.2.1 High development and manufacturing costs
5.2.2.2 Stringent regulatory and safety standards
5.2.3 OPPORTUNITIES
5.2.3.1 Increased government investments in space programs
5.2.3.2 Emergence of nuclear thermal and nuclear electric propulsion
5.2.3.3 Proliferation of LEO constellations
5.2.3.4 Surge in demand for reusable launch vehicles
5.2.4 CHALLENGES
5.2.4.1 Supply chain disruptions
5.2.4.2 Rise of space debris
5.3 TRENDS AND DISRUPTIONS IMPACTING CUSTOMER BUSINESS
5.4 PRICING ANALYSIS
5.4.1 AVERAGE SELLING PRICE TREND OF SATELLITES, BY REGION
5.4.2 INDICATIVE PRICING ANALYSIS, BY SATELLITE TYPE
5.4.3 INDICATIVE PRICING ANALYSIS, BY LAUNCH VEHICLE
5.5 VALUE CHAIN ANALYSIS
5.6 ECOSYSTEM ANALYSIS
5.6.1 PROMINENT COMPANIES
5.6.2 PRIVATE AND SMALL ENTERPRISES
5.6.3 END USERS
5.7 TECHNOLOGY ANALYSIS
5.7.1 KEY TECHNOLOGIES
5.7.1.1 Electric propulsion systems
5.7.1.2 Solar sails
5.7.1.3 Ion propulsion
5.7.2 COMPLEMENTARY TECHNOLOGIES
5.7.2.1 Heat management systems
5.7.2.2 Advanced propellant management
5.7.3 ADJACENT TECHNOLOGIES
5.7.3.1 Magnetoplasmadynamic thrusters
5.7.3.2 Autonomous propulsion
5.8 REGULATORY LANDSCAPE
5.9 TRADE ANALYSIS
5.10 KEY STAKEHOLDERS AND BUYING CRITERIA
5.10.1 KEY STAKEHOLDERS IN BUYING PROCESS
5.10.2 BUYING CRITERIA
5.11 USE CASE ANALYSIS
5.11.1 NANOAVIONICS LAUNCHES WORLD'S FIRST LIQUID CHEMICAL PROPULSION-PROPELLED CUBESAT INTO ORBIT
5.11.2 NASA PROCURES ADDITIONAL RS-25 ENGINES TO SUPPORT FUTURE ARTEMIS MISSIONS
5.11.3 PHASEFOUR DEVELOPS AIR-BREATHING ELECTRIC PROPULSION SYSTEM FOR VLEO OPERATIONS
5.12 KEY CONFERENCES AND EVENTS, 2025
5.13 INVESTMENT AND FUNDING SCENARIO
5.14 MACROECONOMIC OUTLOOK
5.14.1 INTRODUCTION
5.14.2 NORTH AMERICA
5.14.3 EUROPE
5.14.4 ASIA PACIFIC
5.14.5 MIDDLE EAST
5.14.6 LATIN AMERICA
5.14.7 AFRICA
5.15 BUSINESS MODELS
5.16 TECHNOLOGY ROADMAP
5.17 PROPULSION MAPPING OF SATELLITE CONSTELLATIONS
5.18 BILL OF MATERIALS
5.19 TOTAL COST OF OWNERSHIP
5.20 IMPACT OF GENERATIVE AI
5.20.1 INTRODUCTION
5.20.2 ADOPTION OF AI IN SPACE BY TOP COUNTRIES
5.20.3 IMPACT OF AI ON SPACE INDUSTRY
5.20.4 IMPACT OF AI ON SPACE PROPULSION MARKET
5.21 OPERATIONAL DATA
5.22 VOLUME DATA
6 INDUSTRY TRENDS
6.1 INTRODUCTION
6.2 TECHNOLOGY TRENDS
6.2.1 HYBRID PROPULSION
6.2.2 NUCLEAR THERMAL PROPULSION AND NUCLEAR ELECTRIC PROPULSION
6.2.3 MICRO AND NANO PROPULSION
6.2.4 PLASMA PROPULSION
6.2.5 ADVANCED ELECTRIC THRUSTER
6.2.6 GREEN PROPULSION
6.3 IMPACT OF MEGA TRENDS
6.3.1 SPACE 4.0
6.3.2 ARTIFICIAL INTELLIGENCE
6.3.3 ADDITIVE MANUFACTURING
6.4 SUPPLY CHAIN ANALYSIS
6.5 PATENT ANALYSIS
7 SPACE PROPULSION MARKET, BY TYPE
7.1 INTRODUCTION
7.2 CHEMICAL PROPULSION
7.2.1 HIGH THRUST REQUIREMENT OF LAUNCH VEHICLES TO DRIVE MARKET
7.2.2 SOLID
7.2.2.1 Homogenous
7.2.2.2 Heterogenous/Composite
7.2.3 LIQUID
7.2.3.1 Monopropellant
7.2.3.1.1 Non-green
7.2.3.1.2 Green
7.2.3.2 Bipropellant
7.2.3.2.1 Cryogenic
7.2.3.2.2 Hypergolic
7.2.3.3 Hybrid
7.2.3.4 Cold gas
7.3 NON-CHEMICAL PROPULSION
7.3.1 LONGER OPERATIONAL DURATIONS TO DRIVE MARKET
7.3.2 ELECTRIC/ION PROPULSION
7.3.2.1 Electrothermal
7.3.2.1.1 Argon
7.3.2.1.2 Hydrogen
7.3.2.1.3 Others
7.3.2.2 Electromagnetic
7.3.2.2.1 PTFE
7.3.2.3 Electrostatic
7.3.2.3.1 Xenon
7.3.2.3.2 Krypton
7.3.2.3.3 Others
7.3.3 SOLAR PROPULSION
7.3.3.1 Solar sail propulsion
7.3.3.2 Solar electric propulsion
7.3.3.3 Solar thermal propulsion
7.3.4 TETHER PROPULSION
7.3.5 NUCLEAR PROPULSION
8 SPACE PROPULSION MARKET, BY PLATFORM
8.1 INTRODUCTION
8.2 SATELLITES
8.2.1 ONGOING EXPANSION OF COMMERCIAL SATELLITE FLEETS TO DRIVE MARKET
8.2.2 SMALL SATELLITES
8.2.2.1 Nanosatellites
8.2.2.2 Microsatellites
8.2.2.3 Minisatellites
8.2.2.4 Cube satellites
8.2.2.5 501 to 1,000 KGS
8.2.3 MEDIUM SATELLITES
8.2.4 LARGE SATELLITES
8.3 CAPSULES/CARGO
8.3.1 GROWING FREQUENCY OF SPACE MISSIONS TO DRIVE MARKET
8.3.2 CREWED SPACECRAFT
8.3.3 UNCREWED SPACECRAFT
8.4 INTERPLANETARY SPACECRAFT & PROBES
8.4.1 HIGH DEMAND FOR PRECISION MANEUVERING TO DRIVE MARKET
8.5 ROVERS/SPACECRAFT LANDERS
8.5.1 GOVERNMENT AND PRIVATE SECTOR INVESTMENTS IN DEEP-SPACE EXPLORATION TO DRIVE MARKET
8.6 LAUNCH VEHICLES
8.6.1 FOCUS ON REUSABILITY TO DRIVE MARKET
8.6.2 SMALL LAUNCH VEHICLES
8.6.3 MEDIUM-TO-HEAVY LAUNCH VEHICLES
8.6.4 REUSABLE LAUNCH VEHICLES
9 SPACE PROPULSION MARKET, BY COMPONENT
9.1 INTRODUCTION
9.2 THRUSTERS
9.2.1 REDUCED PROPELLANT CONSUMPTION BY ELECTRIC ALTERNATIVES TO DRIVE MARKET
9.2.2 CHEMICAL PROPULSION THRUSTERS
9.2.2.1 Cold & warm gas thrusters
9.2.2.2 Monopropellant thrusters
9.2.2.3 Bipropellant thrusters
9.2.3 ELECTRIC PROPULSION THRUSTERS
9.2.3.1 Ion thrusters
9.2.3.2 Hall-effect thrusters
9.2.3.3 Pulsed plasma thrusters
9.2.3.4 Magnetoplasmadynamic thrusters
9.3 PROPELLANT FEED SYSTEMS
9.3.1 ELEVATED DEMAND FOR LONGER AND COMPLEX SPACE MISSIONS TO DRIVE MARKET
9.3.2 PROPELLANT TANKS
9.3.2.1 Monopropellant tanks
9.3.2.2 Bipropellant tanks
9.3.2.3 Oxidizer tanks
9.3.3 PRESSURE & FLOW REGULATORS
9.3.4 VALVES
9.3.5 TURBOPUMPS
9.3.6 COMBUSTION CHAMBERS
9.4 ROCKET MOTORS
9.4.1 RISE OF SPACECRAFT LAUNCHES AND ORBITAL MANEUVERS TO DRIVE MARKET
9.5 NOZZLES
9.5.1 INNOVATIONS IN DESIGN AND MANUFACTURING TECHNIQUES TO DRIVE MARKET
9.6 PROPULSION THERMAL CONTROL
9.6.1 NEED FOR HEAT MANAGEMENT IN SPACECRAFT TO DRIVE MARKET
9.7 POWER PROCESSING UNITS
9.7.1 EXTENSIVE USE OF ELECTRIC PROPULSION FOR LONG-DURATION MISSIONS TO DRIVE MARKET
9.8 OTHER COMPONENTS
10 SPACE PROPULSION MARKET, BY END USER
10.1 INTRODUCTION
10.2 COMMERCIAL
10.2.1 INCREASING INVESTMENTS IN HIGH-PERFORMANCE PROPULSION TECHNOLOGIES FROM PRIVATE SECTOR COMPANIES TO DRIVE MARKET
10.2.2 SATELLITE OPERATORS & OWNERS
10.2.3 SPACE LAUNCH SERVICE PROVIDERS
10.3 GOVERNMENT & DEFENSE
10.3.1 RISING SPACE EXPLORATION AND SCIENTIFIC MISSIONS TO DRIVE MARKET
10.3.2 DEPARTMENT OF DEFENSE
10.3.3 NATIONAL SPACE AGENCIES
10.3.4 OTHERS
11 SPACE PROPULSION MARKET, BY SUPPORT SERVICE
11.1 INTRODUCTION
11.2 DESIGN, ENGINEERING, OPERATION, AND MAINTENANCE
11.3 HOT FIRING AND ENVIRONMENTAL TEST EXECUTION
11.4 FUELING, LAUNCH, AND GROUND SUPPORT
12 SPACE PROPULSION MARKET, BY REGION
12.1 INTRODUCTION
12.2 NORTH AMERICA
12.2.1 PESTLE ANALYSIS
12.2.2 US
12.2.2.1 Rising investments in nuclear propulsion and autonomous navigation technologies to drive market
12.2.3 CANADA
12.2.3.1 Strategic government support to drive market
12.3 EUROPE
12.3.1 PESTLE ANALYSIS
12.3.2 RUSSIA
12.3.2.1 Focus on reducing space debris to drive market
12.3.3 UK
12.3.3.1 Surge in satellite launches to drive market
12.3.4 GERMANY
12.3.4.1 Ongoing research and development of advanced space solutions to drive market
12.3.5 FRANCE
12.3.5.1 Significant presence of prominent players to drive market
12.3.6 ITALY
12.3.6.1 Growing commercial space industry to drive market
12.4 ASIA PACIFIC
12.4.1 PESTLE ANALYSIS
12.4.2 CHINA
12.4.2.1 Commitment to reducing carbon footprint in space to drive market
12.4.3 JAPAN
12.4.3.1 Support from government agencies to drive market
12.4.4 INDIA
12.4.4.1 Development of cost-effective and high-performance propulsion technologies to drive market
12.4.5 SOUTH KOREA
12.4.5.1 Substantial investments in space programs to drive market
12.4.6 AUSTRALIA
12.4.6.1 Rising inclination toward electric propulsion to drive market
12.5 MIDDLE EAST
12.5.1 PESTLE ANALYSIS
12.5.2 GCC
12.5.2.1 Saudi Arabia
12.5.2.1.1 Ongoing advancements in propulsion solutions to drive market
12.5.2.2 UAE
12.5.2.2.1 Increasing investments in green propulsion technologies to drive market
12.5.3 REST OF MIDDLE EAST
12.6 REST OF THE WORLD
12.6.1 PESTLE ANALYSIS
12.6.2 LATIN AMERICA
12.6.2.1 Emphasis on strengthening national space capabilities to drive market
12.6.3 AFRICA
12.6.3.1 Collaborations with international space agencies to drive market
13 COMPETITIVE LANDSCAPE
13.1 INTRODUCTION
13.2 KEY PLAYER STRATEGIES/RIGHT TO WIN, 2020-2024
13.3 REVENUE ANALYSIS, 2020-2023
13.4 MARKET SHARE ANALYSIS, 2023
13.5 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2024
13.5.1 STARS
13.5.2 EMERGING LEADERS
13.5.3 PERVASIVE PLAYERS
13.5.4 PARTICIPANTS
13.5.5 COMPANY FOOTPRINT
13.5.5.1 Company footprint
13.5.5.2 End user footprint
13.5.5.3 Propulsion footprint
13.5.5.4 Platform footprint
13.5.5.5 Region footprint
13.6 COMPANY EVALUATION MATRIX: START-UPS/SMES, 2024
13.6.1 PROGRESSIVE COMPANIES
13.6.2 RESPONSIVE COMPANIES
13.6.3 DYNAMIC COMPANIES
13.6.4 STARTING BLOCKS
13.6.5 COMPETITIVE BENCHMARKING
13.6.5.1 List of start-ups/SMEs
13.6.5.2 Competitive benchmarking of start-ups/SMEs
