우주 태양광발전 시장 : 현황 분석과 예측(2024-2032년)

Space photovoltaic system concerns the collection of the sun's energy in space and then beaming it through a conductive path to the Earth. Space-based solar panel technological process engulfs the use of solar panels to generate solar power in space with the help of reflectors or inflatable mirrors for focusing solar radiation onto solar panels and then transmitting it to the earth through a Microwave or Laser. A few of the important companies operating in the context of space-based solar panels have been implementing the following measures to utilize the energy in space. For instance: Early this year, it unveiled a plan of sending up a lineup of one-mile solar panels aiming to make energy beams back to Earth by 2035. Space-based solar power has several advantages unlike the solar panels on the roof that produce electricity only during the day, space-based solar power produces electricity, 24/7 99 % of the year which is further driving the demand for space-based solar power market.

Based on the solar satellite type, the space-based solar power market is segmented into microwave-transmitting solar satellites and laser-transmitting solar satellites. Microwave-transmitting solar satellites cater to a significant share of the space-based solar power market. This is primarily due to their advanced technological development, successful demonstrations, and lower safety risks. However, as research and development in laser-based power transmission progress and solutions to current challenges, the market share for laser-transmitting solar satellites could increase in the future.

Based on the application, the space-based solar power market is bifurcated into electricity generation and space applications. The electricity generation segment caters to a more significant share of space-based solar power due to its vast potential to address global energy needs, provide a continuous and clean energy supply, and contribute to environmental sustainability. The scalability and broader impact of SBSP in electricity generation make it a more substantial and transformative application compared to space applications, which are essential but more specialized and limited in scope.

For a better understanding of the market adoption of the space-based solar power industry, the market is analyzed based on its worldwide presence in countries such as North America (U.S., Canada, and the Rest of North America), Europe (Germany, UK, France, Spain, Italy, Rest of Europe), Asia-Pacific (China, India, Japan, and Rest of Asia-Pacific), Rest of World. North America's extensive share in the SBSP market is driven by a combination of technological prowess, significant financial investments, strong institutional support, and strategic partnerships. The region's commitment to innovation and sustainable energy solutions, exemplified by recent projects and collaborations, positions it as a global leader in the development and deployment of space-based solar power. As SBSP technology continues to advance, North America's leadership aims to play a crucial role in realizing the potential of this revolutionary energy source. For instance: In the US, ongoing partnerships, and investments of $100 million between Northrop Grumman and the U.S. Air Force Research Laboratory have been established to provide advanced technology for SBSP.

Some of the major players operating in the market include AZUR SPACE Solar Power, Northrop Grumman, Airbus Defence and Space, China Academy of Space Technology, Borrego, Blue Origin, Airbus, Solaren Corporation, Caltech, and European Space Agency.

TABLE OF CONTENTS

1.MARKET INTRODUCTION

• 1.1. Market Definitions
• 1.2. Main Objective
• 1.3. Stakeholders
• 1.4. Limitation

2.RESEARCH METHODOLOGY OR ASSUMPTION

• 2.1. Research Process of the Space Based Solar Power Market
• 2.2. Research Methodology of the Space Based Solar Power Market
• 2.3. Respondent Profile

3.EXECUTIVE SUMMARY

• 3.1. Industry Synopsis
• 3.2. Segmental Outlook
  • 3.2.1. Market Growth Intensity
• 3.3. Regional Outlook

4.MARKET DYNAMICS

• 4.1. Drivers
• 4.2. Opportunity
• 4.3. Restraints
• 4.4. Trends
• 4.5. PESTEL Analysis
• 4.6. Demand Side Analysis
• 4.7. Supply Side Analysis
  • 4.7.1. Merger & Acquisition
  • 4.7.2. Investment Scenario
  • 4.7.3. Industry Insights: Leading Startups and Their Unique Strategies

5.PRICING ANALYSIS

• 5.1. Regional Pricing Analysis
• 5.2. Price Influencing Factors

6.GLOBAL SPACE BASED SOLAR POWER MARKET REVENUE (USD MN), 2022-2032F

7.MARKET INSIGHTS BY SOLAR SATELLITE TYPE

• 7.1. Microwave Transmitting Solar Satellite
• 7.2. Laser Transmitting Solar Satellite

8.MARKET INSIGHTS BY APPLICATION

• 8.1. Electricity Generation
• 8.2. Space Applications

9.MARKET INSIGHTS BY REGION

• 9.1. North America
  • 9.1.1. U.S.
  • 9.1.2. Canada
  • 9.1.3. Rest of North America
• 9.2. Europe
  • 9.2.1. Germany
  • 9.2.2. UK
  • 9.2.3. France
  • 9.2.4. Italy
  • 9.2.5. Spain
  • 9.2.6. Rest of Europe
• 9.3. Asia-Pacific
  • 9.3.1. China
  • 9.3.2. Japan
  • 9.3.3. India
  • 9.3.4. Rest of Asia-Pacific
• 9.4. Rest of World

10.VALUE CHAIN ANALYSIS

• 10.1. Marginal Analysis
• 10.2. List of Market Participants

11.COMPETITIVE LANDSCAPE

• 11.1. Competition Dashboard
• 11.2. Competitor Market Positioning Analysis
• 11.3. Porter Five Forces Analysis

12.COMPANY PROFILED

• 12.1. AZUR SPACE Solar Power
  • 12.1.1. Company Overview
  • 12.1.2. Key Financials
  • 12.1.3. SWOT Analysis
  • 12.1.4. Product Portfolio
  • 12.1.5. Recent Developments
• 12.2. Northrop Grumman
• 12.3. Airbus Defence and Space
• 12.4. China Academy of Space Technology
• 12.5. Borrego
• 12.6. Blue Origin
• 12.7. Solaren Corporation
• 12.8. Caltech
• 12.9. European Space Agency

13.ACRONYMS & ASSUMPTION

14.ANNEXURE