Asia Pacific ORC Waste Heat to Power Market Growth, Size, Trends Analysis - By Power - Regional Outlook, Competitive Strategies and Segment Forecast to 2034
Description
Asia Pacific ORC Waste Heat to Power Market Introduction and Overview
According to SPER market research, ‘Asia Pacific ORC Waste Heat to Power Market Size- By Power – Regional Outlook, Competitive Strategies and Segment Forecast to 2034’ state that the Asia Pacific ORC Waste Heat to Power Market is predicted to reach 9.69 billion by 2034 with a CAGR of 13.97%.
Organic Rankine Cycle (ORC) Waste Heat to Power systems are innovative energy recovery solutions that convert low- to medium-temperature waste heat into usable electricity. Unlike conventional steam-based Rankine cycles, ORC systems utilize organic fluids with lower boiling points, enabling efficient operation with heat sources like exhaust gases, industrial waste heat, or geothermal energy.
Restraints:
Despite its promising growth, the Asia Pacific ORC Waste Heat to Power market encounters several challenges. One of the main barriers is the substantial initial investment needed for ORC system installation, which can discourage adoption, especially among small and medium-sized enterprises with limited budgets. Additionally, the diverse nature of waste heat sources across industries often necessitates tailored solutions, increasing both the complexity and overall implementation costs.
Scope of the report:
Report Metric Details
Market size available for years 2021-2034
Base year considered 2024
Forecast period 2025-2034
Segments covered
By Power
Regions covered
Australia, China, India, Japan, South Korea, Rest of Asia-Pacific
Companies Covered
ABB, ALFA LAVAL, Atlas Copco AB, CTMI - Steam Turbines, Dürr Group, Enertime, ENOGIA, General Electric, Mitsubishi Heavy Industries, Ltd., Opel Energy Systems Pvt. Ltd., Ormat Technologies, Zhejiang Kaishan Compressor Co., Ltd.
Asia Pacific ORC Waste Heat to Power Market Segmentation:
By Power: Based on the Power, Asia Pacific ORC Waste Heat to Power Market is segmented as; (≤ 1 Mwe, >1 - 5 Mwe, >5 - 10 Mwe, >10 Mwe)
By Region:
This research also includes data for Australia, China, India, Japan, South Korea, Rest of Asia-Pacific.
According to SPER market research, ‘Asia Pacific ORC Waste Heat to Power Market Size- By Power – Regional Outlook, Competitive Strategies and Segment Forecast to 2034’ state that the Asia Pacific ORC Waste Heat to Power Market is predicted to reach 9.69 billion by 2034 with a CAGR of 13.97%.
Organic Rankine Cycle (ORC) Waste Heat to Power systems are innovative energy recovery solutions that convert low- to medium-temperature waste heat into usable electricity. Unlike conventional steam-based Rankine cycles, ORC systems utilize organic fluids with lower boiling points, enabling efficient operation with heat sources like exhaust gases, industrial waste heat, or geothermal energy.
Restraints:
Despite its promising growth, the Asia Pacific ORC Waste Heat to Power market encounters several challenges. One of the main barriers is the substantial initial investment needed for ORC system installation, which can discourage adoption, especially among small and medium-sized enterprises with limited budgets. Additionally, the diverse nature of waste heat sources across industries often necessitates tailored solutions, increasing both the complexity and overall implementation costs.
Scope of the report:
Report Metric Details
Market size available for years 2021-2034
Base year considered 2024
Forecast period 2025-2034
Segments covered
By Power
Regions covered
Australia, China, India, Japan, South Korea, Rest of Asia-Pacific
Companies Covered
ABB, ALFA LAVAL, Atlas Copco AB, CTMI - Steam Turbines, Dürr Group, Enertime, ENOGIA, General Electric, Mitsubishi Heavy Industries, Ltd., Opel Energy Systems Pvt. Ltd., Ormat Technologies, Zhejiang Kaishan Compressor Co., Ltd.
Asia Pacific ORC Waste Heat to Power Market Segmentation:
By Power: Based on the Power, Asia Pacific ORC Waste Heat to Power Market is segmented as; (≤ 1 Mwe, >1 - 5 Mwe, >5 - 10 Mwe, >10 Mwe)
By Region:
This research also includes data for Australia, China, India, Japan, South Korea, Rest of Asia-Pacific.
Table of Contents
158 Pages
- 1. Introduction
- 1.1. Scope of the report
- 1.2. Market segment analysis
- 2. Research Methodology
- 2.1. Research data source
- 2.1.1. Secondary Data
- 2.1.2. Primary Data
- 2.1.3. SPER’s internal database
- 2.1.4. Premium insight from KOL’s
- 2.2. Market size estimation
- 2.2.1. Top-down and Bottom-up approach
- 2.3. Data triangulation
- 3. Executive Summary
- 4. Market Dynamics
- 4.1. Driver, Restraint, Opportunity and Challenges analysis
- 4.1.1. Drivers
- 4.1.2. Restraints
- 4.1.3. Opportunities
- 4.1.4. Challenges
- 5. Market variable and outlook
- 5.1. SWOT Analysis
- 5.1.1. Strengths
- 5.1.2. Weaknesses
- 5.1.3. Opportunities
- 5.1.4. Threats
- 5.2. PESTEL Analysis
- 5.2.1. Political Landscape
- 5.2.2. Economic Landscape
- 5.2.3. Social Landscape
- 5.2.4. Technological Landscape
- 5.2.5. Environmental Landscape
- 5.2.6. Legal Landscape
- 5.3. PORTER’s Five Forces
- 5.3.1. Bargaining power of suppliers
- 5.3.2. Bargaining power of buyers
- 5.3.3. Threat of Substitute
- 5.3.4. Threat of new entrant
- 5.3.5. Competitive rivalry
- 5.4. Heat Map Analysis
- 6. Competitive Landscape
- 6.1. Asia Pacific ORC Waste Heat to Power Market Manufacturing Base Distribution, Sales Area, Product Type
- 6.2. Mergers & Acquisitions, Partnerships, Product Launch, and Collaboration in Asia Pacific ORC Waste Heat to Power Market
- 7. Asia Pacific ORC Waste Heat to Power Market, By Power (USD Million) 2021-2034
- 7.1. ≤ 1 Mwe
- 7.2. > 1 - 5 Mwe
- 7.3. > 5 - 10 Mwe
- 7.4. > 10 Mwe
- 8. Asia Pacific ORC Waste Heat to Power Market, (USD Million) 2021-2034
- 8.1. Asia Pacific ORC Waste Heat to Power Market Size and Market Share
- 9. Asia Pacific ORC Waste Heat to Power Market, By Region, (USD Million) 2021-2034
- 9.1. Australia
- 9.2. China
- 9.3. India
- 9.4. Japan
- 9.5. South Korea
- 9.6. Rest of Asia-Pacific
- 10. Company Profile
- 10.1. ABB
- 10.1.1. Company details
- 10.1.2. Financial outlook
- 10.1.3. Product summary
- 10.1.4. Recent developments
- 10.2. ALFA LAVAL
- 10.2.1. Company details
- 10.2.2. Financial outlook
- 10.2.3. Product summary
- 10.2.4. Recent developments
- 10.3. Atlas Copco AB
- 10.3.1. Company details
- 10.3.2. Financial outlook
- 10.3.3. Product summary
- 10.3.4. Recent developments
- 10.4. CTMI - Steam Turbines
- 10.4.1. Company details
- 10.4.2. Financial outlook
- 10.4.3. Product summary
- 10.4.4. Recent developments
- 10.5. Dürr Group
- 10.5.1. Company details
- 10.5.2. Financial outlook
- 10.5.3. Product summary
- 10.5.4. Recent developments
- 10.6. Enertime
- 10.6.1. Company details
- 10.6.2. Financial outlook
- 10.6.3. Product summary
- 10.6.4. Recent developments
- 10.7. ENOGIA
- 10.7.1. Company details
- 10.7.2. Financial outlook
- 10.7.3. Product summary
- 10.7.4. Recent developments
- 10.8. General Electric
- 10.8.1. Company details
- 10.8.2. Financial outlook
- 10.8.3. Product summary
- 10.8.4. Recent developments
- 10.9. Mitsubishi Heavy Industries, Ltd.
- 10.9.1. Company details
- 10.9.2. Financial outlook
- 10.9.3. Product summary
- 10.9.4. Recent developments
- 10.10. Opel Energy Systems Pvt. Ltd.
- 10.10.1. Company details
- 10.10.2. Financial outlook
- 10.10.3. Product summary
- 10.10.4. Recent developments
- 10.11. Ormat Technologies
- 10.11.1. Company details
- 10.11.2. Financial outlook
- 10.11.3. Product summary
- 10.11.4. Recent developments
- 10.12. Zhejiang Kaishan Compressor Co., Ltd.
- 10.12.1. Company details
- 10.12.2. Financial outlook
- 10.12.3. Product summary
- 10.12.4. Recent developments
- 10.13. Others
- 11. Conclusion
- 12. List of Abbreviations
- 13. Reference Links
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