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Asia-Pacific Waste-To-Energy (WTE) Market 2019-2027

  • ID: 4863370
  • Report
  • December 2019
  • Region: Asia Pacific
  • 128 Pages
  • Triton Market Research
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FEATURED COMPANIES

MARKET OUTLOOK
The publisher has envisioned the Asia-Pacific waste-to-energy market to witness a compound annual growth rate of 4.92% in the forecasting years of 2019-2027.

China, Japan, India, Australia & New Zealand, South Korea, ASEAN countries, and countries in Rest of APAC together from the Asia-Pacific’s waste-to-energy market.

At present, in South Korea, more than 60% of renewable energy is derived from waste, with cheap production costs (10% of solar power and 66% of wind power). Thus, producing energy using waste has emerged as the most efficient way the country can provide itself with the desired renewable energy. With 97% of the country’s energy demand being imported, South Korea presents various opportunities for waste-to-energy technologies to extend the production and distribution of renewable energy.

Japan is one of the world’s largest economies and is highly advanced in regard to science and technology. The initiatives and policies by the government, along with the increased awareness regarding the usage of renewable energy, are expected to promote the development of Japan’s waste-to-energy market. 25% of the total waste produced in Asia is attributed to Japan. The country is the largest WtE market in Asia. At present, around 70% of the total waste produced in Japan is incinerated, also including incineration with energy recovery. However, in the coming years, both recycling and incineration with energy recovery are expected to be the most preferred disposal methods.

COMPETITIVE OUTLOOK
The major competitors in the waste-to-energy market are Xcel Energy, Inc., SAKO Brno A.S., Green Conversion Systems, Inc., Amec Foster Wheeler Plc (acquired by Wood Group), Waste Management, Inc., Hitachi Zosen Corporation, Wheelabrator Technologies, Inc., Suez Environnement Company, China Everbright International Ltd., and Austrian Energy & Environment Group.

Note: Product cover images may vary from those shown
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FEATURED COMPANIES

1. Asia-Pacific Waste-To-Energy (Wte) Market – Summary

2. Industry Outlook
2.1. Market Definition
2.2. Key Insights
2.2.1. Asia-Pacific Transforming Into A Promising Hub For Wte
2.2.2. Data Analytics & Big Data Optimizing Waste Management Value Chain
2.2.3. Incineration – Key Thermal Waste-To-Energy Technology
2.2.4. Growing Prominence Of Biological Wte Technology
2.3. Porter’S Five Forces Analysis
2.3.1. Bargaining Power Of Buyers
2.3.2. Bargaining Power Of Suppliers
2.3.3. Threat Of Substitute
2.3.4. Threat Of New Entrants
2.3.5. Threat Of Competitive Rivalry
2.4. Key Impact Analysis
2.4.1. Cost
2.4.2. Environment-Friendly
2.4.3. Substitutes
2.4.4. Availability
2.5. Market Attractiveness Index
2.6. Vendor Scorecard
2.7. Industry Components
2.7.1. Waste Generation
2.7.2. Waste Collection
2.7.3. Suppliers
2.7.4. Manufacturers
2.7.5. Distributors & Retailers
2.7.6. End-Users
2.8. Market Drivers
2.8.1. Rising Energy Demand & Need For Energy Security
2.8.2. Substantial Investments In New Wte Projects
2.8.3. Rapid Industrialization & Urbanization Contributing To The Increasing Municipal Waste
2.8.4. Declining Number Of Landfill Sites
2.9. Market Restraints
2.9.1. High Setup Cost – Major Drawback
2.9.2. Availability Of Alternative Technologies
2.9.3. Strict Environmental Guidelines
2.10. Market Opportunities
2.10.1. Depleting Conventional Energy Resources
2.10.2. Emerging Technologies
2.11. Market Challenges
2.11.1. Technological Challenges
2.11.2. Opposition From Environmental Groups & Local Communities

3. Asia-Pacific Waste-To-Energy (Wte) Market Outlook – By Technology
3.1. Thermal
3.2. Biological
3.3. Physical

4. Asia-Pacific Waste-To-Energy (Wte) Market Outlook – By Type Of Waste
4.1. Municipal Waste
4.1.1. Residential
4.1.2. Commercial & Institutional
4.1.3. Construction & Demolition
4.1.4. Other Municipal Wastes
4.2. Process Waste
4.3. Medical Waste
4.4. Agriculture Waste
4.5. Other Wastes

5. Asia-Pacific Waste-To-Energy (Wte) Market Outlook – By Application
5.1. Electricity
5.2. Heat
5.3. Combined Heat & Power Units
5.4. Transport Fuels
5.5. Other Applications

6. Asia-Pacific Waste-To-Energy (Wte) Market – Regional Outlook
6.1. China
6.2. Japan
6.3. India
6.4. South Korea
6.5. Asean Countries
6.6. Australia & New Zealand
6.7. Rest Of Asia-Pacific

7. Competitive Landscape
7.1. Amec Foster Wheeler Plc (Acquired By Wood Group)
7.2. Babcock & Wilcox Enterprises, Inc.
7.3. C&G Environmental Protection Holdings Ltd.
7.4. China Everbright International Ltd.
7.5. Covanta Holding Corporation
7.6. Green Conversion Systems, Inc.
7.7. Hitachi Zosen Corporation
7.8. Keppel Seghers
7.9. Mitsubishi Heavy Industries, Ltd.
7.10. Plasco Conversion Systems (Acquired By Rmb Advisory Services)
7.11. Suez Environnement Company
7.12. Veolia Environnement S.A.
7.13. Waste Management, Inc.
7.14. Wheelabrator Technologies, Inc.
7.15. Xcel Energy, Inc.
7.16. Bta International Gmbh
7.17. Martin Gmbh
7.18. Ze-Gen, Inc.
7.19. Sako Brno A.S.
7.20. Austrian Energy & Environment Group

8. Research Methodology & Scope
8.1. Research Scope & Deliverables
8.2. Sources Of Data
8.3. Research Methodology

Table List
Table 1: Asia-Pacific Waste-To-Energy (Wte) Market, By Country, 2019-2027 (In $ Million)
Table 2: Vendor Scorecard
Table 3: Anticipated Wte Projects Across World
Table 4: Projected Waste Generation Data For 2025, By Region
Table 5: Competing Renewable Technologies
Table 6: Carbon Efficiency Of Several Biofuel Production Processes
Table 7: Asia-Pacific Waste-To-Energy (Wte) Market, By Country, 2019-2027 (In $ Million)
Table 8: Asia-Pacific Waste-To-Energy (Wte) Market, By Technology, 2019-2027 (In $ Million)
Table 9: Asia-Pacific Waste-To-Energy (Wte) Market, By Type Of Waste, 2019-2027 (In $ Million)
Table 10: Asia-Pacific Waste-To-Energy (Wte) Market, By Municipal Solid Waste (Msw), 2019-2027 (In $ Million)
Table 11: Asia-Pacific Waste-To-Energy (Wte) Market, By Application, 2019-2027 (In $ Million)

Figure List
Figure 1: Market Investment For Incineration In Asia-Pacific, Europe And North America
Figure 2: Key Buying Impact Analysis
Figure 3: Market Attractiveness Index
Figure 4: Industry Components
Figure 5: Worldwide Gdp Growth Rate And Trends By Economy (Actual And Projected), 2010-2025 (In %)
Figure 6: Worldwide Region-Wise Energy Consumption, 2015-2035 (Mtoe = Million Ton Of Oil Equivalent)
Figure 7: Worldwide Available Municipal Waste For Wte, 2009-2016 (Million Ton)
Figure 8: Worldwide Renewable Electricity Installed Capacity, By Source, 2012-2019 (Gw)
Figure 9: Asia-Pacific Waste-To-Energy (Wte) Market, By Thermal, 2019-2027 (In $ Million)
Figure 10: Asia-Pacific Waste-To-Energy (Wte) Market, By Biological, 2019-2027 (In $ Million)
Figure 11: Asia-Pacific Waste-To-Energy (Wte) Market, By Physical, 2019-2027 (In $ Million)
Figure 12: Asia-Pacific Waste-To-Energy (Wte) Market, By Municipal Waste, 2019-2027 (In $ Million)
Figure 13: Asia-Pacific Waste-To-Energy (Wte) Market, By Residential, 2019-2027 (In $ Million)
Figure 14: Asia-Pacific Waste-To-Energy (Wte) Market, By Commercial & Institutional, 2019-2027 (In $ Million)
Figure 15: Asia-Pacific Waste-To-Energy (Wte) Market, By Construction & Demolition, 2019-2027 (In $ Million)
Figure 16: Asia-Pacific Waste-To-Energy (Wte) Market, By Other Wastes, 2019-2027 (In $ Million)
Figure 17: Asia-Pacific Waste-To-Energy (Wte) Market, By Process Waste, 2019-2027 (In $ Million)
Figure 18: Asia-Pacific Waste-To-Energy (Wte) Market, By Medical Waste, 2019-2027 (In $ Million)
Figure 19: Asia-Pacific Waste-To-Energy (Wte) Market, By Agriculture Waste, 2019-2027 (In $ Million)
Figure 20: Asia-Pacific Waste-To-Energy (Wte) Market, By Other Wastes, 2019-2027 (In $ Million)
Figure 21: Asia-Pacific Waste-To-Energy (Wte) Market, By Electricity, 2019-2027 (In $ Million)
Figure 22: Asia-Pacific Waste-To-Energy (Wte) Market, By Heat, 2019-2027 (In $ Million)
Figure 23: Asia-Pacific Waste-To-Energy (Wte) Market, By Combined Heat & Power Units, 2019-2027 (In $ Million)
Figure 24: Asia-Pacific Waste-To-Energy (Wte) Market, By Transport Fuels, 2019-2027 (In $ Million)
Figure 25: Asia-Pacific Waste-To-Energy (Wte) Market, By Other Applications, 2019-2027 (In $ Million)
Figure 26: Asia-Pacific Waste-To-Energy (Wte) Market, Regional Outlook, 2018 & 2027 (In %)
Figure 27: China Waste-To-Energy (Wte) Market, 2019-2027 (In $ Million)
Figure 28: Japan Waste-To-Energy (Wte) Market, 2019-2027 (In $ Million)
Figure 29: India Waste-To-Energy (Wte) Market, 2019-2027 (In $ Million)
Figure 30: South Korea Waste-To-Energy (Wte) Market, 2019-2027 (In $ Million)
Figure 31: Asean Countries Waste-To-Energy (Wte) Market, 2019-2027 (In $ Million)
Figure 32: Australia & New Zealand Waste-To-Energy (Wte) Market, 2019-2027 (In $ Million)
Figure 33: Rest Of Asia-Pacific Waste-To-Energy (Wte) Market, 2019-2027 (In $ Million)

Note: Product cover images may vary from those shown
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  • Amec Foster Wheeler Plc (Acquired By Wood Group)
  • Babcock & Wilcox Enterprises, Inc.
  • C&G Environmental Protection Holdings Ltd.
  • China Everbright International Ltd.
  • Covanta Holding Corporation
  • Green Conversion Systems, Inc.
  • Hitachi Zosen
Note: Product cover images may vary from those shown
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