Market By Technology, Type Of Waste, Municipal Solid Waste (mSW), Application, And Geography | Forecast 2019-2027
According to the analysis by Triton Market Research, the global waste-to-energy market accounted for $31.67 billion in 2018 and is expected to witness a CAGR of 6.09% over the forecast period of 2019-2027 to reach $53.75 billion by 2027.
Waste-to-energy is the process of generating energy in the form of electricity/heat by treating waste with the help of technologies such as thermos-chemical and bio-chemical. WtE is known as the technology that generates gold from garbage. WtE is also referred to as EfW (energy-from-waste). WTE technologies, along with providing a cleaner solution to waste disposal, also provide a solution for energy security.
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Triton Market Research’s report on the waste-to-energy market provides an in-depth insight into the industry. The detailed analysis of the market includes key market insights, vendor scorecard, industry components, Porter’s five forces analysis, and market attractiveness index.
Factors such as the rising energy demand & need for energy security, substantial investments in new WtE projects, rapid industrialization & urbanization, and increasing municipal waste, coupled with a declining number of landfill sites, are expected to foster the growth of the market. Since the year 2008, the depleting fossil fuels, and the dangers of improper waste management, are primarily leading the expansion of waste-to-energy facilities substantially. More than a ton of waste was produced annually by an average household in 2018. Further, the global annual waste generation is expected to reach 2.59 billion kilo metric ton by 2030 and 3.4 billion kilo metric ton by 2050, up from 2.01 billion kilo metric ton in 2016.
Furthermore, the depleting conventional energy resources, emerging technologies such as hydrothermal carbonization & Dendro Liquid Energy (DLE) and the integration of data analytics & Big Data for optimizing waste management value chain, are expected to act as opportunities for the market. Favorable government policies encouraging incentives for renewable energy have boosted waste treatment in the past few years. For instance, the Government of India has been providing incentives for WtE projects, in the form of feed-in tariffs and capital subsidies. In March 2018, Japan set aside JPY 5.01 billion of grant for the plan to construct and manage waste-to-energy facilities in Davao city.
Though the waste-to-energy market is progressing at a steady rate, several factors, such as the high setup cost, availability of alternative technologies, strict environmental guidelines, and the opposition from environmental groups & local communities, are restricting the market growth. A comparatively smaller WtE plant (with the capacity of processing 75,000 ton per annum) could cost around $28.5 million. For example, the WtE plant in the city of Foshan, with a capacity of 462,000 ton per year, had an investment cost of $120 per annual capacity ton, while the plant in Shanghai, with the capacity of 495,000 ton per year, had an investment cost of $282 per annual capacity tons.
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Key geographies covered in the global waste-to-energy market are:
• North America: United States and Canada
• Europe: United Kingdom, France, Germany, Spain, Italy, Russia, and Rest of Europe
• Asia-Pacific: China, Japan, India, Australia, South Korea, ASEAN Countries, and Rest of Asia-Pacific
• Latin America: Brazil, Mexico, and Rest of Latin America
• The Middle East and Africa: Saudi Arabia, Turkey, United Arab Emirates, South Africa, and Rest of Middle East & Africa
The segmentation analysis of the waste-to-energy market includes:
• Waste to Energy Technologies is segmented into:
O Thermal WtE Technology
O Biological WtE Technology
O Physical WtE Technology
• Waste Type is segmented into:
O Municipal Waste
• Residential
• Commercial & Institutional
• Construction & Demolition
• Other Municipal Wastes
O Process Waste
O Medical Waste
O Agriculture Waste
O Other Wastes
• Application is segmented into:
O Electricity
O Heat
O Combined Heat & Power Units
O Transport Fuels
O Other applications
The top companies that have been studied in the waste-to-energy market are Waste Management, Inc., Mitsubishi Heavy Industries, Ltd., Green Conversion Systems, Inc., Ze-gen, Inc., Covanta Holding Corporation, China Everbright International Ltd., SAKO Brno A.S., Keppel Seghers, Wheelabrator Technologies, Inc., and Hitachi Zosen Corporation.
1. GLOBAL
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. GLOBAL
WASTE-TO-ENERGY (WTE) MARKET OUTLOOK – BY TECHNOLOGY
3.1. THERMAL
3.2. BIOLOGICAL
3.3. PHYSICAL
4. GLOBAL
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. GLOBAL
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. GLOBAL
WASTE-TO-ENERGY (WTE) MARKET – REGIONAL OUTLOOK
6.1. NORTH
AMERICA
6.1.1. MARKET
BY TECHNOLOGY
6.1.2. MARKET
BY TYPE OF WASTE
6.1.3. MARKET
BY MUNICIPAL SOLID WASTE (MSW)
6.1.4. MARKET
BY APPLICATION
6.1.5. COUNTRY
ANALYSIS
6.1.5.1. UNITED
STATES
6.1.5.2. CANADA
6.2. EUROPE
6.2.1. MARKET
BY TECHNOLOGY
6.2.2. MARKET
BY TYPE OF WASTE
6.2.3. MARKET
BY MUNICIPAL SOLID WASTE (MSW)
6.2.4. MARKET
BY APPLICATION
6.2.5. COUNTRY
ANALYSIS
6.2.5.1. UNITED
KINGDOM
6.2.5.2. GERMANY
6.2.5.3. FRANCE
6.2.5.4. SPAIN
6.2.5.5. ITALY
6.2.5.6. RUSSIA
6.2.5.7. REST
OF EUROPE
6.3. ASIA-PACIFIC
6.3.1. MARKET
BY TECHNOLOGY
6.3.2. MARKET
BY TYPE OF WASTE
6.3.3. MARKET
BY MUNICIPAL SOLID WASTE (MSW)
6.3.4. MARKET
BY APPLICATION
6.3.5. COUNTRY
ANALYSIS
6.3.5.1. CHINA
6.3.5.2. JAPAN
6.3.5.3. INDIA
6.3.5.4. SOUTH
KOREA
6.3.5.5. ASEAN
COUNTRIES
6.3.5.6. AUSTRALIA
& NEW ZEALAND
6.3.5.7. REST
OF ASIA-PACIFIC
6.4. LATIN
AMERICA
6.4.1. MARKET
BY TECHNOLOGY
6.4.2. MARKET
BY TYPE OF WASTE
6.4.3. MARKET
BY MUNICIPAL SOLID WASTE (MSW)
6.4.4. MARKET
BY APPLICATION
6.4.5. COUNTRY
ANALYSIS
6.4.5.1. BRAZIL
6.4.5.2. MEXICO
6.4.5.3. REST
OF LATIN AMERICA
6.5. MIDDLE
EAST AND AFRICA
6.5.1. MARKET
BY TECHNOLOGY
6.5.2. MARKET
BY TYPE OF WASTE
6.5.3. MARKET
BY MUNICIPAL SOLID WASTE (MSW)
6.5.4. MARKET
BY APPLICATION
6.5.5. COUNTRY
ANALYSIS
6.5.5.1. UNITED
ARAB EMIRATES
6.5.5.2. TURKEY
6.5.5.3. SAUDI
ARABIA
6.5.5.4. SOUTH
AFRICA
6.5.5.5. REST
OF MIDDLE EAST & AFRICA
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 1: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY GEOGRAPHY, 2019-2027 (IN $ MILLION)
TABLE 2: VENDOR
SCORECARD
TABLE 3: ANTICIPATED
WTE PROJECTS ACROSS THE 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: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, 2019-2027 (IN $ MILLION)
TABLE 8: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY TYPE OF WASTE, 2019-2027 (IN $ MILLION)
TABLE 9: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL SOLID WASTE (MSW), 2019-2027 (IN $
MILLION)
TABLE 10: GLOBAL WASTE-TO-ENERGY
(WTE) MARKET, BY APPLICATION, 2019-2027 (IN $ MILLION)
TABLE 11: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY GEOGRAPHY, 2019-2027 (IN $ MILLION)
TABLE 12: NORTH AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, 2019-2027 (IN $ MILLION)
TABLE 13: NORTH AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, 2019-2027 (IN $ MILLION)
TABLE 14: NORTH AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY TYPE OF WASTE, 2019-2027 (IN $ MILLION)
TABLE 15: NORTH AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL SOLID WASTE (MSW), 2019-2027 (IN $
MILLION)
TABLE 16: NORTH AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY APPLICATION, 2019-2027 (IN $ MILLION)
TABLE 17: EUROPE
WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, 2019-2027 (IN $ MILLION)
TABLE 18: EUROPE
WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, 2019-2027 (IN $ MILLION)
TABLE 19: EUROPE
WASTE-TO-ENERGY (WTE) MARKET, BY TYPE OF WASTE, 2019-2027 (IN $ MILLION)
TABLE 20: EUROPE
WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL SOLID WASTE (MSW), 2019-2027 (IN $
MILLION)
TABLE 21: EUROPE WASTE-TO-ENERGY
(WTE) MARKET, BY APPLICATION, 2019-2027 (IN $ MILLION)
TABLE 22: ASIA-PACIFIC
WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, 2019-2027 (IN $ MILLION)
TABLE 23: ASIA-PACIFIC
WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, 2019-2027 (IN $ MILLION)
TABLE 24: ASIA-PACIFIC
WASTE-TO-ENERGY (WTE) MARKET, BY TYPE OF WASTE, 2019-2027 (IN $ MILLION)
TABLE 25: ASIA-PACIFIC
WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL SOLID WASTE (MSW), 2019-2027 (IN $
MILLION)
TABLE 26: ASIA-PACIFIC
WASTE-TO-ENERGY (WTE) MARKET, BY APPLICATION, 2019-2027 (IN $ MILLION)
TABLE 27: LATIN AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, 2019-2027 (IN $ MILLION)
TABLE 28: LATIN AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, 2019-2027 (IN $ MILLION)
TABLE 29: LATIN AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY TYPE OF WASTE, 2019-2027 (IN $ MILLION)
TABLE 30: LATIN AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL SOLID WASTE (MSW), 2019-2027 (IN $
MILLION)
TABLE 31: LATIN AMERICA
WASTE-TO-ENERGY (WTE) MARKET, BY APPLICATION, 2019-2027 (IN $ MILLION)
TABLE 32: MIDDLE EAST
AND AFRICA WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, 2019-2027 (IN $ MILLION)
TABLE 33: MIDDLE EAST
AND AFRICA WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, 2019-2027 (IN $
MILLION)
TABLE 34: MIDDLE EAST
AND AFRICA WASTE-TO-ENERGY (WTE) MARKET, BY TYPE OF WASTE, 2019-2027 (IN $
MILLION)
TABLE 35: MIDDLE EAST
AND AFRICA WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL SOLID WASTE (MSW),
2019-2027 (IN $ MILLION)
TABLE 36: MIDDLE EAST
AND AFRICA WASTE-TO-ENERGY (WTE) MARKET, BY APPLICATION, 2019-2027 (IN $
MILLION)
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: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY THERMAL, 2019-2027 (IN $ MILLION)
FIGURE 10: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY BIOLOGICAL, 2019-2027 (IN $ MILLION)
FIGURE 11: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY PHYSICAL, 2019-2027 (IN $ MILLION)
FIGURE 12: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL WASTE, 2019-2027 (IN $ MILLION)
FIGURE 13: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY RESIDENTIAL, 2019-2027 (IN $ MILLION)
FIGURE 14: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY COMMERCIAL & INSTITUTIONAL, 2019-2027 (IN
$ MILLION)
FIGURE 15: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY CONSTRUCTION & DEMOLITION, 2019-2027 (IN $
MILLION)
FIGURE 16: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY OTHER WASTES, 2019-2027 (IN $ MILLION)
FIGURE 17: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY PROCESS WASTE, 2019-2027 (IN $ MILLION)
FIGURE 18: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY MEDICAL WASTE, 2019-2027 (IN $ MILLION)
FIGURE 19: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY AGRICULTURE WASTE, 2019-2027 (IN $ MILLION)
FIGURE 20: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY OTHER WASTES, 2019-2027 (IN $ MILLION)
FIGURE 21: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY ELECTRICITY, 2019-2027 (IN $ MILLION)
FIGURE 22: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY HEAT, 2019-2027 (IN $ MILLION)
FIGURE 23: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY COMBINED HEAT & POWER UNITS, 2019-2027 (IN
$ MILLION)
FIGURE 24: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY TRANSPORT FUELS, 2019-2027 (IN $ MILLION)
FIGURE 25: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, BY OTHER APPLICATIONS, 2019-2027 (IN $ MILLION)
FIGURE 26: GLOBAL
WASTE-TO-ENERGY (WTE) MARKET, REGIONAL OUTLOOK, 2018 & 2027 (IN %)
FIGURE 27: UNITED
STATES WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 28: CANADA
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 29: UNITED
KINGDOM WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 30: GERMANY
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 31: FRANCE
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 32: SPAIN
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 33: ITALY
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 34: RUSSIA
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 35: REST OF
EUROPE WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 36: CHINA
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 37: JAPAN
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 38: INDIA
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 39: SOUTH KOREA
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 40: ASEAN
COUNTRIES WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 41: AUSTRALIA
& NEW ZEALAND WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 42: REST OF
ASIA-PACIFIC WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 43: BRAZIL
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 44: MEXICO
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 45: REST OF
LATIN AMERICA WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 46: UNITED ARAB
EMIRATES WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 47: TURKEY
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 48: SAUDI ARABIA
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 49: SOUTH AFRICA
WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)
FIGURE 50: REST OF
MIDDLE EAST & AFRICA WASTE-TO-ENERGY (WTE) MARKET, 2019-2027 (IN $ MILLION)