表紙
市場調查報告書

廢棄物能源(WtE)的全球市場預估(2019年∼2028年)

Global Waste-to-energy (WTE) Market Forecast 2019-2028

出版商 Inkwood Research 商品編碼 940534
出版日期 內容資訊 英文 444 Pages
商品交期: 2-3個工作天內
價格
廢棄物能源(WtE)的全球市場預估(2019年∼2028年) Global Waste-to-energy (WTE) Market Forecast 2019-2028
出版日期: 2020年06月08日內容資訊: 英文 444 Pages
簡介

全球的廢棄物能源(WtE)市場在2019年到2028年期間預測成長6.29%CAGR。主要的促進因素是原有的能源資源枯竭、可掩埋的土地減少、全球的廢棄物能源開發項目增加、都市的廢棄物增加等理由。

本報告是針對全球廢棄物能源(WtE)市場調查並提供市場規模、促進與妨礙因素、技術□用途□廢棄物種類□地域區別的市場分析、競爭情況、主要企業概述資料等情報資訊。

目錄

第1章 調查範圍與調查方法

  • 調查目的
  • 調查範圍
  • 調查方法
  • 前提與限制

第2章 執行摘要

  • 市場規模與推測
  • 市場概要

第3章 市場展望

  • 導論
  • 廢棄物的發生源頭
  • WtE的主旨
  • WtE的利點
  • WtE的課題
  • WtE的技術分析
  • WtE的戰略分析
  • WtE的用途

第4章 市場動態

  • 市場定義
  • 主要促進因素
    • 原有的能源資源枯竭增加了可循環使用能源的需求
    • 能源需求增加
    • 各地產生的廢棄物數量增加
    • 可掩埋的土地減少
  • 主要的妨礙因素
    • 初期成本高
    • 地域社會與環保團體的抗議
    • 嚴格的環保守則
    • 缺乏基礎設施和技術純熟的人員
    • 太陽能發電、水力發電、風力發電等其他商業技術的威脅
    • 技術和財務障礙

第5章 主要分析

  • COVID-19的影響
  • 主要投資情況
  • 五力分析
  • 業務談判矩陣
  • 供應商狀況
  • 價值鏈分析
  • 主要購買基準
  • 廢棄物管理規定的基本構造
    • 美國
    • 歐洲
    • 東盟國家
    • 印度
    • 中國
    • 日本
    • 澳洲
    • 韓國
  • WtE的自動化

第6章 市場分析:以技術區別

  • 熱能
  • 生物學
  • 物理學

第7章 市場分析:以用途區別

  • 電力
  • 熱能
  • 熱電聯產機組
  • 運輸燃料
  • 其他用途

第8章 市場分析:以廢棄物種類區別

  • 地方政府廢棄物
    • 住宅
    • 商業□公共機構
    • 建設□拆除
    • 其他
  • 製造中產生廢棄物
  • 醫療廢棄物
  • 農業廢棄物
  • 其他

第9章 市場分析:以地域區別

  • 北美
  • 歐洲
  • 亞太地區
  • 其他地域
    • 拉丁美洲
    • 中東□非洲

第10章 企業概要資訊

  • AMEC FOSTER WHEELER PLC (WOOD GROUPズプペ買收)
  • BABCOCK & WILCOX ENTERPRISES INC
  • C&G ENVIRONMENTAL PROTECTION HOLDING LTD
  • CHINA EVERBRIGHT INTERNATIONAL LTD
  • COVANTA HOLDING CORPORATION
  • GREEN CONVERSION SYSTEMS INC
  • 日立造船株式會社
  • KEPPEL SEGHERS
  • 三菱重工業株式會社
  • PLASCO CONVERSION SYSTEMS (被RMB ADVISORY SERVICES)收購
  • SUEZ ENVIRONMENT COMPANY
  • VEOLIA ENVIRONNEMENT S.A.
  • WASTE MANAGEMENT INC
  • WHEELABRATOR TECHNOLOGIES INC. (MACQUARIE INFRASTRUCTURE PARTNERSズプペ買收)
  • XCEL ENERGY INC
  • BTA INTERNATIONAL GMBH
  • MARTIN GMBH
  • MVV ENERGIE AG
目錄
Product Code: 11321

KEY FINDINGS

The global waste-to-energy market is projected to register a CAGR of 6.29% during the forecast period, 2019-2028. The deciding factors fueling the growth of the market are the depleting conventional energy resources, the decline in the number of landfill sites, the growing number of waste to energy projects across the globe, and the rising number of municipal solid waste generation.

MARKET INSIGHTS

Waste-to-energy (WtE) is gaining traction as a significant component of integrated waste management strategies. It is considered to be an alternative strategy for relieving pressure on landfills. The potential of WtE gives it an edge over other strategies. When it comes to waste as an energy resource, it is imperative to take into consideration the composition of several types of available waste. Over the years, urbanization and industrialization have culminated in a vast amount of municipal waste generation, which is estimated to increase threefold in the coming years. Economically prominent countries are inclined to generate more MSW than other countries. The growing demand for sustainable energy has resulted in the development of WtE technologies. Thus, the rising amount of feed available for WtE is set to fuel market growth. The initial investment, with regard to construction and implementation of WtE technologies, along with operational costs, are the factors assessed to hamper the market growth.

REGIONAL INSIGHTS

The geographical segmentation of the global waste-to-energy market includes the market assessment of Europe, Asia Pacific, North America, and the rest of the world. The North America market is slated to record the highest growth rate by 2028. The factors responsible for the aforementioned market prospects are deemed to be an increasing amount of waste generated in the United States, along with the increasing number of waste-to-energy facilities. The US is also projected to be the fastest-growing region in North America.

COMPETITIVE INSIGHTS

With regard to industry rivalry scenario, there is a lack of diversity in terms of products, and the exit barriers are high. Some of the eminent companies in the market include, China Everbright International Ltd, Covanta Holding Corporation, Waste Management Inc, Babcock & Wilcox Enterprises Inc, etc.

Our report offerings include:

  • Explore key findings of the overall market
  • Strategic breakdown of market dynamics (Drivers, Restraints, Opportunities, Challenges)
  • Market forecasts for a minimum of 9 years, along with 3 years of historical data for all segments, sub-segments, and regions
  • Market Segmentation cater to a thorough assessment of key segments with their market estimations
  • Geographical Analysis: Assessments of the mentioned regions and country-level segments with their market share
  • Key analytics: Porter's Five Forces Analysis, Vendor Landscape, Opportunity Matrix, Key Buying Criteria, etc.
  • Competitive landscape is the theoretical explanation of the key companies based on factors, market share, etc.
  • Company profiling: A detailed company overview, product/services offered, SCOT analysis, and recent strategic developments

TABLE OF CONTENTS

1. RESEARCH SCOPE & METHODOLOGY

  • 1.1. STUDY OBJECTIVES
  • 1.2. SCOPE OF STUDY
  • 1.3. METHODOLOGY
  • 1.4. ASSUMPTIONS & LIMITATIONS

2. EXECUTIVE SUMMARY

  • 2.1. MARKET SIZE & ESTIMATES
  • 2.2. MARKET OVERVIEW

3. WASTE-TO-ENERGY OUTLOOK

  • 3.1. INTRODUCTION
  • 3.2. SOURCES OF WASTE
  • 3.3. WASTE-TO-ENERGY: THE CONCEPT
  • 3.4. BENEFITS OF WASTE-TO-ENERGY
  • 3.5. CHALLENGES TO WASTE-TO-ENERGY
  • 3.6. WASTE-TO-ENERGY TECHNOLOGY ANALYSIS
    • 3.6.1. THERMAL
      • 3.6.1.1. INCINERATION
      • 3.6.1.2. GASIFICATION
      • 3.6.1.3. PYROLYSIS
      • 3.6.1.4. PLASMA ARC WTE TECHNOLOGY
    • 3.6.2. BIOLOGICAL
      • 3.6.2.1. ANAEROBIC DIGESTION
      • 3.6.2.2. BIOGAS TO ENERGY
    • 3.6.3. PHYSICAL
  • 3.7. WASTE-TO-ENERGY STRATEGY ANALYSIS
  • 3.8. APPLICATIONS OF WASTE-TO-ENERGY
    • 3.8.1. ELECTRICITY
    • 3.8.2. HEAT
    • 3.8.3. COMBINED HEAT AND POWER (CHP)
    • 3.8.4. TRANSPORT FUELS

4. MARKET DYNAMICS

  • 4.1. MARKET DEFINITION
  • 4.2. KEY DRIVERS
    • 4.2.1. DEPLETION OF CONVENTIONAL ENERGY RESOURCES AUGMENTING DEMAND OF RENEWABLE ENERGY
    • 4.2.2. GROWING ENERGY DEMAND
    • 4.2.3. INCREASING MUNICIPAL WASTE GENERATION
    • 4.2.4. DECLINE IN THE NUMBER OF LANDFILL SITES
  • 4.3. KEY RESTRAINTS
    • 4.3.1. HIGH INITIAL SETUP COST
    • 4.3.2. RESISTANCE FROM LOCAL COMMUNITIES & ENVIRONMENT GROUPS
    • 4.3.3. STRINGENT ENVIRONMENTAL GUIDELINES
    • 4.3.4. LACK OF INFRASTRUCTURE & SKILLED WORKFORCE
    • 4.3.5. THREAT FROM ESTABLISHED COMMERCIAL TECHNOLOGIES SUCH AS SOLAR POWER, HYDROPOWER, AND WIND POWER
    • 4.3.6. TECHNOLOGICAL AND ECONOMICAL OBSTACLES

5. KEY ANALYTICS

  • 5.1. IMPACT OF COVID-19 ON WASTE TO ENERGY
  • 5.2. KEY INVESTMENT INSIGHTS
  • 5.3. PORTER'S FIVE FORCES ANALYSIS
    • 5.3.1. BUYER POWER
    • 5.3.2. SUPPLIER POWER
    • 5.3.3. SUBSTITUTION
    • 5.3.4. NEW ENTRANTS
    • 5.3.5. INDUSTRY RIVALRY
  • 5.4. OPPORTUNITY MATRIX
  • 5.5. VENDOR LANDSCAPE
  • 5.6. VALUE CHAIN ANALYSIS
    • 5.6.1. WASTE PRODUCERS
    • 5.6.2. WASTE COLLECTION
    • 5.6.3. SUPPLIERS
    • 5.6.4. MANUFACTURERS
    • 5.6.5. DISTRIBUTORS
    • 5.6.6. RETAILERS
    • 5.6.7. END-USERS
  • 5.7. KEY BUYING CRITERIA
    • 5.7.1. PRICE
    • 5.7.2. PRODUCT AVAILABILITY
    • 5.7.3. ENVIRONMENTAL CONCERNS
    • 5.7.4. ALTERNATIVES
  • 5.8. REGULATORY FRAMEWORK REGARDING WASTE MANAGEMENT
    • 5.8.1. UNITED STATES
      • 5.8.1.1. CURRENT PRACTICES
      • 5.8.1.2. REGULATORY FRAMEWORK
    • 5.8.2. EUROPE
      • 5.8.2.1. CURRENT PRACTICES
      • 5.8.2.2. WASTE LEGISLATION AND POLICIES
      • 5.8.2.3. ROLE OF BIOGAS FEED-IN TARIFFS AND RELATED POLICIES IN EUROPE
      • 5.8.2.4. WASTE MANAGEMENT PRACTICES IN EUROPE
    • 5.8.3. ASEAN COUNTRIES
      • 5.8.3.1. CURRENT PRACTICES
      • 5.8.3.2. WASTE LEGISLATION AND POLICIES
    • 5.8.4. INDIA
      • 5.8.4.1. CURRENT PRACTICES
      • 5.8.4.2. WASTE LEGISLATION AND POLICIES
    • 5.8.5. CHINA
      • 5.8.5.1. CURRENT PRACTICES
      • 5.8.5.2. WASTE LEGISLATION AND POLICIES
    • 5.8.6. JAPAN
      • 5.8.6.1. RECYCLING LAWS
      • 5.8.6.2. CURRENT PRACTICES
      • 5.8.6.3. WASTE LEGISLATION AND POLICIES
    • 5.8.7. AUSTRALIA
      • 5.8.7.1. CURRENT PRACTICES
      • 5.8.7.2. WASTE LEGISLATION AND POLICIES
    • 5.8.8. SOUTH KOREA
  • 5.9. AUTOMATION IN WASTE TO ENERGY

6. MARKET BY TECHNOLOGY

  • 6.1. THERMAL
  • 6.2. BIOLOGICAL
  • 6.3. PHYSICAL

7. MARKET BY APPLICATION

  • 7.1. ELECTRICITY
  • 7.2. HEAT
  • 7.3. COMBINED HEAT & POWER UNITS
  • 7.4. TRANSPORT FUELS
  • 7.5. OTHER APPLICATIONS

8. MARKET BY WASTE TYPE

  • 8.1. MUNICIPAL WASTE
    • 8.1.1. RESIDENTIAL
    • 8.1.2. COMMERCIAL & INSTITUTIONAL
    • 8.1.3. CONSTRUCTION & DEMOLITION
    • 8.1.4. OTHER MUNICIPAL WASTES
  • 8.2. PROCESS WASTE
  • 8.3. MEDICAL WASTE
  • 8.4. AGRICULTURE WASTE
  • 8.5. OTHER WASTES

9. GEOGRAPHICAL ANALYSIS

  • 9.1. NORTH AMERICA
    • 9.1.1. UNITED STATES
    • 9.1.2. CANADA
  • 9.2. EUROPE
    • 9.2.1. UNITED KINGDOM
    • 9.2.2. GERMANY
    • 9.2.3. FRANCE
    • 9.2.4. ITALY
    • 9.2.5. RUSSIA
    • 9.2.6. BELGIUM
    • 9.2.7. POLAND
    • 9.2.8. REST OF EUROPE
  • 9.3. ASIA PACIFIC
    • 9.3.1. CHINA
    • 9.3.2. JAPAN
    • 9.3.3. INDIA
    • 9.3.4. SOUTH KOREA
    • 9.3.5. INDONESIA
    • 9.3.6. THAILAND
    • 9.3.7. VIETNAM
    • 9.3.8. AUSTRALIA & NEW ZEALAND
    • 9.3.9. REST OF ASIA PACIFIC
  • 9.4. REST OF WORLD
    • 9.4.1. LATIN AMERICA
    • 9.4.2. MIDDLE EAST & AFRICA

10. COMPANY PROFILES

  • 10.1. AMEC FOSTER WHEELER PLC (ACQUIRED BY WOOD GROUP)
  • 10.2. BABCOCK & WILCOX ENTERPRISES INC
  • 10.3. C&G ENVIRONMENTAL PROTECTION HOLDING LTD
  • 10.4. CHINA EVERBRIGHT INTERNATIONAL LTD
  • 10.5. COVANTA HOLDING CORPORATION
  • 10.6. GREEN CONVERSION SYSTEMS INC
  • 10.7. HITACHI ZOSEN CORPORATION
  • 10.8. KEPPEL SEGHERS
  • 10.9. MITSUBISHI HEAVY INDUSTRIES LTD
  • 10.10. PLASCO CONVERSION SYSTEMS (ACQUIRED BY RMB ADVISORY SERVICES)
  • 10.11. SUEZ ENVIRONMENT COMPANY
  • 10.12. VEOLIA ENVIRONNEMENT S.A.
  • 10.13. WASTE MANAGEMENT INC
  • 10.14. WHEELABRATOR TECHNOLOGIES INC. (ACQUIRED BY MACQUARIE INFRASTRUCTURE PARTNERS)
  • 10.15. XCEL ENERGY INC
  • 10.16. BTA INTERNATIONAL GMBH
  • 10.17. MARTIN GMBH
  • 10.18. MVV ENERGIE AG

LIST OF TABLES

  • TABLE 1: MARKET SNAPSHOT - WASTE-TO-ENERGY (WTE)
  • TABLE 2: TYPES OR SOURCES OF WASTE
  • TABLE 3: KEY BENEFITS OF WASTE-TO-ENERGY PROCESSES
  • TABLE 4: KEY CHALLENGES TO WTE MARKETS
  • TABLE 5: KEY THERMAL WTE SUPPLIERS BY TYPE OF INCINERATION
  • TABLE 6: KEY ALTERNATIVE THERMAL WTE TECHNOLOGY PROVIDERS WITH NUMBER OF PLANTS, THROUGHPUT AND TECHNOLOGY CONFIGURATION
  • TABLE 7: COMPARISON BETWEEN COMBUSTION, GASIFICATION, AND PYROLYSIS
  • TABLE 8: COMPARISON OF CONVENTIONAL TECHNOLOGIES WITH ALTERNATIVE WTE TECHNOLOGIES
  • TABLE 9: LIST OF METHODS UNDER INVESTIGATION FOR IMPROVING BIOGAS YIELDS
  • TABLE 10: DIFFERENCE BETWEEN ANAEROBIC AND AEROBIC DIGESTION
  • TABLE 11: LIST OF POTENTIAL MUNICIPAL SOLID WASTES
  • TABLE 12: IMPORTANT PARAMETERS FOR ANAEROBIC DIGESTION
  • TABLE 13: DIFFERENCE BETWEEN MESOPHILIC AND THERMOPHILIC ANAEROBIC DIGESTION
  • TABLE 14: BENEFITS AND LIMITATIONS OF DIFFERENT ANAEROBIC DIGESTION PROCESS CONFIGURATIONS
  • TABLE 15: COMPARISON OF GENERAL CHARACTERISTICS OF VARIOUS POWER GENERATORS
  • TABLE 16: DIFFERENT FUEL CELL TYPES USED FOR BIOGAS CONVERSION
  • TABLE 17: PROJECTED WASTE GENERATION DATA FOR 2025, BY REGION
  • TABLE 18: CARBON EFFICIENCY OF SEVERAL BIOFUEL PRODUCTION PROCESSES
  • TABLE 19: ANTICIPATED WTE PROJECTS ACROSS WORLD
  • TABLE 20: KEY LEGISLATION AND POLICIES FOR WASTE MANAGEMENT IN THE UNITED STATES
  • TABLE 21: KEY LEGISLATION AND POLICIES FOR WASTE MANAGEMENT IN EUROPE
  • TABLE 22: COMPARISON OF FINANCIAL INCENTIVE POLICIES ADOPTED BY VARIOUS EUROPEAN COUNTRIES
  • TABLE 23: KEY LEGISLATION AND POLICIES FOR WASTE MANAGEMENT IN ASEAN COUNTRIES
  • TABLE 24: KEY LEGISLATION AND POLICIES FOR WASTE MANAGEMENT IN INDIA
  • TABLE 25: PROJECTED MUNICIPAL WASTE GENERATION FOR URBAN POPULATION IN CHINA, 2000-2030
  • TABLE 26: KEY LEGISLATION AND POLICIES FOR WASTE MANAGEMENT IN CHINA
  • TABLE 27: KEY LEGISLATION AND POLICIES FOR WASTE MANAGEMENT IN JAPAN
  • TABLE 28: ESTIMATED RATIOS OF DIFFERENT TYPES OF WASTE IN MSW, AUSTRALIA
  • TABLE 29: KEY LEGISLATION AND POLICIES FOR WASTE MANAGEMENT IN AUSTRALIA
  • TABLE 30: SOME OF THE PROMISING CASES OF AUTOMATION IN WTE
  • TABLE 31: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 32: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY TECHNOLOGY, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 33: GLOBAL THERMAL MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 34: GLOBAL THERMAL MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 35: GLOBAL BIOLOGICAL MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 36: GLOBAL BIOLOGICAL MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 37: GLOBAL PHYSICAL MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 38: GLOBAL PHYSICAL MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 39: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY APPLICATION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 40: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY APPLICATION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 41: GLOBAL ELECTRICITY MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 42: GLOBAL ELECTRICITY MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 43: GLOBAL HEAT MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 44: GLOBAL HEAT MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 45: GLOBAL COMBINED HEAT & POWER UNITS MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 46: GLOBAL COMBINED HEAT & POWER UNITS MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 47: GLOBAL TRANSPORT FUELS MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 48: GLOBAL TRANSPORT FUELS MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 49: GLOBAL OTHER APPLICATIONS MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 50: GLOBAL OTHER APPLICATIONS MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 51: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY WASTE TYPE, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 52: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY WASTE TYPE, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 53: GLOBAL MUNICIPAL WASTE MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 54: GLOBAL MUNICIPAL WASTE MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 55: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY MSW TYPE, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 56: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY MSW TYPE, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 57: GLOBAL RESIDENTIAL MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 58: GLOBAL RESIDENTIAL MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 59: GLOBAL COMMERCIAL & INSTITUTIONAL MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 60: GLOBAL COMMERCIAL & INSTITUTIONAL MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 61: GLOBAL CONSTRUCTION & DEMOLITION MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 62: GLOBAL CONSTRUCTION & DEMOLITION MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 63: GLOBAL OTHER MUNICIPAL WASTES MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 64: GLOBAL OTHER MUNICIPAL WASTES MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 65: GLOBAL PROCESS WASTE MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 66: GLOBAL PROCESS WASTE MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 67: GLOBAL MEDICAL WASTE MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 68: GLOBAL MEDICAL WASTE MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 69: GLOBAL AGRICULTURE WASTE MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 70: GLOBAL AGRICULTURE WASTE MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 71: GLOBAL OTHER WASTES MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 72: GLOBAL OTHER WASTES MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 73: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY GEOGRAPHY, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 74: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY GEOGRAPHY, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 75: NORTH AMERICA WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 76: NORTH AMERICA WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 77: LIST OF WASTE-TO-ENERGY FACILITIES IN THE UNITED STATES
  • TABLE 78: EUROPE WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 79: EUROPE WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 80: LEVELS OF WASTE MANAGEMENT IN EUROPE
  • TABLE 81: ASIA PACIFIC WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 82: ASIA PACIFIC WASTE-TO-ENERGY (WTE) MARKET, BY COUNTRY, FORECAST YEARS, 2019-2028 (IN $ MILLION)
  • TABLE 83: WASTE TO ENERGY TECHNIQUES PRACTICED IN MAJOR CITIES IN INDIA (TONNES PER DAY)
  • TABLE 84: POWER GENERATION POTENTIAL FROM MUNICIPAL SOLID WASTE IN INDIA
  • TABLE 85: TIMELINE OF WASTE TO ENERGY PLANTS IN THAILAND, 2010-2016
  • TABLE 86: REST OF WORLD WASTE-TO-ENERGY (WTE) MARKET, BY REGION, HISTORICAL YEARS, 2016-2019 (IN $ MILLION)
  • TABLE 87: REST OF WORLD WASTE-TO-ENERGY (WTE) MARKET, BY REGION, FORECAST YEARS, 2019-2028 (IN $ MILLION)

LIST OF FIGURES

  • FIGURE 1: COMPOSITION OF MUNICIPAL SOLID WASTE (MSW)
  • FIGURE 2: BASIC PATHWAYS OF WASTE-TO-ENERGY
  • FIGURE 3: THERMAL WASTE-TO-ENERGY TECHNOLOGY TYPES
  • FIGURE 4: WORLDWIDE RENEWABLE ELECTRICITY INSTALLED CAPACITY, BY SOURCE, 2012-2019 (GW)
  • 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 TONS OF OIL EQUIVALENT)
  • FIGURE 7: WORLDWIDE AVAILABLE MUNICIPAL WASTE FOR WTE, 2009-2016 (MILLION TONS)
  • FIGURE 8: COMPETING RENEWABLE TECHNOLOGIES
  • FIGURE 9: KEY INVESTMENT INSIGHTS
  • FIGURE 10: MARKET INVESTMENT FOR INCINERATION IN ASIA PACIFIC, EUROPE, AND NORTH AMERICA
  • FIGURE 11: PORTER'S FIVE FORCES ANALYSIS
  • FIGURE 12: OPPORTUNITY MATRIX
  • FIGURE 13: VENDOR LANDSCAPE
  • FIGURE 14: VALUE CHAIN ANALYSIS
  • FIGURE 15: KEY BUYING CRITERIA
  • FIGURE 16: SOUTH AUSTRALIA WASTE TO RESOURCES HIERARCHY LEVEL
  • FIGURE 17: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, GROWTH POTENTIAL, BY TECHNOLOGY, IN 2019
  • FIGURE 18: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY THERMAL, 2019-2028 (IN $ MILLION)
  • FIGURE 19: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY BIOLOGICAL, 2019-2028 (IN $ MILLION)
  • FIGURE 20: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY PHYSICAL, 2019-2028 (IN $ MILLION)
  • FIGURE 21: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, GROWTH POTENTIAL, BY APPLICATION, IN 2019
  • FIGURE 22: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY ELECTRICITY, 2019-2028 (IN $ MILLION)
  • FIGURE 23: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY HEAT, 2019-2028 (IN $ MILLION)
  • FIGURE 24: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY COMBINED HEAT & POWER UNITS, 2019-2028 (IN $ MILLION)
  • FIGURE 25: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY TRANSPORT FUELS, 2019-2028 (IN $ MILLION)
  • FIGURE 26: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY OTHER APPLICATIONS, 2019-2028 (IN $ MILLION)
  • FIGURE 27: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, GROWTH POTENTIAL, BY WASTE TYPE, IN 2019
  • FIGURE 28: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY MUNICIPAL WASTE, 2019-2028 (IN $ MILLION)
  • FIGURE 29: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, GROWTH POTENTIAL, BY MSW TYPE, IN 2019
  • FIGURE 30: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY RESIDENTIAL, 2019-2028 (IN $ MILLION)
  • FIGURE 31: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY COMMERCIAL & INSTITUTIONAL, 2019-2028 (IN $ MILLION)
  • FIGURE 32: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY CONSTRUCTION & DEMOLITION, 2019-2028 (IN $ MILLION)
  • FIGURE 33: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY OTHER MUNICIPAL WASTES, 2019-2028 (IN $ MILLION)
  • FIGURE 34: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY PROCESS WASTE, 2019-2028 (IN $ MILLION)
  • FIGURE 35: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY MEDICAL WASTE, 2019-2028 (IN $ MILLION)
  • FIGURE 36: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY AGRICULTURE WASTE, 2019-2028 (IN $ MILLION)
  • FIGURE 37: GLOBAL WASTE-TO-ENERGY (WTE) MARKET, BY OTHER WASTES, 2019-2028 (IN $ MILLION)
  • FIGURE 38: NORTH AMERICA WASTE-TO-ENERGY (WTE) MARKET, REGIONAL OUTLOOK, 2019 & 2028 (IN %)
  • FIGURE 39: UNITED STATES WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 40: CANADA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 41: EUROPE WASTE-TO-ENERGY (WTE) MARKET, REGIONAL OUTLOOK, 2019 & 2028 (IN %)
  • FIGURE 42: UNITED KINGDOM WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 43: NUMBER OF WASTE-TO-ENERGY FACILITIES IN UNITED KINGDOM, 2014-2016
  • FIGURE 44: GERMANY WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 45: FRANCE WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 46: ITALY WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 47: RUSSIA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 48: BELGIUM WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 49: POLAND WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 50: REST OF EUROPE WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 51: ASIA PACIFIC WASTE-TO-ENERGY (WTE) MARKET, REGIONAL OUTLOOK, 2019 & 2028 (IN %)
  • FIGURE 52: CHINA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 53: JAPAN WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 54: INDIA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 55: SOUTH KOREA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 56: INDONESIA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 57: THAILAND WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 58: VIETNAM WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 59: AUSTRALIA & NEW ZEALAND WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 60: REST OF ASIA PACIFIC WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION
  • FIGURE 61: REST OF WORLD WASTE-TO-ENERGY (WTE) MARKET, REGIONAL OUTLOOK, 2019 & 2028 (IN %)
  • FIGURE 62: LATIN AMERICA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)
  • FIGURE 63: MIDDLE EAST & AFRICA WASTE-TO-ENERGY (WTE) MARKET, 2019-2028 (IN $ MILLION)