垃圾發電 (WtE) 市場規模、佔有率和成長分析：按技術、廢棄物類型和地區分類 - 產業預測，2024-2031 年

2022年，全球垃圾發電（WtE）市場規模將為355.1億美元，預測期內（2024-2031年）複合年成長率為7.5%，從2023年到2031年的414億美元。美國2020 年為 738.3 億美元。

全球垃圾發電 (WtE) 市場正在解決兩個緊迫的挑戰：廢棄物管理和能源生產。隨著人口和工業活動的增加，廢棄物產生量也增加，導致垃圾掩埋場溢出。垃圾發電 (WtE) 技術減少了廢棄物掩埋，並透過將廢棄物轉化為電力和熱能等可用能源，提供了永續的解決方案。然而，這種方法面臨一些挑戰。垃圾發電 (WtE) 工廠的效率取決於廢棄物的成分。廢棄物的有效分離和分類對於最大限度地能源回收至關重要。此外，垃圾發電（WtE）是傳統廢棄物管理方法的一種有前景的替代方案，但實施不當可能會導致環境和健康風險。因此，需要嚴格的監管和持續的監控，以確保這些設施符合環境標準並安全運作。儘管有這些挑戰，垃圾發電 (WtE) 仍然是一種寶貴的再生能源來源，有助於減少對石化燃料的依賴並減少溫室氣體排放。透過深思熟慮的規劃和負責任的管理，改善廢棄物處理實踐和促進環境永續性有巨大的機會。

目錄

介紹

• 研究目的
• 定義
• 市場範圍

調查方法

• 資訊採購
• 次要/一級資訊來源
• 市場規模預測
• 市場假設與限制

執行摘要

• 市場概況展望
• 供需趨勢分析
• 按細分市場的機會分析

市場動態及展望

• 市場動態
  • 促進因素
  • 機會
  • 抑制因素
  • 任務
• 波特的分析

主要市場考察

• 市場成功的關鍵因素
• 競爭程度
• 關鍵投資機會
• 市場魅力指數
• 生態系繪圖
• 技術分析
• 價格分析
• 供應鏈分析
• 價值鏈分析
• 智慧財產權分析
• 貿易分析
• Start-Ups分析
• 原料分析
• 創新矩陣
• 研發線產品分析
• 總體經濟指標
• 主要投資分析

垃圾發電 (WtE) 市場：依技術分類

• 市場概況
• 實體技術
• 熱技術
  • 焚燒/燃燒
  • 熱解和熱氣化
  • 等離子弧氣化
• 生物工程
  • 甲烷回收/垃圾掩埋沼氣
  • 沼氣廠/厭氧消化
  • 發酵

垃圾發電（WtE）市場：以廢棄物類型分類

• 市場概況
• 都市固態廢棄物（MSW）
• 工業廢棄物
• 農業廢棄物
• 其他

垃圾發電 (WtE) 市場規模：按地區分類

• 市場概況
• 北美洲
  • 美國
  • 加拿大
  • 墨西哥
• 歐洲
  • 德國
  • 英國
  • 法國
  • 義大利
  • 西班牙
  • 其他歐洲國家地區
• 亞太地區
  • 中國
  • 印度
  • 日本
  • 韓國
  • 其他亞太地區
• 拉丁美洲
  • 巴西
  • 其他拉丁美洲地區
• 中東和非洲 (MEA)
  • 海灣合作理事會國家
  • 南非
  • 其他中東/非洲地區

競爭格局

• 前5名企業對比
• 主要企業市場定位（2023年）
• 主要市場參與者所採取的策略
• 近期市集活動
• 主要企業市場佔有率（2023年）

主要企業簡介

• Babcock Wilcox Volund A/S（Denmark）
• BTA International GMBH（France）
• Constructions Industrielles de la Mediterranee（CNIM）（France）
• Covanta Energy Corporation（US）
• ENER-G PLC（US）
• Flexenergy LLC（US）
• Remondis SE & Co. KG（Germany）
• Waste Management, Inc.（US）
• TOMRA Systems ASA（Norway）
• Hitachi Zosen Corporation（Japan）
• Hitachi Zosen Inova（Switzerland）
• Keppel Seghers（Singapore）
• E.ON SE（Germany）
• A2A SpA（Italy）
• RWE AG（Germany）
• AEB Amsterdam（Netherlands）
• Fortum Corporation（Finland）
• Ebara Corporation（Japan）
• HZI（Hitachi Zosen Inova）（Switzerland）
• KBR, Inc.（US）
• Nippon Steel Engineering Co., Ltd.（Japan）
• Babcock & Wilcox Enterprises, Inc.（US）

Global Waste to energy Market size was valued at USD 35.51 Billion in 2022 and is poised to grow from USD 41.40 Billion in 2023 to USD 73.83 Billion by 2031, at a CAGR of 7.5% during the forecast period (2024-2031).

The global waste-to-energy market addresses two pressing concerns: waste management and energy production. As both population and industrial activity increase, so does the volume of waste generated, leading to overflowing landfills. Waste-to-energy technology offers a sustainable solution by converting waste into usable forms of energy, such as electricity or heat, thereby reducing landfill waste. However, this approach faces several challenges. The efficiency of waste-to-energy plants depends on the composition of the waste, as different materials can affect the conversion process. Effective sorting and segregation of waste are essential for maximizing energy recovery. Moreover, while waste-to-energy presents a promising alternative to traditional waste management methods, improper implementation can lead to environmental and health risks. Therefore, stringent regulations and continuous monitoring are necessary to ensure that these facilities adhere to environmental standards and operate safely. Despite these challenges, waste-to-energy remains a valuable renewable energy source, helping to decrease reliance on fossil fuels and lower greenhouse gas emissions. With thoughtful planning and responsible management, it represents a significant opportunity for both improving waste disposal practices and advancing environmental sustainability.

Top-down and bottom-up approaches were used to estimate and validate the size of the Global Waste to Energy market and to estimate the size of various other dependent submarkets. The research methodology used to estimate the market size includes the following details: The key players in the market were identified through secondary research, and their market shares in the respective regions were determined through primary and secondary research. This entire procedure includes the study of the annual and financial reports of the top market players and extensive interviews for key insights from industry leaders such as CEOs, VPs, directors, and marketing executives. All percentage shares split, and breakdowns were determined using secondary sources and verified through Primary sources. All possible parameters that affect the markets covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analyzed to get the final quantitative and qualitative data.

Global Waste to Energy Market Segmental Analysis

The global waste-to-energy market is segmented into Technology, Waste type, and Region. Based on Technology, the market is bifurcated into Physical Technology, Thermal Technology (Incineration/Combustion, Pyrolysis and Thermal Gasification, Plasma-arc Gasification), and Biological Technology (Methane Capture/Landfill Gas, Biogas Plants/Anaerobic Digestion, Fermentation). In terms of waste type, the market is segmented into Municipal Solid Waste (MSW), Industrial Waste, Agricultural Waste, and Others. Region wise, the market is segmented into North America, Europe, Asia Pacific, Latin America, Middle East and Africa.

Drivers of the Global Waste to Energy Market

Governments and environmental organizations worldwide have established rigorous regulations and targets aimed at decreasing landfill waste and fostering sustainable waste management practices. These policies have driven the adoption of waste-to-energy technologies, positioning them as effective solutions for both managing waste and producing renewable energy. As a result, the push for compliance with these regulations has accelerated the integration of waste-to-energy systems. By converting waste into usable energy, these technologies not only address waste disposal challenges but also contribute to renewable energy goals, aligning with broader environmental objectives.

Restraints in the Global Waste to Energy Market

Building waste-to-energy facilities demands a significant initial investment and ongoing operational expenses. The high capital requirements for these projects can be a major obstacle to market expansion, particularly in developing regions where financial resources are often constrained. This financial burden can impede the growth of the waste-to-energy sector, making it difficult for regions with limited budgets to invest in such technologies. As a result, addressing these economic challenges is crucial for the broader adoption and development of waste-to-energy solutions, especially in less affluent areas.

Market Trends of the Global Waste to Energy Market

The waste-to-energy sector is experiencing ongoing technological innovations aimed at boosting both efficiency and environmental performance. Cutting-edge methods like gasification, pyrolysis, and anaerobic digestion are being refined to enhance the efficiency of waste conversion and minimize emissions. These advancements are crucial for improving the sustainability and effectiveness of waste-to-energy processes.

Table of Contents

Introduction

• Objectives of the Study
• Definitions
• Market Scope

Research Methodology

• Information Procurement
• Secondary & Primary Data Sources
• Market Size Estimation
• Market Assumptions & Limitations

Executive Summary

• Market Overview Outlook
• Supply Demand Trend Analysis
• Segmental Opportunity Analysis

Market Dynamics & Outlook

• Market Dynamics
  • Drivers
  • Opportunities
  • Restraints
  • Challenges
• Porters Analysis
  • Competitive rivalry
  • Threat of Substitute Products
  • Bargaining Power of Buyers
  • Threat of New Entrants
  • Bargaining Power of Suppliers

Key Market Insights

• Key Success Factors of The Market
• Degree Of Competition
• Top Investment Pockets
• Market Attractive Index
• Ecosystem Mapping
• Technology Analysis
• Pricing Analysis
• Supply Chain Analysis
• Value Chain Analysis
• IP Analysis
• Trade Analysis
• Startup Analysis
• Raw Material Analysis
• Innovation Matrix
• Pipeline Product Analysis
• Macroeconomic Indicators
• Top Investment Analysis

Global Waste to energy Market by Technology

• Market Overview
• Physical Technology
• Thermal Technology
  • Incineration/Combustion
  • Pyrolysis and Thermal Gasification
  • Plasma-arc Gasification
• Biological Technology
  • Methane Capture/Landfill Gas
  • Biogas Plants/Anaerobic Digestion
  • Fermentation

Global Waste to energy Market by Waste Type

• Market Overview
• Municipal Solid Waste (MSW)
• Industrial Waste
• Agricultural Waste
• Others

Global Waste to energy Market Size by Region

• Market Overview
• North America
  • USA
  • Canada
  • Mexico
• Europe
  • Germany
  • UK
  • France
  • Italy
  • Spain
  • Rest of Europe
• Asia Pacific
  • China
  • India
  • Japan
  • South Korea
  • Rest of Asia-Pacific
• Latin America
  • Brazil
  • Rest of Latin America
• Middle East & Africa (MEA)
  • GCC Countries
  • South Africa
  • Rest of MEA

Competitive Landscape

• Top 5 Player Comparison
• Market Positioning of Key Players, 2023
• Strategies Adopted by Key Market Players
• Recent Activities in the Market
• Key Companies Market Share (%), 2023

Key Company Profiles

• Babcock Wilcox Volund A/S (Denmark)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• BTA International GMBH (France)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Constructions Industrielles de la Mediterranee (CNIM)(France)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Covanta Energy Corporation (US)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• ENER-G PLC (US)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Flexenergy LLC (US)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Remondis SE & Co. KG (Germany)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Waste Management, Inc. (US)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• TOMRA Systems ASA (Norway)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Hitachi Zosen Corporation (Japan)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Hitachi Zosen Inova (Switzerland)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Keppel Seghers (Singapore)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• E.ON SE (Germany)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• A2A S.p.A. (Italy)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• RWE AG (Germany)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• AEB Amsterdam (Netherlands)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Fortum Corporation (Finland)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Ebara Corporation (Japan)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• HZI (Hitachi Zosen Inova) (Switzerland)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• KBR, Inc. (US)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Nippon Steel Engineering Co., Ltd. (Japan)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments
• Babcock & Wilcox Enterprises, Inc. (US)
  • Company Overview
  • Business Segment Overview
  • Financial Updates
  • Key Developments