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垃圾焚燒技術的進步

Advancements in Waste Incineration Technology

出版商 Frost & Sullivan 商品編碼 987568
出版日期 內容資訊 英文 52 Pages
商品交期: 最快1-2個工作天內
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垃圾焚燒技術的進步 Advancements in Waste Incineration Technology
出版日期: 2020年12月24日內容資訊: 英文 52 Pages
簡介

由於日益嚴格的排放法規和日益提高的環保意識,符合低碳協議的清潔能源解決方案正變得越來越普遍。另一方面,世界範圍內的城市化和工業化正在發展,這導致商品和材料的消耗增加,這帶來了廢物管理的問題。

本報告調查和分析垃圾焚燒技術,重點關注新興的創新和最新發展以及每種技術的就緒程度,並討論行業領導者,技術面臨的主要挑戰以及增長機會,並提供系統的信息。

目錄

第1章戰略要點

第2章廢物焚化-生長環境概述

  • 技術定義和適應
  • 廢物管理和能源產生的好處,有助於採用廢物焚化廠
  • 垃圾焚燒與傳統垃圾管理解決方案的比較分析
  • 有毒氣體排放造成的空氣污染-控制廢物焚燒技術的主要因素
  • 工廠規模和部署位置是W2E工廠安裝成本的最大貢獻
  • 能夠採用垃圾焚燒技術的研發活動
  • 影響廢物焚燒行業的有影響力的人

第3章廢物焚化技術的發展

  • 可將二噁英和夫喃化學轉化的催化濾袋
  • 催化焚燒廢物中二噁英和NOx的去除
  • 同時去除NOx和PCDD/PCDF
  • 去除PCDD/PCDF的空氣污染控制系統
  • 中小型企業的廢物管理解決方案
  • 用於處理有毒廢物的多室熱解廢物焚燒爐
  • 保持操作效率的高溫攝像機

第4章技術和IP狀況

  • 中國領導垃圾焚燒技術的研發活動

第5章增長機會和考慮

  • 清潔的基於W2E排放催化劑的終端設備
  • 帶傳感器裝置的模塊化焚化爐設計
  • 行業公司與研究機構之間的合作
  • 垃圾焚燒技術成功與發展的戰略要點

第6章主要聯繫人

下一步

目錄
Product Code: D9E3

Emission regulation and environmental awareness driving R&D activities in waste incineration technologies for improved operational efficiency and lesser environmental impact

Increasingly stringent emission regulations and growing environmental awareness has been driving widespread adoption of clean energy solutions adhering to low carbon protocols. On the other side, growing urbanization and industrialization across the globe, which has led towards growth in consumption of goods, and materials, has resulted in a waste management challenge. Waste incineration technologies have the potential of addressing both the above-mentioned challenges: waste reduction and low carbon energy generation (heat generated via the process of waste incineration can be utilized for low carbon electricity generation). In recent years, research and development activities in waste incineration systems are on the rise, mainly focused on improving operational efficiency and decreasing the negative environmental impact.

Researchers across the globe are working towards technological advancements focussed on improving the emission treatment systems of waste incinerators , modular and cost-effective and energy-efficient designs. Advanced sensory devices like thermographs for real-time operational monitoring (enabling quick adjustments in operational parameters) and catalyst-based tail-end equipment for removing harmful emissions are amongst the key innovations leading the technological advancements in waste incineration technologies.

This research, 'Advancements in Waste Incineration Technology' focuses on emerging innovations and the latest developments in waste incineration technologies and related waste-to-energy technologies, along with their respective technology readiness levels. In addition to the above, movers and shakers in the industry, major challenges faced by the technology, and growth opportunities for industry participants is provided.

Table of Contents

1.0 Strategic Imperatives

  • 1.1 Why Is It Increasingly Difficult to Grow?
  • 1.2 The Strategic Imperative 8™
  • 1.3 The Impact of the Top Two Strategic Imperatives on the Waste Incineration Industry
  • 1.4 Growth Opportunities Fuel the Growth Pipeline Engine™
  • 1.5 Research Process & Methodology
  • 1.5 Research Process and Methodology (Continued)
  • 1.6 Research Scope - Foreseeing Challenges and Solutions

2.0 Waste Incineration - Growth Environment Overview

  • 2.1 Technology Definition and Indications
  • 2.2 Dual Edged Benefit of Waste Management and Energy Generation Driving Adoption of Waste Incineration Plants
  • 2.3 Comparative Analysis of Waste Incineration to Conventional Waste Management Solutions
  • 2.4 Air Pollution Due To Toxic Emissions - The Key Factors Restraining Waste Incineration Technology
  • 2.5 Plant Size and Location of Deployment Contribute the Most Toward Installation Cost of W2E Plants
  • 2.6 R&D Activities Enabling Adoption of Waste Incineration Technology
  • 2.7 Movers & Shakers in the Waste Incineration Industry
  • 2.7 Movers & Shakers in the Waste Incineration Industry

3.0 Advances in Waste Incineration Technology

  • 3.1 Catalytic Filter Bags for Chemically Transforming Dioxins and Furans
  • 3.1 Catalytic Filter Bags for Chemically Transforming Dioxins and Furans (Continued)
  • 3.2 Catalytic Removal of Dioxins and NOx from Waste Incineration Emissions
  • 3.2 Catalytic Removal of Dioxins and NOx from Waste Incineration Emissions (Continued)
  • 3.3 Simultaneous Removal of NOx and PCDDs/PCDFs
  • 3.3 Simultaneous Removal of NOx and PCDDs/PCDFs (Continued)
  • 3.4 Air Pollution Control System Utilizing High temperature and Consequent Processing for Removal of PCDDs/PCDFs
  • 3.4 Air Pollution Control System Utilizing High temperature and Consequent Processing for Removal of PCDDs/PCDFs (Continued)
  • 3.5 Customized Waste Management Solution for Small- To Medium-sized Operations
  • 3.5 Customized Waste Management Solution for Small- To Medium-sized Operations (Continued)
  • 3.6 Multi-chamber Pyrolytic Waste Incinerator for Treating Toxic Waste
  • 3.6 Multi-chamber Pyrolytic Waste Incinerator for Treating Toxic Waste (Continued)
  • 3.7 High Temperature Cameras for Maintaining Operational Efficiency
  • 3.7 High Temperature Cameras for Maintaining Operational Efficiency (Continued)

4.0 Technology and IP - Landscape

  • 4.1 China Leads R&D Activity in Waste Incineration Technologies

5.0 Growth Opportunities and Insights

  • 5.1 Catalyst-based Tail-end Equipment for Cleaner W2E Emissions
  • 5.2 Modular Incinerator Design Equipped with Sensory Devices Enable Cost-effective and Efficient W2E Operations
  • 5.3 Collaborations Among Industry Participants and Research Organizations Are Expected To Pave the Way for Advancements In W2E
  • 5.4 Strategic Imperatives for Success and Growth of Waste Incineration Technologies

6.0 Key Contacts

  • 6.1 Key Contacts
  • 6.1 Key Contacts (Continued)
  • 6.1 Key Contacts (Continued)

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