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實現Waste-to-Product (廢棄物產品化) 的突破性創新

Breakthrough Innovations Enabling Waste-to-Product

出版商 Frost & Sullivan 商品編碼 921051
出版日期 內容資訊 英文 43 Pages
商品交期: 最快1-2個工作天內
實現Waste-to-Product (廢棄物產品化) 的突破性創新 Breakthrough Innovations Enabling Waste-to-Product
出版日期: 2019年12月30日內容資訊: 英文 43 Pages


本報告研究廢棄物轉換為產品的必要性,分析透過廢棄物產品化 (Waste-to-Product) 的突破性創新緩解既有廢棄物管理相關課題的方法。

第1章 摘要整理

第2章 廢棄物產生與廢棄物產品化轉換概要

  • 廢棄物產生與管理的不平衡加劇,及其對環境的影響
  • 對環境和人類健康產生負面影響的廢棄物主要來源
  • 全球廢棄物組成及廢棄物後續處理模式
  • 以廢棄物轉換限制為目的之目前廢棄物層級
  • 將具成本效益廢棄物轉換為附加價值產品的需求增加
  • 廢棄物轉換潛力:按部門
  • 廢棄物管理的一般ICT解決方案之關鍵技術開發

第3章 創新生態系統

  • 轉換本地可取得的產業廢棄物為建築及建設產業材料
  • 再利用與回收一次性塑膠廢棄物實現循環經濟
  • 從報廢輪胎萃取高品質產品推動永續發展
  • 從農業廢棄物生成新界面活性劑可使用於日常護理與個人護理產品中
  • 使用專有自動化可再生製造製程產生附加價值產品;其他

第4章 Waste-to-Product (廢棄物產品化) 管理成功案例

  • 從農業廢棄物萃取乙醇的基於酵素技術
  • 轉換建築廢棄物的高成本效益機械回收製程
  • 轉換高分子塑膠為高品質燃料的專有化學製程
  • 於紡織工業納入永續製程以回收廢衣料與節水
  • 減少製革廠對環境負面影響的未來技術;其他

第5章 分析與成長機會

  • 按地區的建議
  • 廢棄物回收技術利用對環境的影響
  • 成長機會:全球認可的商業模式
  • 廢棄物管理:要點和建議

第6章 產業聯絡資訊

Product Code: D8F9

Futuristic Innovations Empower Effective Transformation of Waste into Value-added Products

Increase in waste generation and the subsequent irresponsible dumping of waste is identified as the fast-growing problem causing significant damage to environment, aquatic ecosystem, and human health. Industrialization, urbanization and the associated economic growth will face significant challenges if sound waste management practices are not put in place globally. The depleting fossil fuel resources also makes it mandatory for the associated stakeholders to use sustainable waste transformation strategies based on waste recovery & reuse to achieve circular economy and to create new revenue models. It is important to replace the non-biodegradable materials with biodegradable materials that can close the loop and aid in achieving sustainability. Additionally, toxic chemicals and hazardous substances from anthropogenic wastes should also be diverted from the landfills and oceans to reduce the negative impact on environment and human health. Futuristic innovations enabling transformation of waste to useful products will aid in the increased adoption of sustainable raw materials and reduced usage of synthetic materials.

This research study identifies the need for waste to product transformation and how breakthrough innovations in the conversion of waste to product can aid in mitigating challenges with existing waste management methods.

The research service offers insights primarily on the following:

  • Overview of waste generation and its impacts
  • Key innovations and case studies Enabling Waste-to-product
  • Strategic insights and recommendation
  • Growth opportunities

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Research Process and Methodology
  • 1.3. Key Findings

2.0. Overview of Waste Generation and Waste-to-product Transformation

  • 2.1. Mounting Inequities of Waste Generation and Management and its Effect on the Environment
  • 2.2. Main Sources of Waste Material Contributing to Negative Impact on Environment and Human Health
  • 2.3. Global Waste Composition and the Subsequent Modes of Waste Disposal
  • 2.4. Current Global Waste Hierarchy Aimed at Limiting Waste Transformation
  • 2.5. The Rising Need for Cost-effective Waste Transformation into Value-added Products
  • 2.6. Potential Transformation of Waste by Sector
  • 2.7. Key Technological Developments to Conventional ICT Solutions for Waste Management

3.0. Innovative Ecosystems

  • 3.1. Conversion of Locally Available Industrial Waste into Raw Materials for Building and the Construction Industry
  • 3.2. Reuse and Recycling of Single Use Plastic Waste to Achieve Circular Economy
  • 3.3. Extraction of Superior Quality Products from End-of-life Tires to Facilitate Sustainability
  • 3.4. Generation of Novel Bio-surfactants from Agricultural Residues that Can be Used in Daily Care and Personal Care Products
  • 3.5. Proprietary Automated Renewable Manufacturing Processes Used for the Generation of Value-added Products
  • 3.6. Manufacture of Eco-friendly Packaging Products from Plastic Wastes Used in Various Industries
  • 3.7. Proprietary Solvent-based Processes For Extraction of Pure Plastic Composites From Mixed Plastic Waste
  • 3.8. Bio-plastics with Increased Shelf Life Derived from Food Waste and Agricultural Residues
  • 3.9. Temperature Controlled Micro-factories for Transforming End-of-Life Electrical and Electronic Wastes
  • 3.10. Proprietary Mycelium-based Manufacturing Materials Derived from Mushrooms and Hemp-based By-products

4.0. Successful Case Studies for Waste-to-product Management

  • 4.1. Enzyme-based Technologies to Extract Ethanol from Agricultural Residues
  • 4.2. Cost-effective Mechanical Recycling Processes to Convert Construction Wastes
  • 4.3. Proprietary Chemical Processes for the Conversion of Polymeric Plastic into High-quality Fuels
  • 4.4. Incorporation of Sustainable Processes in Textile Industries to Recover Waste Cloth Leftovers and to Save Water Consumption
  • 4.5. Futuristic Technologies to Reduce the Negative Impact of Tanneries on the Environment
  • 4.6. Integrated Municipal Solid Waste and Food Waste Recycling Solutions for Generating Fertile Soil Amendments

5.0. Analysis and Growth Opportunities

  • 5.1. Region-wise Recommendations Based on the Current Innovations Projected for the Future
  • 5.2. Impact of Utilizing Waste Recycling Technologies on the Environment
  • 5.3. Growth Opportunity: Business Models - Recognized Globally
  • 5.4. Waste Management - Key Takeaways and Recommendations

6.0. Key Contacts

  • 6.1. Industry Contacts
  • Legal Disclaimer