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实现Waste-to-Product (废弃物产品化) 的突破性创新

Breakthrough Innovations Enabling Waste-to-Product

出版商 Frost & Sullivan 商品编码 921051
出版日期 内容资讯 英文 43 Pages
商品交期: 最快1-2个工作天内
实现Waste-to-Product (废弃物产品化) 的突破性创新 Breakthrough Innovations Enabling Waste-to-Product
出版日期: 2019年12月30日内容资讯: 英文 43 Pages


本报告研究废弃物转换为产品的必要性,分析透过废弃物产品化 (Waste-to-Product) 的突破性创新缓解既有废弃物管理相关课题的方法。

第1章 摘要整理

第2章 废弃物产生与废弃物产品化转换概要

  • 废弃物产生与管理的不平衡加剧,及其对环境的影响
  • 对环境和人类健康产生负面影响的废弃物主要来源
  • 全球废弃物组成及废弃物后续处理模式
  • 以废弃物转换限制为目的之目前废弃物层级
  • 将具成本效益废弃物转换为附加价值产品的需求增加
  • 废弃物转换潜力:按部门
  • 废弃物管理的一般ICT解决方案之关键技术开发

第3章 创新生态系统

  • 转换本地可取得的产业废弃物为建筑及建设产业材料
  • 再利用与回收一次性塑胶废弃物实现循环经济
  • 从报废轮胎萃取高品质产品推动永续发展
  • 从农业废弃物生成新界面活性剂可使用于日常护理与个人护理产品中
  • 使用专有自动化可再生制造制程产生附加价值产品;其他

第4章 Waste-to-Product (废弃物产品化) 管理成功案例

  • 从农业废弃物萃取乙醇的基于酵素技术
  • 转换建筑废弃物的高成本效益机械回收制程
  • 转换高分子塑胶为高品质燃料的专有化学制程
  • 于纺织工业纳入永续制程以回收废衣料与节水
  • 减少制革厂对环境负面影响的未来技术;其他

第5章 分析与成长机会

  • 按地区的建议
  • 废弃物回收技术利用对环境的影响
  • 成长机会:全球认可的商业模式
  • 废弃物管理:要点和建议

第6章 产业联络资讯

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