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循环经济中塑胶的成长机会
市场调查报告书
商品编码
1351235

循环经济中塑胶的成长机会

Growth Opportunities in a Circular Economy for Plastics
出版日期: | 出版商: Frost & Sullivan | 英文 105 Pages | 商品交期: 最快1-2个工作天内

价格
简介目录

对永续解决方案的需求不断增长,以及对回收率提高的新型塑胶产品的需求加强了成长管道

这项研究透过探索两个关键领域:再生塑胶市场和对塑胶循环方式的定性分析,提供了对塑胶循环经济的全面了解。该研究概述了各行业对再生 PE、PP、PET、PVC、PA、ABS 的需求。加深我们对 Frost & Sullivan 在循环经济框架内的再生塑胶需求和预测的了解。

本研究考察了2019年至2029年各聚合物类型和地区的产量,以2022年为基准年,并根据预期年复合成长率对2023年至2029年的年度期间进行了预测。

目前再生塑胶的市场规模取决于循环经济目标、法律规章和消费者驱动因素、材料促进因素潜力以及政治、社会经济、法规、环境、原材料和技术趋势的变化等要素。被评估。这些要素被归类为成长促进因素和抑制因素,并在预测分析中予以考虑。

研究发现,对优先考虑永续性和高性能的产品的需求不断增长,正在推动再生塑胶的成长。此外,该研究还详细分析了在各种最终用途用途中以再生塑胶替代原生塑胶的潜力。它还评估了预测期内再生塑胶的主要成长机会。

除了定量分析之外,我们还提供对再利用概念、不同类型的可用回收方法以及塑胶替代原料的定性评估。几个案例研究代表了各种再利用、回收和替代原材料的案例。这些案例说明了塑胶循环经济思维的多样性以及製造商为实现循环而采取的不同方法。该分析深入了解塑胶产业循环经济实践的可行性和潜在影响。

主要特点

再生塑胶市场分析的目的

  • 评估再生塑胶目前的市场规模和成长潜力。
  • 确定主要市场参与者、相关人员及其在促进塑胶回收方面的作用。
  • 分析再生塑胶需求的地区差异
  • 评估市场障碍,包括影响再生塑胶采用的经济、法规和技术要素。
  • 分析消费者对再生塑胶产品的认知和偏好。

提高塑胶循环度的定性分析目的

  • 我们将研究和分析旨在提高塑胶循环性的各种方法和技术,例如机械回收、化学回收和替代原材料。
  • 评估不同塑胶循环增强方法的环境、经济和社会影响。
  • 确定技术进步、最佳实践和创新方法,使塑胶更加循环。
  • 分析跨产业和地区成功循环倡议的案例研究和范例。

市场区隔:依聚合物类型:再生 PE、再生 PP、再生 PET、再生 PVC、再生 PA、再生 ABS

区域部分

  • 美洲:美国、加拿大、拉丁美洲(包括墨西哥)
  • 欧洲西欧(27个欧盟国家、美国、挪威、瑞士)、东欧、独立国协(CIS)
  • 中东、非洲和南亚(MEASA):中东沙乌地阿拉伯、阿联酋(UAE)、科威特、巴林、阿曼、卡达等南亚国家、非洲国家、印度、巴基斯坦、斯里兰卡、孟加拉。
  • 亚太地区:中国、东南亚、澳洲、纽西兰、日本、韩国

目录

战略问题

  • 为什么成长如此困难?
  • The Strategic Imperative 8(TM)
  • 塑胶循环经济三大战略挑战的影响
  • 成长机会推动Growth Pipeline Engine(TM)

成长机会分析

  • 分析范围
  • 地理范围
  • 分割
  • 价值链分析
  • 考察价值链分析
  • 经济衰退对塑胶回收的负面影响

成长机会分析:塑胶循环经济的定量分析

  • 成长指标
  • 成长促进因素
  • 成长抑制因素
  • 预测假设
  • 收益和销售预测
  • 数量预测维护场景与霜冻场景
  • 收益和销售预测分析
  • 平均价格预测
  • 平均价格预测分析
  • 塑胶数量预测
  • 塑胶製品的收益和销售预测
  • 塑胶製品的收益和数量预测分析
  • 透过回收技术进行数量预测
  • 区域成交量预测
  • 区域成交量预测分析

成长机会分析:塑胶循环经济

  • 塑胶循环经济—促进因素
  • 预览塑胶循环经济:主要挑战
  • 业务营运挑战
  • 法规挑战
  • 竞争挑战

成长机会分析:循环经济中的塑胶再利用

  • 重复使用
  • 透过回收包装再利用
  • 电子产品再利用及维修权
  • 汽车零件再利用和维修权
  • 加速市场引进再利用模型的策略

成长机会分析:塑胶循环经济的回收

  • 机械回收
  • 机械回收策略
  • 机械回收塑胶包装产品转化
  • 机械回收 建筑塑胶製品回收
  • 机械回收 电子产品回收
  • 化学回收
  • 化学回收溶解解聚
  • 熔化使用案例:英力士苯领
  • 熔化使用案例Agilex
  • 熔化使用案例:AgilyxAPK AG
  • 熔化使用案例:APK AG PureCycle Technologies
  • 熔化使用案例:Brightmark Energy
  • 熔化使用案例:TotalEnergies Corbion
  • 解聚(化学)使用案例:BASF
  • 解聚(化学)使用案例:BASF三菱化学
  • 解聚(化学)使用案例:TechnipFMC
  • 解聚(热解)使用案例:LyondellBasell
  • 解聚(热解)使用案例:Energent Technology, Inc.
  • 加速回收市场引进的策略

成长机会分析:塑胶循环经济的替代原料

  • 替代原料
  • 替代原料生物塑料
  • 替代原料 第一代原料 - 嘉吉
  • 替代原料 第一代原料 - Braskem
  • 替代原料:第一代-火箭
  • 替代原料第二代原料-绿点生物塑料
  • 第二替代代原料 - BioLogiQ
  • 第二替代原料 - FKuR Kunststoff GmbH
  • 第三替代原料:Newlight Technologies
  • 替代原料:第三代 - Algix
  • 第三替代原料-全循环生物塑料
  • 替代原料二氧化碳 - 科思创聚氨酯
  • 替代原料二氧化碳 - Braskem 聚烯烃
  • 加速采用替代原料的策略

成长机会宇宙

  • 成长机会一:加强全价值链合作,加速循环产品开发
  • 成长机会 2:透过整合机械和化学回收来提高回收率
  • 成长机会3:加强回收价值链收集、清洁、分类与运输物流
  • 成长机会4:废生物质与废弃塑胶共热解
  • 成长机会 5:利用工业区的二氧化碳在当地製造工厂生产塑料

下一步

  • 下一步
  • 为什么现在要霜冻?
  • 附件清单
  • 免责声明
简介目录
Product Code: PEBC-86

Increased Demand for Sustainable Solutions and Need to Make New Plastic Products with More Recycled Content Will Enhance the Growth Pipeline

This study will provide a comprehensive understanding of the circular economy for plastics by exploring two key areas: the market for recycled plastics and a qualitative analysis of methods to enhance plastics circularity. The research includes an overview of the demand for recycled PE, PP, PET, PVC, PA, and ABS in various industries. It expands on Frost & Sullivan's understanding of the demand for recycled plastics and their prospects in a circular economy framework.

The study discusses volume for each polymer type and each region from 2019 to 2029 and provides a seven-year forecast based on expected compound annual growth rates, with the base year of 2022 and a forecast period from 2023 to 2029.

The current size of the recycled plastics market is assessed based on factors such as circularity goals; legislative and consumer drivers; potential for material substitution; and shifting political, socioeconomic, regulatory, environmental, raw material, and technology trends. These factors, classified as growth drivers and restraints, are considered in the forecast analysis.

The study analyzes the increasing demand for products that prioritize sustainability and high performance, driving the growth of recycled plastics. Moreover, the study offers an in-depth analysis of the potential for substituting virgin plastics with recycled counterparts in various end-use applications. It also assesses the top growth opportunities for recycled plastics during the forecast period.

In addition to quantitative analysis, a qualitative assessment has been conducted on the concepts of reuse, different types of recycling methods available, and alternate feedstocks for plastics. Several case studies are mentioned and represent various reuse, recycling, and alternate feedstock cases. These cases provide an understanding of the diversity of thought in the circular economy for plastics and the various approaches manufacturers are taking to achieve circularity. This analysis provides insights into the feasibility and potential impact of implementing circular economy practices in the plastic industry.

Key Features

Objectives of Market Analysis for Recycled Plastics:

  • Evaluate the current market size and growth potential for recycled plastics.
  • Identify key market players, stakeholders, and their roles in driving plastic recycling initiatives.
  • Analyze region-specific variations in the demand for recycled plastics.
  • Assess market barriers, including economic, regulatory, and technological factors impacting the adoption of recycled plastics.
  • Examine consumer attitudes and preferences toward recycled plastic products.

Objectives of Qualitative Analysis of Plastic Circularity Improvement:

  • Review and analyze various methods and technologies aimed at improving the circularity of plastics, including mechanical recycling, chemical recycling, and alternative feedstocks.
  • Assess the environmental, economic, and social implications of different plastic circularity improvement methods.
  • Identify technological advancements, best practices, and innovative approaches that enhance plastic circularity.
  • Analyze case studies and real-world examples of successful circularity initiatives in different industries and regions.

Market Segmentation by Polymer Type: recycled PE, recycled PP, recycled PET, recycled PVC, recycled PA, recycled ABS.

Regional Segmentation:

  • Americas: United States, Canada, Latin America (including Mexico)
  • Europe: Western Europe (27 EU countries, the United Kingdom, Norway, and Switzerland), Eastern Europe, and the Commonwealth of Independent States (CIS)
  • Middle East, Africa, and South Asia (MEASA): Saudi Arabia, the United Arab Emirates (UAE), Kuwait, Bahrain, Oman, and Qatar in the Middle East; African countries; and South Asian countries, such as India, Pakistan, Sri Lanka, and Bangladesh
  • Asia-Pacific: China, Southeast Asia, Australia, New Zealand, Japan, and South Korea

Table of Contents

Strategic Imperatives

  • Why is it Increasingly Difficult to Grow?
  • The Strategic Imperative 8™
  • The Impact of the Top 3 Strategic Imperatives on the Circular Economy for Plastics
  • Growth Opportunities Fuel the Growth Pipeline Engine™

Growth Opportunity Analysis

  • Scope of Analysis
  • Geographic Scope
  • Segmentation
  • Value Chain Analysis
  • Value Chain Analysis Discussion
  • Negative Impact of Recession on the Adoption of Plastic Recycling

Growth Opportunity Analysis: Quantitative Analysis of the Circular Economy for Plastics

  • Growth Metrics
  • Growth Drivers
  • Growth Restraints
  • Forecast Assumptions
  • Revenue and Volume Forecast
  • Volume Forecast Conservative Scenario vs. Frost Scenario
  • Revenue and Volume Forecast Analysis
  • Average Price Forecast
  • Average Price Forecast Analysis
  • Volume Forecast by Plastic
  • Revenue Forecast by Plastic
  • Revenue and Volume Forecast Analysis by Plastic
  • Volume Forecast by Recycling Technique
  • Volume Forecast by Region
  • Volume Forecast Analysis by Region

Growth Opportunity Analysis: Circular Economy in Plastics

  • Circular Economy in Plastics-Driving Factors
  • Preview: Circular Economy in Plastics-Key Challenges
  • Operational Challenges
  • Regulatory Challenges
  • Competitive Challenges

Growth Opportunity Analysis: Reuse for the Circular Economy in Plastics

  • Reuse
  • Reuse by Reconditioning-Packaging
  • Reuse and the Right to Repair Electronics
  • Reuse and the Right to Repair Automotive Parts
  • Strategies to Accelerate Market Adoption of Reuse Models

Growth Opportunity Analysis: Recycling for the Circular Economy in Plastics

  • Mechanical Recycling
  • Mechanical Recycling Strategies
  • Mechanical Recycling: Conversion of Plastic Packaging Products
  • Mechanical Recycling: Conversion of Construction Plastic Products
  • Mechanical Recycling: Conversion of Electronic Products
  • Chemical Recycling
  • Chemical Recycling: Dissolution and Depolymerization
  • Dissolution Use Case: INEOS Styrolution
  • Dissolution Use Case: Agilyx
  • Dissolution Use Case: APK AG
  • Dissolution Use Case: PureCycle Technologies
  • Dissolution Use Case: Brightmark Energy
  • Dissolution Use Case: TotalEnergies Corbion
  • Depolymerization (Chemical) Use Case: BASF
  • Depolymerization (Chemical) Use Case: Mitsubishi Chemical
  • Depolymerization (Chemical) Use Case: TechnipFMC
  • Depolymerization (Pyrolysis) Use Case: LyondellBasell
  • Depolymerization (Pyrolysis) Use Case: Energent Technology
  • Strategies to Accelerate Market Adoption of Recycling

Growth Opportunity Analysis: Alternative Feedstock for a Circular Economy in Plastics

  • Alternative Feedstock
  • Alternate Feedstock: Bioplastics
  • Alternate Feedstock: First-generation Feedstock-Cargill
  • Alternate Feedstock: First-generation Feedstock-Braskem
  • Alternate Feedstock: First Generation-Roquette
  • Alternate Feedstock: Second Generation-Green Dot Bioplastics
  • Alternate Feedstock: Second Generation-BioLogiQ
  • Alternate Feedstock: Second Generation-FKuR Kunststoff GmbH
  • Alternate Feedstock: Third Generation-Newlight Technologies
  • Alternate Feedstock: Third Generation-Algix
  • Alternate Feedstock: Third Generation-Full Cycle Bioplastics
  • Alternate Feedstock: Carbon Dioxide-Covestro Polyurethanes
  • Alternate Feedstock: Carbon Dioxide-Braskem Polyolefins
  • Strategies to Accelerate Adoption of Alternate Feedstock

Growth Opportunity Universe

  • Growth Opportunity 1: Greater Collaboration Across the Value Chain to Accelerate Circular Product Development
  • Growth Opportunity 2: Integrate Mechanical and Chemical Recycling Approaches to Improve Recycling Rates
  • Growth Opportunity 3: Strengthen Collection, Cleaning, Sorting, and Transportation Logistics of Recycling Value Chain
  • Growth Opportunity 4: Co-pyrolysis of Waste Biomass and Waste Plastic
  • Growth Opportunity 5: Carbon Dioxide Valorization from Industrial Zones to Produce Plastics in Local Manufacturing Facilities

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