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市場調查報告書

永續包裝的顛覆性技術的十年預測:2026年

Ten-Year Forecast of Disruptive Technologies in Sustainable Packaging to 2026

出版商 Smithers Pira 商品編碼 356501
出版日期 內容資訊 英文
商品交期: 最快1-2個工作天內
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永續包裝的顛覆性技術的十年預測:2026年 Ten-Year Forecast of Disruptive Technologies in Sustainable Packaging to 2026
出版日期: 2016年06月01日 內容資訊: 英文
簡介

本報告提供全球永續包裝市場,材料,及技術的現狀,進步,及未來趨勢討論,全球市場的未來分析,以及促進包裝設計、採購、利用及廢棄的永續發展的主要25件顛覆性技術的排行榜,市場背景,技術開發,法律規章倡議及各技術趨勢的市場的途徑等相關資料,詳細分析。

關於

第1章 簡介、調查手法

第2章 推動市場的要素、趨勢

  • 品牌/轉換器的企業責任倡議
  • 消費者需求
  • 法規壓力
  • 替代技術的資金流程
  • 原料成本
  • 回收基礎設施
  • 完全循環型的影響的評估

第3章 永續包裝的顛覆性技術

  • 市場發展預測
  • 永續包裝的前25大顛覆性技術
  • 聚合物的阻障結構
    • 簡介
    • 目前市場情況
    • 未來發展
  • 塑膠材料性能的改善
  • 消費者取向食品包裝的設計
  • 單一材料的塑膠結構
  • 用了回收成分的塑膠
  • 輕量格式的轉變
  • 網路購物
  • 投入容易開封,附夾頭及拉鏈的包裝
  • 從硬質轉移到軟塑料
  • 活性包裝
  • 容易再利用的塑膠
  • 袋包裝
  • 回收用多層薄膜的最佳化
  • 生物材料塑膠
  • 容易再利用的食品服務包裝
  • 現有設計的輕量化
  • 可分離的多層塑膠/層壓板
  • 循環的經濟
  • 奈米技術
  • 硬質及彈性聚合物的轉換效率
  • 政府法規的改善
  • 供應鏈協調
  • 可生物分解聚合物
  • 智慧型包裝

第4章 永續包裝技術市場

  • 包裝市場演進
  • 封裝技術的演進預測
  • 實行時間表

圖表一覽

目錄

Ten-Year Forecast of Disruptive Technologies in Sustainable Packaging to 2026 discusses the present status, advances and future trends in sustainable packaging markets, materials and technology.

Sustainable packaging is defined in this report as forms of packaging where a conscious, significant effort has been made to reduce its impact on the environment. This includes the impact of the packaging itself, its materials and design, whether it is reusable or not, and its end-of-life disposal processes. It also includes the efficacy of the packaging in increasing shelf-life and reducing spoilage and waste of the packaged product, particularly for food, beverages and pharmaceutical products, or its ability to mitigate damage to goods and supply chain wastage. Ten-Year Forecast of Disruptive Technologies in Sustainable Packaging to 2026 discusses the present status, advances and future trends in sustainable packaging markets, materials and technology. It will also consider areas such as consumer preferences, NGO and environmental group pressures, and the influence of government regulations.

Description

Our exclusive content:

  • Analysis of the future of global sustainable packaging markets, based on extensive primary research
  • Authoritative rankings of the top 25 disruptive technologies driving the evolution of sustainability in packaging design, sourcing, use and disposal
  • In-depth analysis of the market context, technology development, legislative and regulatory initiatives and route to market for each technology trend.

What methodology is used?

A Delphi-type study was used for this report comprising three rounds of survey, assessment and feedback. This was initiated with an extensive literature and patent research, data collection and discussions with 36 industry experts from key stakeholder groups, including materials, packaging and packaged product manufacturers, converters, FMCG producers, retailers, designers, government and industry bodies, recyclers, waste management companies, NGOs, universities and other research organizations and consultants. This was combined to create a pool of expert knowledge covering all relevant areas of the packaging industry. Ten-Year Forecast of Disruptive Technologies in Sustainable Packaging to 2026 drew on this expertise to identify and rank the top 25 technologies in sustainable packaging and factors accelerating or inhibiting their implementation.

What will you discover?

  • Qualitative analysis of disruptive technology impacts affecting all members of the packaging value chain, scope for synergies, and unmet needs for the sustainable agenda from 2016-2026
  • A better understanding of the market supply chain and the future plans, needs and expectations of your potential customers
  • Sustainable packaging technology evolution with implementation forecasts to 2026, keeping you up to date on complex developments

Who should buy this report?

  • Packaging converters
  • Equipment/Machinery suppliers
  • Raw material suppliers
  • Packaging end users
  • Industry consultants and analysts

Table of Contents

1. Introduction and methodology

  • Report objectives
  • Report scope
  • Methodology
  • Definitions and abbreviations

2. Market drivers and trends

  • Brand/converter corporate responsibility initiatives
  • Consumer demand
  • Regulatory pressures
  • Funding streams for alternative technologies
  • Raw materials costs
  • Recycling infrastructure
  • Cradle-to-cradle impact assessments

3. Disruptive technologies in sustainable packaging

  • Market development forecasts, 2016-26
  • Top 25 disruptive technologies for sustainable packaging
  • Polymer barrier structures
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Improved plastic material performance
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Food packaging design for the consumer
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Mono-material plastic structures
    • Introduction
    • State of the market 2016
    • Cost
    • Recyclability
    • Future developments to 2026
  • Plastics with recycled content
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Transitioning to lighterweight formats
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Internet shopping
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Easy-opening, reclosable and resealable packaging Introduction
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Transitioning from rigid to flexible plastics
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Active packaging
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Easy-to-recycle plastics
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Pouch packaging
    • Introduction
    • Route to market
    • Competitive landscape
  • Optimising multi-layer films for recycling
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Bio-based plastics
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Easy-to recycle food service packaging
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Lightweighting of existing designs
    • Introduction
    • State of the market 2016
    • Plastics
    • Paper
    • Metal
    • Glass
    • Future developments to 2026
  • Separatability of multi-layer plastics/laminates
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • The circular economy
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Nanotechnology
    • Introduction
    • State of the market 2016
      • Nano-coatings
      • Nano-fillers
    • Future developments to 2026
      • Nano-fillers
      • Nano-fillers
  • Conversion efficiencies for rigid and flexible polymers
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Improved government regulations
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Supply chain coordination
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Biodegradeable polymers
    • Introduction
    • State of the market 2016
    • Future developments to 2026
  • Intelligent packaging
    • Introduction
    • State of the market 2016
    • Future developments to 2026

4. The sustainable packaging technology market to 2026

  • Packaging market evolution 2016-2026
  • Packaging technology evolution forecast 2016-2026
  • Implementation timetables

List of Tables and Figures:

  • Sustainable technologies candidate list
  • The top 25 disruptive technologies (by impact and likelihood of implementation)
  • Global market for packaging 2016-2026
  • Global market for flexible packaging by polymer type 2016
  • Global market for rigid packaging by polymer type 2016
  • Timeline for market penetration of disruptive sustainable technologies 2016-2026
  • Projected CO2 savings from introduction of Coca-Cola PlantBottle
  • EU packaging material recovery targets 2016-2026
  • Average cost of bioplastic resins 2014-2021
  • Comparison of different environmental lifecycle assessment methodologies
  • Summary of market drivers for sustainable packaging
  • Technology scorecard - Polymer barrier structures
  • Barrier polymer comparison (Performance and cost)
  • Technology scorecard - Improved plastic material performance
  • Technology scorecard - Food packaging design for the consumer
  • Technology scorecard - Mono-material plastic structures
  • Technology scorecard - Plastics with recycled content
  • Technology scorecard - Transitioning to lightweight formats
  • Technology scorecard - Internet shopping
  • Technology scorecard - Easy-opening, reclosable and resealable packaging
  • Technology scorecard - Transitioning from rigid to flexible plastics
  • Technology scorecard - Active packaging
  • World market for active packaging 2016-2021 (value)
  • Technology scorecard - Easy-to-recycle plastics
  • Technology scorecard - Pouch packaging
  • Technology scorecard - Improved multi-layer films for recycling
  • Technology scorecard - Bio-based plastics
  • Technology scorecard - Easy-to-recycle food service packaging
  • Technology scorecard - Lightweighting of existing designs
  • Technology scorecard - Separatable multi-layer plastics/laminates
  • Technology scorecard - The circular economy
  • The circular economy (schematic)
  • Technology scorecard - Nanotechnology
  • Examples of nanocoating barrier technology
  • Technology scorecard - Conversion efficiencies for rigid and flexible polymers
  • Technology scorecard - Improved government regulations
  • Timeline for implementation of new government green packaging initiatives (EU)
  • Timeline for implementation of new government green packaging initiatives (global)
  • Technology scorecard - Supply chain coordination
  • The 21st century packaging supply chain (schematic)
  • Technology scorecard - Biodegradable polymers
  • Decomposition time for packaging materials at landfill
  • Technology scorecard - Intelligent
  • World market for intelligent packaging 2016-2021 (value)
  • Future global market for bioplastics in packaging 2016-2026
  • Future world supply of bioplastics for packaging 2016-2026
  • Future legislative targets for sustainable packaging components
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