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1109447

持続可能な包装の将来性：長期的な戦略予測 (2032年まで)

The Future of Sustainable Packaging: Long Term Strategic Forecasts to 2032

出版日: 2022年09月30日 | 発行: Smithers

| ページ情報: 英文 144 Pages | 納期: 即日から翌営業日

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概要
目次

概要

サンプル依頼リストに入れる

世界全体のマクロ的変化と、特に人口動態の変化により、包装材の廃棄量は増加を余儀なくされています。抽出・精製技術とそれに伴うコストは徐々にしか変化しないため、需給比率の変化が変動の主な要因となります。包装循環モデルの8つの構成要素は、消費財包装の規制を追跡するための便利なフレームワークを提供します。

当レポートでは、世界の包装業界における持続可能性への将来的な取り組みについて分析し、包装業界の基本構造や最新情勢、昨今の持続可能な包装材の開発・利用を巡る動き、国際的規制の枠組み、最終用途別に見た再生可能包装の活用状況、環境問題に対する再生可能包装の活用効果、将来的な普及・利用動向の見通し (今後10年間分)、地域別の詳細動向、といった情報を取りまとめてお届けいたします。

概要
西欧
- 欧州連合 (EU)
- 英国
- 他の西欧諸国
東欧
- ロシア
- ポーランド
- 他の東欧諸国
北米
- 米国
- 他の北米諸国
中南米
- ブラジル
- 他の中南米諸国
アジア太平洋
- 日本
- 中国
- 他のアジア太平洋諸国
中東・アフリカ
- トルコ
- 他の中東・アフリカ諸国

Macro changes across the world and within populations ensure that compelling forces will increase the amount of packaging waste. Changing supply and demand ratios largely drive fluctuations because extraction/refining technology and resultant costs change only gradually. The eight components of the packaging material circulation model provide a convenient framework for tracking regulation of consumer goods packaging.

What does the report cover?

This report will examine how sustainable packaging for consumer-packaged goods, food as well as non-food, will develop over the next 10 years, and how the consumer packaged goods companies (CPG Cos.) and the packaging industry will adjust. Technological developments, regulations, consumer expectations, regulatory proposals, and major CPG Cos. plans to shape the future market. This report considers present and likely future marketplace drivers for sustainable packaging, national and local regulatory trends from around the world, sustainable packaging materials innovations, and sustainability goals of CPG Cos.

Our exclusive content

Definition of what sustainable packaging is and how the industry can harness it as the exponential growth of the market continues

How the big players in the packaging industry, specifically brand owners, are planning to meet the changing expectations of consumers and from within the industry

How legislation is shaping not only what we currently class as sustainable packaging, but how this will look over the next 10 years.

What will you discover?

An overview of what sustainable packaging is - Beneficial, safe, and healthy for individuals and communities throughout its life cycle; meets market criteria for both performance and cost; sourced, manufactured, transported, and recycled using renewable energy; optimizes the use of renewable or recycled source materials; manufactured using clean production technologies and best practices; made from materials that are healthy throughout the life cycle; physically designed to optimize materials and energy; effectively recovered and utilized in biological and/or industrial closed loop cycles.

The Smithers methodology

This report is based on extensive primary and secondary research. Primary research consisted of targeted interviews with material suppliers, converters and experts drawn from key markets.

This was supported by secondary research in the form of extensive literature analysis of published data, official government statistics, domestic and international trade organisation data, company websites, industry reports, trade press articles, presentations, and attendance at trade events.

Who should buy the report?

Packaging converters
Brand owners
Packaging manufacturers
Raw material suppliers

About the author

Tom Dunn has over 30 years of experience in the technology of flexible packaging materials, machinery, measures, processes as well as the specification of these to solve a variety of CPG product packaging needs. Specific packaging system expertise in high-yield barrier packaging for moisture sensitive dry foods, high respiration-rate packaging for fresh fruits and vegetables, and extended shelf life packaging for low acid canned foods, particularly for advanced sterilization processes. He is experienced in regulatory compliance for food contact materials applications in Europe, the US, and other countries and has been responsible for patent analysis and freedom to operate assessments.

Introduction and methodology

Report scope
Sustainable development goals
"Sustainable packaging" definition
Report objective
Methodology
Abbreviations and glossary

Economic and demographic changes

Overview
Status quo
Overview
Economies
Demographics

Regulations

Brand and retailer changes

Overview
Executive attitudes
Retailers
CPG Cos
Aspirations & achievements
Verification
Supply

Technology advances

Recyclable
Recycled content
Renewably sourced
Degradable/compostable
Refillable/reusable

Packaging end uses

Food
Drink
Healthcare
Cosmetics
Other consumer
Industrial

Sustainable packaging material

Overview
GHG emissions and energy impacts of packaging materials
Packaging material end-of-life energy available from packaging materials waste-to-energy

Regional sustainable packaging

Overview
Western Europe
- European Union
- UK
- Other Western Europe
Eastern Europe
- Russia
- Poland
- Other Eastern Europe
North America
- US
- Other North America
South and Central America
- Brazil
- Other South and Central America
Asia-Pacific
- Japan
- China
- Other Asia-Pacific
Middle East and Africa
- Turkey
- Other Middle East and Africa

Tables and Figures

UN sustainable development goals to 2015-2030
Manufacturing practises
MSW - End of life (2018)
Packaging value chain
Descriptions of sustainable packaging materials/package terms
Global approach to sustainability
Daily waste generation with national Income levels
Packaging definitions - end of life
Age group influence on CPG packaging
Partial outline of current international sustainable packaging initiatives
Priorities for sustainable packaging types
Sustainable packaging influences purchasing decisions,
Global top 10 countries in 2019
Status quo definition - end of life
Public & private responses to increasing solid waste
Ideal circular economy for packaging material circulation
Daily per capita waste generation
Global market sizes - packaging materials
Total and recycled ($ million 2022)
Survey outcome - how do you rate the importance of factors when making a purchase?
Sustainable packaging influences packaging decisions
Material global market sales (2022)
Packaging material circulation
EPR systems (2021)
Regulation enforcement laws - value chain
FTC guidelines re: labelling claims
EU 2015 plastic waste generation
Recycled and composted as % of generated US-EPA
Current federal proposed MSW programs
Indian Ministry of Environment, Forest and Climate Change new guidelines on single-use plastic waste management in 2024-2028
Food System Carbon Emissions (CO2e)
End of life US MSW (2018)
Packaging definitions - brand and retailer changes
Carrefour - sustainable packaging programme
Packaging sustainability statements of
Global top 10 Supermarket chains
Product line(s) Top 10 global brands
Packaging sustainability targets
Recycling rate of plastic packaging waste, 2019
Impact of sustainable characteristics on packaging
Impact of technology advances for sustainable packaging
Packaging end uses - current market and expected changes to 2032
Chemical recycling proce families
Energy efficient aluminium production 2022
Packaging material substitutions to 2032
Packaging material density gm/cc
LCA - packaging material types
LCA - plastic
LCA - paper
LCA - glass
LCA - metal
LCA - other
Global GDPs
Energy available from packaging materials waste-to-energy - global

持続可能な包装の将来性：長期的な戦略予測 (2032年まで)

The Future of Sustainable Packaging: Long Term Strategic Forecasts to 2032

目次

イントロダクションと分析手法

経済と人口動態の変化

規則

ブランドと販売店の変化

技術進歩

包装の最終用途

持続可能な包装材

持続可能包装：地域別