全球模塑纖維包裝市場（2026-2036 年）

隨著監管機構、商業機構和消費者對一次性塑膠製品的壓力日益增大，全球模塑纖維包裝市場預計將在未來十年持續擴張。歐盟包裝和包裝廢棄物法規 (PPWR) 正在改變歐洲的包裝設計，而生產者延伸責任制 (EPR) 也在亞洲、拉丁美洲和北美迅速普及。此外，PFAS 法規也迫使耐油耐脂塗層進行徹底的重新設計。這些因素正促使品牌所有者和加工商在不斷擴展的應用領域轉向纖維基替代品。

零售食品和飲料仍然是最大的終端應用領域，主要集中在雞蛋盒、農產品托盤、葡萄酒瓶保護套以及新興但備受青睞的紙基和纖維基飲料瓶上。食品服務（主要包括外帶容器、蓋子、杯架和消耗品）是成長最快的主流領域。隨著品牌所有者轉向無塑膠的初級和二級包裝，醫療和化妝品應用也在不斷擴展。同時，消費性電子和家用電器製造商擴大採用模塑纖維代替發泡聚苯乙烯（EPS）用於運輸和保護性包裝，電子商務的持續成長進一步推動了這一領域的發展。

技術創新正在重新定義模塑纖維的可能性。 PulPac及其授權公司率先研發出乾式模塑纖維，可在現有造紙、紙板和熱成型設備上進行生產，同時降低水和能源消耗。符合德國聯邦風險評估研究所（BfR）XXXVI標準的水場工段耐油耐脂化學品、基於微纖化纖維素（MFC）的100%纖維素阻隔層以及不含PFAS的生物聚合物分散體，正為纖維開闢此前無法涉足的食品接觸應用領域。工業大麻和其他新一代纖維素原料正在中空瓶、管和容器的生產中進行測試，而人工智慧驅動的視覺檢測和製程熱工程正在提高整個濕式和乾式成型供應鏈的產量比率並降低單位成本。

挑戰依然存在。模塑纖維通常比同類塑膠包裝成本更高。此外，普遍存在的經濟不確定性正在延緩投資決策，而將阻隔性能從試驗規模擴展到工業規模需要纖維、化學品、模具和填料合作夥伴之間的密切合作。區域成長動態也不均衡。亞太和非洲正迅速從低水準追趕，而西歐和北美則繼續在塑造全球方向方面發揮監管領導作用。預計到2036年，紙基解決方案、循環經濟以及化石塑膠的替代品將成為整個纖維包裝價值鏈競爭策略的關鍵。

本報告檢視了全球模塑纖維包裝市場，追蹤了影響七個終端用戶領域和七個地區需求的監管、宏觀經濟和技術因素，並分析了模塑纖維價值鏈中 150 多家公司的營運情況。

目錄

第1章執行摘要

• 塑膠包裝的問題
• 模塑纖維市場
• 模塑纖維包裝的優勢
• 包裝產業的大趨勢
• 主要市場公司
• 全球模塑纖維包裝收入
• 模塑纖維包裝市場區隔（2026-2036 年）
• 模塑纖維包裝的區域細分（2026-2036 年）
• 市場和技術挑戰

第2章：引言與調查方法

第3章 宏觀經濟情勢

• 主要亮點
• 實質GDP成長率：依主要地區分類（2020-2036年）
• 美國消費者物價指數（12個月變動）
• 亞太地區：期末消費者物價年度變化
• 歐盟家庭消費者天然氣價格（2015-2025 年）
• 歐盟非居民用戶天然氣價格（2015-2025 年）
• 經濟不確定性對資本投資決策的影響
• 全球零售電子商務銷售展望（至2036年）

第4章 監管環境與市場促進因素

• 歐盟包裝和包裝廢棄物法規（PPWR）
• 歐盟一次性塑膠指令（SUPD）
• 世界各地的生產者延伸責任制（EPR）計劃
• BfR XXXVI 關於與食品直接接觸的合規性
• PFAS法規及向無氟化學品的過渡
• 企業永續性資訊揭露義務
• 塑膠的價格敏感度和價格差異
• 都市化與消費者關注點
• 關於可回收性和可堆肥性的要求

第5章 技術分析

• 纖維素纖維原料
• 製造過程
• 模塑紙漿的類型
• 模塑產品的特性
• 阻隔塗層和功能層
• 紙和纖維製成的瓶子
• 電子商務與運輸包裝：模塑纖維與EPS

第6章：競爭格局與案例研究

• 主要亮點
• 產業協會和聯盟
• 案例研究：PulPac 和帝亞吉歐——尊尼獲加紙瓶
• 案例研究：Tony's Chocolonely 的模塑纖維聖誕倒數日曆（SFA 包裝）
• 案例研究：Metsa Spring -模塑纖維食品托盤（帶阻隔膜）
• 案例研究：斯道拉恩索與Matrix Pack的創新夥伴關係
• 案例研究：弗洛拉
• 案例研究：Yangi——從試驗到生產的合作模式
• 案例研究：Fiberdom Duranova®－將無塑膠纖維融入現有生產線
• 案例研究：格勒諾布爾INP/纖維素谷生命週期評估－濕式、乾式和塑膠熱成型托盤

第7章 終端市場及預測

• 食品服務
• 零售食品和飲料
• 日常消費品（FMCG），包括化妝品。
• 工業/工程包裝
• 一次性醫療設備
• 園藝
• 耐久性消費品
• 終端用戶市場複合年成長率比較

第8章 區域市場及預測

• 北美洲
  • 美國
  • 加拿大
  • 墨西哥
• 中美洲和南美洲
  • 巴西
  • 其他中南美洲
• 西歐
  • 法國
  • 德國
  • 義大利
  • 西班牙
  • 英國
  • 其他西歐國家
• 東歐
  • 波蘭
  • 俄羅斯
  • 其他東歐國家
• 中東和非洲
  • 土耳其
  • 其他中東國家
  • 非洲
• 亞太地區
  • 中國
  • 印度
  • 日本
  • 亞太其他地區
• 澳大拉西亞
• 各國複合年均成長率比較

第9章：公司簡介（107家公司簡介）

第10章：調查方法

第11章參考文獻

The global moulded fibre packaging market is entering a decade of sustained expansion, driven by converging regulatory, commercial and consumer pressures on single-use plastics. The EU Packaging and Packaging Waste Regulation (PPWR) is reshaping packaging design across Europe, Extended Producer Responsibility (EPR) schemes are proliferating across Asia, Latin America and North America, and PFAS restrictions are forcing wholesale reformulation of grease- and oil-resistant coatings. Together, these forces are pushing brand owners and converters toward fibre-based alternatives across an expanding range of applications.

Retail food and drink remains the largest end-use segment, anchored by egg cartons, produce trays, wine-bottle protection and the nascent but high-profile category of paper and fibre-based beverage bottles. Foodservice - led by takeaway containers, lids, cup carriers and disposables - is the fastest-growing mainstream segment. Medical and cosmetics applications are expanding as brand owners commit to plastic-free primary and secondary packaging, while consumer electronics and appliance makers increasingly substitute moulded fibre for expanded polystyrene (EPS) in transit and protective packaging - an area given fresh impetus by the continued growth of e-commerce.

Technology innovation is reshaping what moulded fibre can do. Dry-moulded fibre, pioneered by PulPac and its licensees, reduces water use and energy intensity while enabling production on existing paper, board and thermoforming equipment. Wet-end oil-and-grease-resistant chemistries compliant with BfR XXXVI, 100% cellulose barriers based on microfibrillated cellulose (MFC), and PFAS-free bio-polymer dispersions are opening food-contact applications previously closed to fibre. Industrial hemp and other next-generation cellulosic feedstocks are being trialled in hollow-shape production of bottles, tubes and containers, while AI-driven visual inspection and process-heat engineering are lifting yield and lowering unit cost across the wet- and dry-moulded supply base.

Challenges remain. Moulded fibre typically carries a cost premium over comparable plastic packaging, investment decisions are slowed by broader economic uncertainty, and converting barrier performance from pilot to industrial scale demands close collaboration across fibre, chemistry, tooling and filling partners. Regional growth dynamics are also uneven: Asia-Pacific and Africa are catching up rapidly from a lower base, while Western Europe and North America continue to provide the regulatory pull that sets the global direction of travel. Paperisation, circularity and the substitution of fossil-based plastics are set to define competitive strategy across the fibre packaging value chain through 2036.

The Global Moulded Fibre Packaging Market 2026–2036 delivers a comprehensive, data-rich analysis of one of the fastest-growing segments of sustainable packaging. Built on primary research and extensive secondary analysis, the report maps the market across seven end-use segments and seven regions, tracks the regulatory, macroeconomic and technological forces reshaping demand, and profiles more than 150 companies active across the moulded fibre value chain - from fibre producers and moulding machinery suppliers to barrier-coating chemistry specialists, brand owners and technology consortia.

The report provides detailed 10-year forecasts to 2036, with granular breakdowns for retail food and drink, foodservice, FMCG and cosmetics, industrial and engineered packaging, single-use medical, horticulture and consumer durables. Technology coverage spans wet-moulded, dry-moulded and thermoformed fibre, hollow-shape production of bottles and tubes, BfR XXXVI-compliant wet-end OGR chemistries, 100% cellulose MFC barriers, PFAS-free bio-polymer dispersions, process-heat engineering and AI-driven visual inspection. Regulatory analysis covers PPWR, SUPD, EPR, PFAS restrictions and global food-contact frameworks.

Report contents include:

• Executive summary and key market indicators
• Introduction, scope and methodology
• Macroeconomic landscape (GDP, inflation, energy, e-commerce)
• Regulatory landscape and market drivers
• Technology analysis: feedstocks, processes, barriers, paper bottles
• Competitive landscape and case studies
• End-use markets and forecasts to 2036
• Regional markets and forecasts to 2036
• Company profiles
• Research methodology and references

Companies profiled include Acorn Pulp Group, Advanced Paper Forming, Ahlstrom, AIM Sweden, Amcor, Apeel Sciences, Aquapak Polymers, Archroma, Arkema, Artemyn, BASF, Be Green Packaging, Bcomp, Billerud, BIO-LUTIONS, Blue Ocean Closures, Borregaard, Brødrene Hartmann, Buhl Paperform, Capsul'in Pro, Cellucomp, CelluForce, Cellutech (Stora Enso), Celwise, Cirkla, CKF, Clariant, CreaFill Fibers, Cruz Foam, Cullen Eco-Friendly Packaging, Dalton Electric Heating, Danish Technological Institute, DIC Corporation, Domtar Paper, Dow, Earthodic, E6PR, Ecologic Brands, Eco-Products, Eco-SQ, EcoSynthetix, Ecovative Design, E-molding International, EMPPA, EnviroPAK, EURIKAS, Fibercel Packaging, Fiberdom, FiberLean Technologies, Fibmold, Follmann, Footprint, Fraunhofer Institutes, Frugalpac, Futamura Chemical, Genera, Genpak, Golden Arrow, Grenoble INP – Cellulose Valley, H.B. Fuller, Henry Molded Products, Heracles Packaging, Holmen Iggesund, Huhtamaki, HZ Green Pulp, Infinited Fiber Company, International Paper, J&J Green Paper, JOS Consulting, Kagzi Bottles, Keiding, Kelpi, Kemira, Kiefel, Koehler Paper, Kotkamills (Metsa Board), KRONES, Kuraray, Lactips, Lean Orb, Lvran Tech, Mantrose-Haeuser, Matrix Pack, MCC Verstraete, Melodea, Metsa Board Corporation, Metsa Spring, Michelman, Michelsen Packaging, Mondi, Moulded Pulp Engineering, The Navigator Company, Nfinite Nanotech, Nippon Paper Industries, Nippon Molding, Nippn Corp, Notpla, Oji Holdings, Omni-Pac Group, Omya

TABLE OF CONTENTS

1 EXECUTIVE SUMMARY

• 1.1 Plastics packaging issues
• 1.2 Moulded fibre market
  • 1.2.1 Increased demand in recent years will continue
  • 1.2.2 Meeting sustainability needs
  • 1.2.3 New coatings technologies
  • 1.2.4 In-house tooling
  • 1.2.5 Paperisation and plastic substitution
  • 1.2.6 Cost gap between moulded fibre and plastic alternatives
• 1.3 Advantages of moulded fibre packaging
• 1.4 Packaging megatrends
• 1.5 Main market players
• 1.6 Global revenues for moulded fibre packaging, 2026–2036 (millions USD)
• 1.7 Market segmentation for moulded fibre packaging, 2026–2036 (millions USD)
• 1.8 Regional segmentation for moulded fibre packaging, 2026–2036 (revenues, millions USD)
• 1.9 Market and technology challenges
• 1.10 Key questions answered within this report

2 INTRODUCTION AND METHODOLOGY

• 2.1 Report scope and objectives
• 2.2 Methodology
• 2.3 Market definitions and segmentation conventions
• 2.4 Currency, exchange rates and constant-dollar treatment

3 MACROECONOMIC LANDSCAPE

• 3.1 Key highlights
• 3.2 Real GDP growth by key regions, 2020–2036
• 3.3 US 12-month percentage change, consumer price index
• 3.4 Asia-Pacific: annual percentage change, end-of-period consumer prices
• 3.5 Natural gas prices for EU household consumers, 2015–2025
• 3.6 Natural gas prices for EU non-household consumers, 2015–2025
• 3.7 Economic uncertainty and impact on capital investment decisions
• 3.8 Global retail e-commerce sales outlook to 2036

4 REGULATORY LANDSCAPE AND MARKET DRIVERS

• 4.1 EU Packaging and Packaging Waste Regulation (PPWR)
• 4.2 EU Single-Use Plastics Directive (SUPD)
• 4.3 Extended Producer Responsibility (EPR) schemes worldwide
• 4.4 BfR XXXVI compliance for direct food contact
• 4.5 PFAS restrictions and the shift to fluorine-free chemistries
• 4.6 Corporate sustainability disclosure obligations
• 4.7 Cost sensitivity and the price gap with plastic
• 4.8 Urbanisation and consumer concerns
• 4.9 Recyclability and compostability requirements

5 TECHNOLOGY ANALYSIS

• 5.1 Cellulose fibre sources
  • 5.1.1 Virgin fibres
    • 5.1.1.1 Bagasse
    • 5.1.1.2 Shredded bamboo
    • 5.1.1.3 Wheat straw
    • 5.1.1.4 Industrial hemp
    • 5.1.1.5 Next-generation cellulosic feedstocks
  • 5.1.2 Recycled fibres
    • 5.1.2.1 Fibre recycling processes
    • 5.1.2.2 Contaminants and food-contact risk for recycled pulp
• 5.2 Manufacturing processes
  • 5.2.1 Mechanical pulping and chemical pulping
  • 5.2.2 Forming process
  • 5.2.3 Drying process
  • 5.2.4 3D printing
  • 5.2.5 Process heat as a design variable
  • 5.2.6 AI-driven visual inspection and in-line quality control
• 5.3 Types of moulded pulp
  • 5.3.1 Wet moulding
    • 5.3.1.1 Thick-wall (Type 1)
    • 5.3.1.2 Transfer moulded (Type 2)
    • 5.3.1.3 Thermoformed fibre (Type 3)
    • 5.3.1.4 Processed pulp (Type 4)
  • 5.3.2 Dry-moulded / thermoformed fibre
    • 5.3.2.1 Dry-moulded fibre on existing paper/board/thermoforming lines
    • 5.3.2.2 Fibre functionalisation — plastic-free natural fibre materials
  • 5.3.3 Hollow shapes — scaling bottles, containers and tubes
    • 5.3.3.1 Closing the gap between prototype and industrial-scale production
    • 5.3.3.2 Automated production systems and cycle-time stability
• 5.4 Properties of moulded products
  • 5.4.1 Grades and prices
  • 5.4.2 Additives
  • 5.4.3 Strength and lightweighting
  • 5.4.4 Formability, humidity resistance and end-of-life trade-offs
• 5.5 Barrier coatings and functional layers
  • 5.5.1 Bio-based wet-end oil and grease resistant (OGR) solutions
  • 5.5.2 BfR XXXVI-compliant wet-end chemistries
  • 5.5.3 100% cellulose barriers — microfibrillated cellulose (MFC) and double-dipping
  • 5.5.4 PFAS-free bio-polymer dispersions and bio-based wax emulsions
  • 5.5.5 Nanocellulose and plasma coatings
  • 5.5.6 Multi-layer barrier architectures and lamination
• 5.6 Paper and fibre-based bottles
  • 5.6.1 Wet-moulded fibre bottles
  • 5.6.2 Dry-moulded paper bottles — state of development
  • 5.6.3 Paper-based caps and closures
  • 5.6.4 Downstream: cleaning, filling and secondary packaging
• 5.7 E-commerce and transit packaging: moulded fibre vs EPS

6 COMPETITIVE LANDSCAPE AND CASE STUDIES

• 6.1 Key highlights
• 6.2 Industry associations and consortia
• 6.3 Case study: PulPac and Diageo — Johnnie Walker paper bottle
• 6.4 Case study: Tony's Chocolonely moulded fibre advent calendar (SFA Packaging)
• 6.5 Case study: Metsa Spring — moulded fibre food trays with barrier film
• 6.6 Case study: Stora Enso and Matrix Pack innovation partnership
• 6.7 Case study: Flora
• 6.8 Case study: Yangi — pilot-to-production collaboration model
• 6.9 Case study: Fiberdom Duranova® — plastic-free fibre on existing lines
• 6.10 Case study: Grenoble INP / Cellulose Valley LCA — wet, dry and plastic thermoformed trays

7 END-USE MARKETS AND FORECASTS

• 7.1 Foodservice
  • 7.1.1 Products (takeaway, disposables)
  • 7.1.2 Global market 2026–2036 (revenues and tonnes)
• 7.2 Retail food and drink
  • 7.2.1 Products
  • 7.2.2 Global market 2026–2036 (revenues and tonnes)
• 7.3 Fast-moving consumer goods (FMCG) including cosmetics
  • 7.3.1 Products
  • 7.3.2 Global market 2026–2036 (revenues and tonnes)
• 7.4 Industrial and engineered packaging
  • 7.4.1 Electronics packaging
  • 7.4.2 Vehicle / automotive parts packaging
  • 7.4.3 E-commerce transit and protective packaging (moulded fibre vs EPS)
  • 7.4.4 Global market 2026–2036 (revenues and tonnes)
• 7.5 Single-use medical
  • 7.5.1 Products
  • 7.5.2 Global market 2026–2036 (revenues and tonnes)
• 7.6 Horticultural
  • 7.6.1 Products
  • 7.6.2 Global market 2026–2036 (revenues and tonnes)
• 7.7 Consumer durables
  • 7.7.1 Consumer electronics
  • 7.7.2 Electrical appliances
  • 7.7.3 Other durables
  • 7.7.4 Global market 2026–2036 (revenues and tonnes)
• 7.8 End-use market CAGR comparison

8 REGIONAL MARKETS AND FORECASTS

• 8.1 North America
  • 8.1.1 United States
  • 8.1.2 Canada
  • 8.1.3 Mexico
• 8.2 South & Central America
  • 8.2.1 Brazil
  • 8.2.2 Other South and Central America
• 8.3 Western Europe
  • 8.3.1 France
  • 8.3.2 Germany
  • 8.3.3 Italy
  • 8.3.4 Spain
  • 8.3.5 United Kingdom
  • 8.3.6 Other Western Europe
• 8.4 Eastern Europe
  • 8.4.1 Poland
  • 8.4.2 Russia
  • 8.4.3 Other Eastern Europe
• 8.5 Middle East and Africa
  • 8.5.1 Turkey
  • 8.5.2 Other Middle East
  • 8.5.3 Africa
• 8.6 Asia-Pacific
  • 8.6.1 China
  • 8.6.2 India
  • 8.6.3 Japan
  • 8.6.4 Other Asia-Pacific
• 8.7 Australasia
• 8.8 Country-level CAGR comparison

9 COMPANY PROFILES (107 company profiles)

10 RESEARCH SCOPE AND METHODOLOGY

• 10.1 Report scope
• 10.2 Research methodology

11 REFERENCES

List of Tables

• Table 1. Commonly used plastics in packaging
• Table 2. Advantages of moulded fibre packaging
• Table 3. Megatrends for moulded fibre packaging
• Table 4. Global revenues for moulded fibre packaging, 2026–2036 (millions USD)
• Table 5. Market segmentation for moulded fibre packaging, 2026–2036 (millions USD)
• Table 6. Regional segmentation for moulded fibre packaging, 2026–2036 (revenues, millions USD)
• Table 7. Market and technology challenges for moulded fibre packaging
• Table 8. Real GDP growth rate by key region, 2020–2036 (% change, annual)
• Table 9. US consumer price index, 12-month percentage change (annual average)
• Table 10. Asia-Pacific end-of-period consumer prices, inflation (% change)
• Table 11. Natural gas prices for household consumers in the EU, 2015–2025 (EUR per 100 kWh)
• Table 12. Natural gas prices for non-household consumers in the EU, 2015–2025 (EUR per 100 kWh)
• Table 13. Global retail e-commerce sales, 2020–2036 (USD trillion)
• Table 14. Comparison of manufacturing processes for moulded fibre products
• Table 15. Properties of forming-drying processes
• Table 16. Properties of types of moulded pulp products
• Table 17. Types of procedure for moulding pulp materials
• Table 18. Grades and prices for moulded fibre products (indicative ranges, 2026)
• Table 19. Additives used in moulded fibre products
• Table 20. Comparison of moulded fibre and expanded polystyrene (EPS) in transit packaging
• Table 21. Markets and applications for moulded fibre packaging products
• Table 22. Examples of moulded fibre products in foodservice
• Table 23. Global market revenues for moulded fibre products in foodservice, 2026–2036 (millions USD)
• Table 24. Global market volume for moulded fibre products in foodservice, 2026–2036 (thousand tonnes)
• Table 25. Examples of moulded fibre products in retail food and drink
• Table 26. Global market revenues for moulded fibre products in retail food and drink, 2026–2036 (millions USD)
• Table 27. Global market volume for moulded fibre products in retail food and drink, 2026–2036 (thousand tonnes)
• Table 28. Example moulded fibre products in FMCG
• Table 29. Global market revenues for moulded fibre products in FMCG (including cosmetics), 2026–2036 (millions USD)
• Table 30. Global market volume for moulded fibre products in FMCG (including cosmetics), 2026–2036 (thousand tonnes)
• Table 31. Applications of moulded fibre packaging in industrial and engineered packaging
• Table 32. Global market revenues for moulded fibre products in industrial and engineered packaging, 2026–2036 (millions USD)
• Table 33. Global market volume for moulded fibre products in industrial and engineered packaging, 2026–2036 (thousand tonnes)
• Table 34. Applications of moulded fibre packaging in single-use medical applications
• Table 35. Global market revenues for moulded fibre products in single-use medical, 2026–2036 (millions USD)
• Table 36. Global market volume for moulded fibre products in single-use medical, 2026–2036 (thousand tonnes)
• Table 37. Applications of moulded fibre packaging in horticulture
• Table 38. Global market revenues for moulded fibre products in horticulture, 2026–2036 (millions USD)
• Table 39. Global market volume for moulded fibre products in horticulture, 2026–2036 (thousand tonnes)
• Table 40. Global market revenues for moulded fibre products in consumer durables, 2026–2036 (millions USD)
• Table 41. Global market volume for moulded fibre products in consumer durables, 2026–2036 (thousand tonnes)
• Table 42. Regional segmentation for moulded fibre packaging — revenues and CAGR, 2026–2036 (USD million)
• Table 43. North America moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Table 44. South & Central America moulded fibre packaging revenues, 2026–2036 (USD million)
• Table 45. Western Europe moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Table 46. Eastern Europe moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Table 47. Middle East & Africa moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Table 48. Asia-Pacific moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Table 49. Australasia moulded fibre packaging revenues, 2026–2036 (USD million)

List of Figures

• Figure 1. Example moulded fibre packaging products.
• Figure 2. Dry-moulded fibre Baileys bottle.
• Figure 3. Paper Water Bottle.
• Figure 4. Global revenues for moulded fibre packaging, 2026–2036 (USD billion)
• Figure 5. Market segmentation for moulded fibre packaging, 2026–2036 (USD million)
• Figure 6. Regional segmentation for moulded fibre packaging, 2026–2036 (USD billion)
• Figure 7. Real GDP growth, annual, by key regions, 2020–2036 (% change)
• Figure 8. US 12-month percentage change, consumer price index, 2020–2030 (annual average)
• Figure 9. Asia-Pacific inflation by key country, 2020–2030 (end-of-period consumer prices, % change)
• Figure 10. Natural gas prices for EU household consumers, 2015–2025 (EUR per 100 kWh)
• Figure 11. Natural gas prices for EU non-household consumers, 2015–2025 (EUR per 100 kWh
• Figure 12. Global retail e-commerce sales, 2020–2036 (USD trillion)
• Figure 13. Regulatory timeline affecting moulded fibre packaging, 2024–2036
• Figure 14. Global PFAS regulatory restrictions on packaging, 2026
• Figure 15. Cellulose fibre sources for moulded fibre packaging — typical composition comparison (% dry weight)
• Figure 16. Manufacturing process flow for moulded fibre packaging
• Figure 17. Wet-moulded fibre vs dry-moulded fibre — relative performance comparison
• Figure 18. ISO 10638 moulded pulp types — quality-price positioning
• Figure 19. Barrier coating technologies for moulded fibre — performance comparison across seven criteria (relative scores, 0 = weak, 10 = strong)
• Figure 20. Barrier coating market share by technology, 2026 vs 2036 (% of applied barrier volume on moulded fibre)
• Figure 21. Paper and fibre-based bottle platforms — development stage, 2026 (0 = concept; 6 = mature commercial scale-up)
• Figure 22. Moulded fibre vs expanded polystyrene (EPS) — performance comparison across eight criteria (relative scores, 0 = poor, 10 = excellent)
• Figure 23. Global e-commerce transit packaging demand and moulded fibre substitution share, 2026–2036
• Figure 24. Top 10 global moulded fibre packaging converters — estimated market share, 2026 (% by revenue)
• Figure 25. Johnnie Walker paper bottle
• Figure 26. Tony's Chocolonely moulded fibre advent calendar (SFA Packaging)
• Figure 27. Grenoble INP – Cellulose Valley prospective LCA — wet-moulded, dry-moulded and plastic thermoformed food trays across six environmental indicators (per kg of packaging)
• Figure 28. Moulded fibre packaging market — share by end-use segment, 2026 (% of global revenues)
• Figure 29. Global market revenues for moulded fibre products in retail food and drink, 2026–2036 (USD million)
• Figure 30. Global market volume for moulded fibre products in retail food and drink, 2026–2036 (thousand tonnes)
• Figure 31. Global market revenues for moulded fibre products in FMCG (including cosmetics), 2026–2036 (USD million)
• Figure 32. Global market volume for moulded fibre products in FMCG (including cosmetics), 2026–2036 (thousand tonnes)
• Figure 33. Global market revenues for moulded fibre products in industrial and engineered packaging, 2026–2036 (USD million)
• Figure 34. Global market volume for moulded fibre products in industrial and engineered packaging, 2026–2036 (thousand tonnes)
• Figure 35. Global market revenues for moulded fibre products in single-use medical, 2026–2036 (USD million)
• Figure 36. Global market volume for moulded fibre products in single-use medical, 2026–2036 (thousand tonnes)
• Figure 37. Global market revenues for moulded fibre products in horticulture, 2026–2036 (USD million)
• Figure 38. Global market volume for moulded fibre products in horticulture, 2026–2036 (thousand tonnes)
• Figure 39. Global market revenues for moulded fibre products in consumer durables, 2026–2036 (USD million)
• Figure 40. Global market volume for moulded fibre products in consumer durables, 2026–2036 (thousand tonnes)
• Figure 41. Moulded fibre packaging — CAGR comparison by end-use segment, 2026–2036
• Figure 42. Regional segmentation for moulded fibre packaging, 2026 vs 2036 (% of global revenues)
• Figure 43. Regional CAGR comparison for moulded fibre packaging, 2026–2036
• Figure 44. North America moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Figure 45. South & Central America moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Figure 46. Western Europe moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Figure 47. Eastern Europe moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Figure 48. Middle East & Africa moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Figure 49. Asia-Pacific moulded fibre packaging revenues by country, 2026–2036 (USD million)
• Figure 50. Australasia moulded fibre packaging revenues, 2026–2036 (USD million)
• Figure 51. Country-level CAGR comparison for moulded fibre packaging — top 15 national markets, 2026–2036
• Figure 52. Be Green Packaging moulded fibre products.
• Figure 53. Beyond Meat Molded Fiber Sausage Tray.
• Figure 54. Moulded fibre trays for contact lenses.
• Figure 55. Cullen Eco-Friendly Packaging beerGUARD moulded fibre trays.
• Figure 56. Moulded fibre plastic rings.
• Figure 57. Genera moulded fibre meat trays.
• Figure 58. Unilever Carte D’Or ice cream packaging.
• Figure 59. Matrix Pack moulded-fibre beverage cup lid.
• Figure 60. Moulded fibre Labeling applied to products.
• Figure 61. Coca-cola paper bottle prototype.
• Figure 62. PulPac dry moulded fibre packaging for cosmetics.
• Figure 63. Moulded fibre tray.
• Figure 64. Moulded pulp bottles.
• Figure 65. Moulded fibre laundry detergent bottle.
• Figure 66. Tanbark’s clamshell product.
• Figure 67. Varden coffee pod.
• Figure 68. npulp packaging.