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市場調查報告書

生物煉製廠能否拯救全球拋棄式衛生用品產業?

Can Biorefineries save the Global Disposable Hygiene Products Industry?

出版商 BCC Research 商品編碼 918716
出版日期 內容資訊 英文 41 Pages
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生物煉製廠能否拯救全球拋棄式衛生用品產業? Can Biorefineries save the Global Disposable Hygiene Products Industry?
出版日期: 2019年12月11日內容資訊: 英文 41 Pages
簡介

本報告提供世界拋棄式衛生用品及生質塑膠市場相關調查,全球紡粘不織布、熔噴不織布市場規模與結構相關資訊,主要企業,及過去5年的投資情形等相關分析。

第1章 簡介

第2章 AHP (吸收性衛生用品) 市場規模、結構

  • AHP推動成長要素
  • 中國的AHP消費的擴大
  • 新興AHP市場潛力
  • AI產品相關需求的增加

第3章 紡粘不織布、熔噴不織布的全球市場的規模、結構

  • 紡粘製程
  • 紡粘技術的開發
  • 熔噴流程
  • 多波束、複合材料
  • Reicofil公司的技術
  • 聚丙烯

第4章 AHP的回收

  • PureCycle
  • Loop Industries
  • 相關回收計劃
  • 義大利的Contarina的成功
  • Interlinked
  • 超越回收
  • 義大利的廢棄物終止令

第5章 生質塑膠市場及AHP的主要的發展

  • 生物煉製廠的第3代
  • 複雜集體
  • 目前生質塑膠生產
  • Natureworks 公司的 Ingeo
  • Kimberly-Clark 公司的Ingeo 開發、其他

第6章 生物來源零組件的消費清單

  • 超吸收材
  • 拉伸橡膠
  • 黏劑
  • 結論
  • 資訊來源
  • 調查手法
  • 分析師的經歷
  • 關於BCC Research的報告
目錄
Product Code: CON009A

Report Highlights:

This report includes examination of the global market for disposable hygiene products and bioplastics. It also provides information on the size and structure of the global spunbond and meltblown nonwovens market, its key players and investments in new capacities over the past five years.

Report Includes:

  • An overview of the market size and structure of global disposable hygiene products market and description of its key players
  • Information on bio-derived alternatives for disposable hygiene product that already exist, or are under development
  • A look at the initiatives taken for recycling of disposable hygiene products in various areas
  • Evaluation of major developments and market dynamics for disposable absorbent hygiene products (AHPs)

Table of Contents

Chapter 1: Introduction

  • Pending U.S. legislation
  • EDANA Outlook 2019 Conference
  • Disposable Wipes Advantages
  • Obstacles to Bioplastics Development

Chapter 2: The Size and Structure of the AHPs Market

  • AHP Drivers for Growth
  • China's Growth in AHP Consumption
  • Emerging AHP Markets Potential
  • Increasing Demand for AI Products

Chapter 3: The Size and Structure of the Global Spunbond and Meltblown Nonwovens Market

  • The Spunbonding Process
  • Spunbond Technology Development
  • The Meltblowing Process
  • Multiple Beams and Composites
  • Reicofil Technology
  • Polypropylene

Chapter 4: The Recycling of AHPs

  • PureCycle
  • Loop Industries
  • Embraced Recycling Project
  • Contarina Success in Italy
  • Interlinked
  • Going Beyond Recycling
  • Italy's End of Waste Decree

Chapter 5: The Bioplastics Market and Key Developments for AHPs

  • Three Generations of Biorefinery
  • Adding Complexity
  • Current Bioplastics Production
  • Natureworks Ingeo
  • Kimberly-Clark Ingeo Developments
  • Fitesa Biopolymer Bicomponent
  • Total Corbion
  • NatureWorks Expansion and Methane Development
  • PHAs
  • Metabolix and ADM
  • Danimer Scientific
  • Novamont Mater-Bi and Origo-Bi
  • "Plastic Bubbles" Probe
  • Drop-In Biopolymers
  • PET Monomers
  • Virent BioForming and PlantBottle
  • PEF
  • Avantium Technologies
  • Bio-Polypropylene
  • Neste Technology
  • Borealis
  • Mitusi Bio-PP
  • Braskem Bio-PE
  • Braskem Bio-PP
  • "I'm Green Recycled"
  • Lenzing Web Technology

Chapter 6: A Shopping List of Bio-Derived Components

  • Superabsorbents
  • Stretch Elastics
  • Adhesives
  • Conclusion
  • Information Sources
  • Methodology
  • Analyst's Credentials
  • Related BCC Research Reports

List of Tables

  • Table 1: Spunmelt Investment Announcements in the Americas, Since 2015
  • Table 2: Spunmelt Investment Announcements in Asia-Pacific, Since 2015
  • Table 3: Spunmelt Investment Announcements in EMEA, Since 2015
  • Table 4: Comparison of Spunbonding and Meltblown Technologies for Nonwoven Filter Media
  • Table 5: Key Benefits of Nonwovens in Nonwoven Processing and End Products
  • Table 6: The Leading Manufacturers of Spunmelt Nonwovens for Hygiene, by Overall Turnover
  • Table 7: Lenzing's Current Capacity for Cellulosic Fibers Production
  • Table 8: Summary of Bioplastic Developments Relevant to the Production of Spunmelt Nonwovens for AHPS.
  • Table 9: Value of the Individual Components in a Typical Diaper Construction

List of Figures

  • Figure 1: Typical Configuration and Components of a Modern Baby Diaper
  • Figure 2: The Diaper Waste Problem
  • Figure 3: Open-Seat Pants for Chinese Toddlers in the 1990s
  • Figure 4: The Latest Reicofil RF Spunmelt System
  • Figure 5: The First Diaper Recycling Plant at Contarina in Italy
  • Figure 6: Embraced Diaper Recycling Outlet in Amsterdam
  • Figure 7: Timeline for the Progress of Biorefining
  • Figure 8: Advantages of Mitsui's Newly Developed Bio-PP Fermentation Process