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市場調查報告書

全球聚乙烯瓶市場

Polyethylene Bottles - 2014 to 2018

出版商 Allied Development Corp. 商品編碼 297161
出版日期 內容資訊 英文 270 Pages
商品交期: 最快1-2個工作天內
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全球聚乙烯瓶市場 Polyethylene Bottles - 2014 to 2018
出版日期: 2014年03月17日 內容資訊: 英文 270 Pages
簡介

本報告針對全球聚乙烯(PE)瓶市場進行多方面分析,包括技術面評價、技術性與環境影響比較、產業成長促進因素、各地區市場趨勢、市場統計資料、主要各製造商檔案,目錄介紹如下。

第1章 介紹

第2章 摘要

  • 市場分析-成長促進因素與趨勢
  • 市場分析-統計資料與預測
  • 技術
  • 技術性與環境影響

第3章 技術

  • PE瓶設計
    • 原料
    • 瓶子輕量化
    • 構造
    • 形狀
  • 瓶子製造商
  • 連續擠壓吹塑成形
    • 穿梭流程
    • 旋轉流程
  • 間歇式擠壓吹塑成形
    • 往複螺桿
    • 蓄積式模頭
  • 注吹成型(IBM)
    • 射出注吹成型流程
    • 模具
  • 射出延伸注吹成形(ISBM)
    • 預成
    • 吹注成形
  • 壓縮注吹成形(CBF)
  • 廣口成形
  • 設備供給企業
  • 處理工程

第4章 技術性與環境影響

  • 示範1:PET瓶成本
  • 示範2:高密度聚乙烯(HDPE)瓶成本
  • 示範3:使用再生資源的HDPE瓶成本
  • 比較4:示範1與3比較
    • 材料費
    • 轉換成本
    • 整體成本
  • 示範5:PET瓶生命週期解析
    • 能源
    • 溫室效果二氧化碳排放量
    • 水消費量
    • 廢棄
  • 示範6:HDPE瓶生命週期解析
    • 能源
    • 溫室效果二氧化碳排放量
    • 水消費量
    • 廢棄
  • 示範7:使用再生資源的HDPE瓶生命週期解析
    • 能源
    • 溫室效果二氧化碳排放量
    • 水消費量
    • 廢棄
  • 比較8:示範5與7的比較
    • 能源
    • 溫室效果二氧化碳排放量
    • 水消費量
    • 廢棄
  • 比較9:技術性與環境影響摘要

第5章 市場

  • 成長促進因素與趨勢
    • 需求決定因素
    • 宏觀技術環境
    • 環境面因素
    • 技術性
    • 產品濃度
    • 販售與自用生產
    • 貨架展示度
    • 消費者趨勢
    • 政府規範
    • 業界整合
  • 全球PE瓶最終用途種類分類生產量
  • 全球PE瓶最終用途種類分類銷售
  • 全球飲料用PE瓶最終用途分類生產量
    • 果汁
    • 牛奶
    • 其他飲料
  • 全球食品用PE瓶最終用途種類分類生產量
    • 咖啡
    • 香料
    • 其他食品
  • 全球家庭化學品用PE瓶最終用途種類分類生產量
    • 洗碗精
    • 洗衣精
    • 其他家庭化學品
  • 全球個人保養製品用PE瓶最終用途種類分類生產量
    • 護膚
    • 護髮
    • 其他個人保養製品
  • 全球醫藥品PE瓶最終用途種類分類生產量
    • OTC醫藥品
    • 處方藥
  • 全球各種PE瓶最終用途種類分類生產量
    • 自動車
    • 塗料
    • 其他製品
  • 各地區生產量
  • 各地區銷售量
  • 亞洲地區PE瓶生產量
  • 歐洲地區PE瓶生產量
  • 北美地區PE瓶生產量
  • 其他地區PE瓶生產量
  • 全球PE瓶最終用途種類分類銷售
    • 飲料用
    • 食品用
    • 家庭化學品用
    • 個人保養產品用
    • 醫藥用
    • 其他
  • 多樣性製品與非多樣性製品生產量
  • 各種層構成製品生產量
  • 處理製品與非處理製品生產量
  • 各種包裝種類製品ソ生產量
  • 再生資源含有量分類生產量
  • 再生樹脂含有量分類生產量
  • 樹脂密度分類生產量

第6章 設備概要

各製造商檔案

詞彙表

目錄

Global Markets, Economics, Environmental Impact, and Technology

"Polyethylene Bottles" is a global study of the polyethylene bottle industry. This study provides technology assessments, economic comparisons, environmental impact comparisons, industry drivers, geographic trends, market statistics, market forecasts, and profiles of industry participants.

The market section evaluates the polyethylene bottle market by end-use, geography, formulation, and many other segments. The measurement units include volume in number of bottles and value in U.S. dollars.

The economic and environmental evaluation compares a "standard" PE bottle, a PE bottle manufactured with biopolyethylene, and a PET bottle.

"Polyethylene Bottles" includes rankings and profiles of polyethylene resin producers for blow molding, bottle producers, and equipment suppliers.

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With this new study you can:

  • Understand the economic and environmental potential of polyethylene bottles from six models and three comparisons
  • Envision the future of the global polyethylene bottle packaging industry through market projections and important technological innovations
  • Understand the growth patterns of polyethylene bottles
  • Learn which applications are generating growth now and those that will be generating growth in the future
  • Find out how successful industry participants will utilize polyethylene bottles in the years ahead

Learn About:

  • The future of the Polyethylene Bottle industry with detailed segment forecasts to 2018
  • In-depth analysis of emerging trends, market conditions, and market drivers
  • Current consumption volumes with projections to 2018
  • The latest technology developments and the opportunities they afford

Who Should Buy This Study:

  • Converters
  • Raw Material Suppliers
  • Equipment and Machinery Suppliers
  • Brand Owners
  • Industry Analysts

What is included:

  • Detailed analysis of the trends and drivers of this unique and challenging market with volume forecasts to 2018
  • More than 270 pages of detailed data not available anywhere else
  • Details of market opportunities and forecasts broken down by end-use segments and four (4) geographic regions

Market Matrix:

Polyethylene Bottles

  • Global Volume (measured in units)
    • Beverage
    • Food
    • Household chemical
    • Personal care
    • Phamaceutical
    • Other
  • Global Value (measured in US dollars)
  • Global Beverage Volume
    • Juice
      • Volume by geographic region
    • Milk
      • Volume by geographic region
    • Water
      • Volume by geographic region
    • Other beverages
      • Volume by geographic region
  • Global Food Volume
    • Coffee
      • Volume by geographic region
    • Condiments
      • Volume by geographic region
    • Other Food
      • Volume by geographic region
  • Global Household Chemical Volume
    • Dish soap
      • Volume by geographic region
    • Laundry soap
      • Volume by geographic region
    • Other household chemicals
      • Volume by geographic region
  • Global Personal Care Volume
    • Skin care
      • Volume by geographic region
    • Hair care
      • Volume by geographic region
    • Other personal care
      • Volume by geographic region
  • Global Pharmaceutical Volume
    • Over-the-counter
      • Volume by geographic region
    • Prescription
      • Volume by geographic region
  • Global Other Volume
    • Automotive
      • Volume by geographic region
    • Paint
      • Volume by geographic region
    • Other
      • Volume by geographic region
  • Global Volume by Geographic Region
    • Asia
    • Europe
    • North America
    • Rest of the world
  • Global Value by Geographic Region
    • Value by end-use
  • Global Volume by Layer Configuration
  • Global Volume by Treated vs Untreated
  • Global Volume by Package Type
  • Global Volume by Renewable Content
  • Global Volume by Recycled Resin Content
  • Global Volume by Resin Density
  • Figures: 31 Tables: 68

Table of Contents

Section I: Introduction

  • A. Study purpose
  • B. Key definitions
    • 1. PE bottles
    • 2. Geography
  • C. Study organization
  • D. Geographic regions
  • E. Study methodology
  • F. Conventions

Section II: Executive Summary

  • A. Market analysis - drivers and trends
    • 1. Demand determinants
    • 2. Macroeconomic environment
    • 3. Environmental
    • 4. Competing packages
    • 5. Economic
    • 6. Manufacturing location
  • B. Market analysis - statistics and projections
    • 1. PE bottle volume segmented by end-use category
    • 2. PE bottle value segmented by end-use category
    • 3. PE bottle volume segmented by geographic region
    • 4. PE bottle volume segmented by barrier vs. non-barrier
    • 5. PE bottle volume segmented by renewable content
  • C. Technology
    • 1. Weight reduction
    • 2. Renewable raw materials
    • 3. Recycling
    • 4. Process development
  • D. Economic and environmental impact
    • 1. Economic results
    • 2. Environmental results

Section III: Technology

  • A. PE bottle design
    • 1. Raw materials
    • 2. Bottle weight reduction
    • 3. Structures
    • 4. Shape
    • 5. PE bottle producers
  • B. Bottle manufacture
  • C. Continuous extrusion blow molding
    • 1. Continuous extrusion blow molding - shuttle process
    • 2. Continuous extrusion blow molding - wheel process
  • D. Intermittent extrusion blow molding
    • 1. Intermittent extrusion blow molding - reciprocating screw
    • 2. Intermittent extrusion blow molding - accumulator head
  • E. Injection blow molding (IBM)
    • 1. Injection blow molding process
    • 2. Molds
  • F. Injection stretch blow molding (ISBM)
    • 1. Preform
    • 2. Blow molding
  • G. Compression blow forming (CBF)
  • H. Jar molding
  • I. Equipment suppliers
  • J. Treatment process

Section IV: Economic and Environmental Impact

  • A. Model 1: PET bottle cost
    • 1. General assumptions
    • 2. Economic results
  • B. Model 2: HDPE bottle cost
    • 1. General assumptions
    • 2. Economic results
  • C. Model 3: Renewably sourced HDPE bottle cost
    • 1. General assumptions
    • 2. Economic results
  • D. Comparison 4: Comparison of Models 1 to 3
    • 1. Material cost
    • 2. Converting cost
    • 3. Total cost
  • E. Model 5: PET bottle LCA
    • 1. Energy consumption
    • 2. Greenhouse gas releases
    • 3. Water consumption
    • 4. End-of-life
  • F. Model 6: HDPE bottle LCA
    • 1. Energy consumption
    • 2. Greenhouse gas releases
    • 3. Water consumption
    • 4. End-of-life
  • G. Model 7: Renewably sourced HDPE bottle LCA
    • 1. Energy consumption
    • 2. Greenhouse gas releases
    • 3. Water consumption
    • 4. End of life
  • H. Comparison 8: Comparison of Models 5 to 7
    • 1. Energy
    • 2. Greenhouse gas releases
    • 3. Water consumption
    • 4. End-of-life
  • I. Comparison 9: Economic and Environmental Summary

Section V: Market

  • A. Drivers and trends
    • 1. Demand determinants
    • 2. Macroeconomic environment
    • 3. Environmental
    • 4. Economic
    • 5. Product concentrations
    • 6. Merchant versus captive manufacturing
    • 7. Shelf appeal
    • 8. Consumer trends
    • 9. Government regulations
    • 10. Industry consolidation
  • B. Global PE bottle volume by end-use category
  • C. Global PE bottle value by end-use category
  • D. Global beverage PE bottle volume by end-use
    • 1. Juice beverages
    • 2. Milk
    • 3. Water
    • 4. Other beverages
  • E. Global food PE bottle volume by end-use
    • 1. Coffee
    • 2. Condiments
    • 3. Other food
  • F. Global household chemical PE bottle volume by end-use
    • 1. Dish soap
    • 2. Laundry soap
    • 3. Other Household chemicals
  • G. Global personal care PE bottle volume by end-use
    • 1. Skin care
    • 2. Hair care
    • 3. Other personal care
  • H. Global pharmaceutical PE bottle volume by end-use
    • 1. Over-the-counter (OTC)
    • 2. Prescription (Rx)
  • I. Global other PE bottle volume by end-use
    • 1. Automotive
    • 2. Paint
    • 3. Other products
  • J. Global volume by geographic region
  • K. Global value by geographic region
  • L. Asian PE bottle volume
  • M. European PE bottle volume
  • N. North American PE bottle volume
  • O. Rest of world PE bottle volume
  • P. Global value by end-use
    • 1. Global beverage PE bottle value
    • 2. Global food PE bottle value
    • 3. Global household chemical PE bottle value
    • 4. Global personal care PE bottle value
    • 5. Global pharmaceutical PE bottle value
    • 6. Global other PE bottle value
  • Q. PE bottle volume segmented by barrier vs. non-barrier
  • R. PE bottle volume segmented by layer configuration
  • S. PE bottle volume segmented by treated vs. untreated
  • T. PE bottle volume segmented by package type
  • U. PE bottle volume segmented by renewable content
  • V. PE bottle volume segmented by recycled resin content
  • W. PE bottle volume segmented by resin density

Section VI: Equipment Profiles

Section I: Producer Profiles

Section II: Glossary

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