全球绿色多元醇市场预测分析（2018-2034）

绿色多元醇源自天然油脂，例如大豆油、蓖麻油和棕榈油，以及化学回收的废弃物，例如宝特瓶。这些生物基和回收多元醇是生产聚氨酯的关键原料，而聚氨酯则广泛应用于泡棉、涂料、黏合剂、弹性体和密封剂等领域。随着各行业和政府加强减少碳足迹并推动循环经济，包括建筑、汽车、家具和包装在内的各个终端应用领域对绿色多元醇的需求正在蓬勃发展。绿色多元醇不仅能减少对石化燃料的依赖，还有助于减少温室气体排放、提高能源效率并改善聚氨酯产品的生命週期性能。

区域需求分析

从区域来看，北美和欧洲在全球绿色多元醇市场中占据领先地位。这主要得益于强有力的监管支援、技术创新以及永续材料的广泛应用。在北美，美国在绿色多元醇的生产和消费方面处于领先地位，嘉吉、BASF和史蒂潘公司等主要企业已确立了稳固的市场地位。该地区对节能建筑材料和轻量化汽车零件日益增长的需求正在推动市场成长。欧洲也紧随其后，这得益于欧盟的「绿色协议」倡议以及旨在推广生物基和循环材料解决方案的严格环境标准。德国、法国和荷兰等国正大力投资绿色化学研发，并推广可再生工业原料。

亚太地区已崛起为快速成长的市场，其中中国、日本和印度主导这一趋势。快速的工业化进程、活性化的建设活动以及不断增强的环境永续性发展意识，为绿色多元醇生产商创造了巨大的机会。该地区各国政府正在推出激励措施，鼓励永续生产，而全球企业也在扩大业务，以充分利用该地区庞大的消费群和成本效益高的生产能力。

市场驱动因素

全球绿色多元醇产业的主要市场驱动力是人们对永续性和减少碳足迹日益增长的重视。随着全球各产业向环保生产製程转型，生物基材料正获得广泛支持。绿色多元醇能够减少温室气体排放和对不可再生石油化学资源的依赖，为永续製造提供了一条切实可行的途径。日益严格的监管压力和消费者对环保材料的偏好正在推动绿色多元醇的普及，尤其是在建筑、汽车和包装行业。此外，催化作用、製程优化和原材料利用方面的进步也提高了绿色多元醇生产的经济效益，使其更具竞争力，能够与传统产品相媲美。

市场限制

市场限制因素主要包括绿色多元醇生产成本上升和原物料价格波动。生物基原料，例如大豆油和蓖麻油，受季节性波动、农业产量不确定性以及来自食品业的市场竞争的影响。这些因素会导致价格不稳定，进而影响绿色多元醇生产商的盈利。此外，从可再生或回收原料转化获得多元醇的过程通常需要专用催化剂、设备和纯化系统，从而推高了整体生产成本。而且，发展中地区基础设施有限和认知不足也限制了绿色多元醇的大规模应用。儘管存在这些挑战，但持续的技术创新和规模经济有望逐步克服成本壁垒，使绿色多元醇在全球更具竞争力。

本报告对全球绿色多元醇市场进行了分析，提供了市场动态和行业趋势、各细分市场的需求预测以及製造商概况等资讯。

目录

第一章 引言

第二章 市场摘要

• 市场演变
• 需求概览
• 产业结构
• 战略问题
• 最终用途趋势
• 成长预测

第三章 经济与能源展望

• 国内生产毛额与人口统计数据
• 货币和财政政策
• 原油产量和价格
• 天然气
• 电费

第四章 终端用户细分市场表现及新冠疫情的影响

• 车
• 家具和床上用品
• 建筑/施工
• 电气和电子
• 其他的

5. 绿色多元醇及市场概览

• 产品描述
• 等级和特点
• 原料
• 製造过程
• 环境问题
• 价值链
• 目的

第六章 市场动态与产业趋势

• 市场动态
  • 司机
  • 抑制因素
  • 机会
  • 任务

第七章 全球绿色多元醇需求分析（按类型和应用划分）（数量和价值）（2018-2034 年）

• 战略问题及新冠疫情的影响
• 需求分析与预测（2018-2034）
  • 要求
  • 需求成长率
  • 驱动因素分析
• 全球绿色多元醇市场（按类型划分）
• 聚醚多元醇
• 聚酯多元醇
• 全球绿色多元醇市场按应用领域划分
• 聚氨酯柔性泡沫
• 聚氨酯硬质泡沫
• CASE（涂料、黏合剂、弹性体、密封剂）
• 其他的

8. 各地区/国家需求分析和市场回顾（数量和价值）（2018-2034 年）

• 战略问题及新冠疫情的影响
• 需求分析与预测（2018-2034）
• 要求
• 需求成长率
• 绿色多元醇市场按类型划分
• 按应用分類的绿色多元醇市场
• 北美洲
• 美国
• 加拿大
• 墨西哥
• 西欧
• 德国
• 法国
• 义大利
• 英国
• 西班牙
• 其他西欧国家
• 中欧/东欧
• 俄罗斯
• 波兰
• 其他中欧和东欧国家
• 亚太地区
• 中国
• 日本
• 印度
• 韩国
• 亚太其他地区
• 拉丁美洲
• 中东和非洲

第九章 定价分析

第十章 评估关键策略问题和机会

• 市场吸引力评估
• 潜在客户与目标市场研究

第十一章 策略建议和提案

第十二章 公司分析

• 绿色多元醇生产商概况/公司分析
  • 基本讯息
  • 总部、主要市场
  • 拥有
  • 企业融资
  • 製造地
  • 全球销售
  • 员工总数
  • 产品系列/服务/解决方案
  • 最新进展
  • 目标公司
• BASF
• Emery Oleochemicals
• Cargill
• Arkema
• Mitsui Chemicals, Inc
• Stepan Company
• Huntsman Corporation
• 其他製造商

第十三章附录

Green Polyols

Green polyols are derived from natural oils such as soy, castor, and palm, or through chemical recycling of waste materials like PET bottles. These bio-based and recycled polyols are key raw materials in the production of polyurethanes, which are widely used in foams, coatings, adhesives, elastomers, and sealants. As industries and governments intensify efforts toward reducing carbon footprints and promoting circular economies, the demand for green polyols has surged across diverse end-use sectors, including construction, automotive, furniture, and packaging. In addition to reducing dependence on fossil fuels, green polyols contribute to lower greenhouse gas emissions, energy efficiency, and improved lifecycle performance of polyurethane products.

Demand by Type

The global green polyols market is segmented into polyether polyols and polyester polyols, both of which play crucial roles in polyurethane manufacturing. Polyether polyols account for a major share of the market due to their versatility, ease of processing, and compatibility with a wide range of applications. These polyols are often derived from renewable sources such as vegetable oils, glycerin, and sugar derivatives, making them suitable for both flexible and rigid polyurethane foams. They offer excellent hydrolytic stability, low viscosity, and resilience, which are key attributes in foam cushioning, automotive interiors, and insulation materials. Polyester polyols, on the other hand, are gaining attention for their superior mechanical strength, chemical resistance, and thermal stability. Derived from natural oil-based acids and alcohols or recycled plastics, these polyols are particularly suitable for high-performance coatings, adhesives, sealants, and elastomers (CASE applications). Increasing research efforts to enhance the bio-content and recyclability of both polyether and polyester polyols are contributing to improved performance and broader adoption across end-use industries.

Demand by Application

Based on applications, the green polyols market is categorized into polyurethane flexible foam, polyurethane rigid foam, CASE (coatings, adhesives, sealants, and elastomers), and others. The polyurethane flexible foam segment represents the largest application segment, driven by high demand from the furniture, automotive, and bedding industries. Flexible foams made from green polyols provide comfort, durability, and reduced environmental impact, aligning with consumer and regulatory shifts toward sustainable products. The polyurethane rigid foam segment is witnessing rapid growth due to its extensive use in insulation materials for construction and refrigeration. Rigid foams derived from bio-based polyols offer enhanced energy efficiency and lower environmental emissions, making them highly attractive for green building projects and sustainable infrastructure development.

The CASE segment-including coatings, adhesives, sealants, and elastomers-is another key area of demand, supported by the construction, packaging, and industrial sectors. Green polyols improve adhesion, elasticity, and surface durability while minimizing volatile organic compound (VOC) emissions. These attributes are increasingly valued in eco-conscious manufacturing and sustainable product development.

Regional Demand Analysis

Regionally, North America and Europe lead the global green polyols market due to strong regulatory support, technological innovation, and widespread adoption of sustainable materials. In North America, the United States is at the forefront of green polyol production and consumption, with a well-established presence of major players such as Cargill, BASF, and Stepan Company. The region's growing demand for energy-efficient building materials and lightweight automotive components continues to fuel market growth. Europe follows closely, driven by the European Union's Green Deal initiatives and stringent environmental standards promoting bio-based and circular material solutions. Countries such as Germany, France, and the Netherlands are investing heavily in green chemistry R&D and promoting renewable feedstocks for industrial use.

The Asia-Pacific region is emerging as the fastest-growing market, led by China, Japan, and India. Rapid industrialization, growing construction activity, and increasing awareness about environmental sustainability are creating significant opportunities for green polyol manufacturers. Governments in the region are introducing incentives for sustainable manufacturing, while global players are expanding their presence to tap into the region's large consumer base and cost-effective production capacities.

Market Driver

A key market driver for the global green polyols industry is the growing emphasis on sustainability and carbon footprint reduction. As industries worldwide transition toward eco-friendly production processes, bio-based materials are gaining significant traction. Green polyols help reduce greenhouse gas emissions and dependence on non-renewable petrochemical resources, offering a viable path toward sustainable manufacturing. The building and construction, automotive, and packaging sectors are particularly driving adoption due to increasing regulatory pressure and consumer preference for environmentally responsible materials. In addition, advancements in catalysis, process optimization, and raw material utilization have improved the economic viability of green polyol production, making it more competitive with conventional options.

Market Restraint

The primary market restraint lies in the higher production costs and raw material price volatility associated with green polyols. Bio-based feedstocks such as soy and castor oils are subject to seasonal fluctuations, agricultural yield uncertainties, and market competition with food industries. These factors can lead to price instability and affect the profitability of green polyol producers. Furthermore, the conversion processes involved in deriving polyols from renewable or recycled sources often require specialized catalysts, equipment, and purification systems, adding to overall production expenses. Limited availability of infrastructure and lower awareness in developing regions also restrict large-scale adoption. Despite these challenges, ongoing technological innovations and economies of scale are expected to gradually overcome cost barriers, enhancing the global competitiveness of green polyols.

Table of Contents

1. Introduction

• Scope
• Market Coverage
  • Types
  • Applications
  • Regions
  • Countries
• Years Considered
  • Historical - 2018 - 2023
  • Base - 2024
  • Forecast Period - 2025 - 2034
• Research Methodology
  • Approach
  • Research Methodology
  • Prismane Consulting Market Models
  • Assumptions & Limitations
  • Abbreviations & Definitions
  • Conversion Factors
  • Data Sources

2. Market Synopsis

• Market Evolution
• Demand Overview
• Industry Structure
• Strategic Issues
• End-use Trends
• Growth Forecast

3. Economic & Energy Outlook

• GDP and Demographics
• Monetary & Fiscal Policies
• Crude Oil Production and prices
• Natural Gas
• Electricity Prices

4. End-use Sector Performance and COVID-19 Impact

• Automotive
• Furniture & Bedding
• Building & Construction
• Electrical & Electronics
• Others

5. Introduction to Green Polyols and Market Overview

• Product Description
• Grades & Properties
• Raw Material
• Manufacturing Process
• Environmental Issues
• Value Chain
• Applications

6. Market Dynamics and Industry Trends

• Market Dynamics
  • Drivers
  • Restraints
  • Opportunities
  • Challenges

7. Global Green Polyols Demand Analysis, By Types, By Applications (Volume, Value) (2018-2034)

• Strategic Issues and COVID-19 Impact
• Demand Analysis and Forecast (2018-2034)
  • Demand
  • Demand Growth Rate (%)
  • Driving Force Analysis
  • Global Green Polyols Market, By Types
• Polyether Polyols
• Polyester Polyols
  • Global Green Polyols Market, By Applications
• Polyurethane Flexible Foam
• Polyurethane Rigid Foam
• CASE (Coatings, Adhesives, Elastomer and Sealants)
• Others

8. Demand Analysis and Market Review, By Region, By Country (Volume, Value), (2018-2034)

• Strategic Issues and COVID-19 Impact
• Demand Analysis and Forecast (2018-2034)
• Demand
• Demand Growth Rate (%)
• Green Polyols Market, By Types
• Green Polyols Market, By Applications

Note: Demand Analysis has been provided for all major Regions / Countries as mentioned below. The demand (consumption) split by types and applications have been provided for each of the countries / regions in Volume (Kilo tons) and Value (USD Million).

• North America
• USA
• Canada
• Mexico
• Western Europe
• Germany
• France
• Italy
• United Kingdom
• Spain
• Rest of Western Europe
• Central & Eastern Europe
• Russia
• Poland
• Rest of Central & Eastern Europe
• Asia-Pacific
• China
• Japan
• India
• South Korea
• Rest of Asia-Pacific
• Central & South America
• Middle East & Africa

Note: CAGR will be calculated for all types and applications to arrive at the regional / global demand growth for the forecast period (2025 - 2034)

9. Pricing Analysis

10. Key Strategic Issues and Business Opportunity Assessment

• Market Attractiveness Assessment
• Prospective & Target Market Study

11. Strategic Recommendation & Suggestions

12. Company Analysis

• Green Polyols Manufacturers Profiles/ Company Analysis
  • Basic Details
  • Headquarter, Key Markets
  • Ownership
  • Company Financial
  • Manufacturing Bases
  • Global Turnover
  • Total Employee
  • Product Portfolio / Services / Solutions
  • Recent Developments
  • Companies Covered -
• BASF
• Emery Oleochemicals
• Cargill
• Arkema
• Mitsui Chemicals, Inc
• Stepan Company
• Huntsman Corporation
• Other Manufacturers

Note: This section includes company information, company financials, manufacturing bases and operating regions. Company financials have been mentioned only for those companies where financials were available in SEC Filings, annual reports, or company websites. All the reported financials in this report are in U.S. Dollars. Financials reported in other currencies have been converted using average currency conversion rates. Company profiles may include manufacturers, suppliers, and distributors.

13. Appendices

• Demand - Regions
• Demand - Countries