亚太地区环氧丙烷市场：2023 年

2022年，世界经济将受到新型冠状病毒病（COVID-19）蔓延、乌克兰战争及其随之而来的粮食危机、能源危机、通膨飙升、债务情势趋紧以及气候变迁的影响。紧急状态等一系列相互关联的重大事件严重损害了全球经济。 2023年，将再次出现放缓趋势。 亚太地区整体处于疫后復苏阶段，但復苏缓慢。 此外，聚醚多元醇和丙二醇的需求未达预期，供需失衡扩大，下游主导地位进一步强化。 PO（氯化丙烯）价格跌至万元/吨水平，波动幅度收窄，但获利能力明显下降。 随着《产业结构调整指导目录》的实施，预计2025年底我国将逐步淘汰氯醇法的使用。

本报告分析了亚太地区 PO（环氧丙烷）市场，研究了全球、区域和每个国家的供需模式、价格趋势、成本和利润结构、成长潜力、投资环境等。I'我在这里。

目录

第一章 PO（环氧丙烷）概述

• PO产业链
• PO製造流程及技术开发
  • 氯醇工艺
  • 共氧化工艺
  • HPPO工艺
  • 每种工艺的优点和缺点

第二章世界 PO 市场概况

• 全球领先的 PO 供应商
  • DOW
  • Sadara
  • LyondellBasell
  • Petro Rabigh
• 全球PO产能及需求回顾（2019-2023年）
• 世界 PO 产能与需求前景（2024-2028 年）

第三章亚太 PO 市场分析

• 亚太地区 PO 产能回顾与展望
• 亚太地区采购订单需求回顾与展望

第四章中国PO市场分析

• 中国PO及其主要原物料价格走势（2023年）
  • 丙烯
  • 液氯
  • PO
• 中国PO生产成本与利润（2019-2023年）
• 中国PO供应市场（2019-2023年）
  • 中国 PO 供应商
  • 中国PO产能及产量分析
  • 中国主要PO供应商市场占有率及产业集中度
• 中国PO进出口状况（2019-2023年）
  • 中国 PO 进出口政策及贸易环境
  • 中国PO进出口状况（2019-2023年）
• 中国PO消费市场（2023年）
  • 中国的环氧丙烷消费量：依地区划分
  • 中国的环氧丙烷消费量：依产业划分
• 中国 PO 市场预测（2024-2028 年）
  • 中国PO製程发展趋势（2024-2028）
  • 中国环氧丙烷供应预测（2024-2028年）：兴建中/规划项目清单
  • 中国PO需求预测（2024-2028年）
  • 中国PO进出口预测（2024-2028年）
  • 中国采购订单价格预测（2024-2026）

第五章东南亚、印度PO市场分析

• 东南亚和印度主要 PO 供应商
  • PTTGC
  • Shell
• 东南亚及印度PO产能及需求回顾（2019-2023年）
• 东南亚和印度的 PO 产能与需求展望（2024 年）

第六章日韩PO市场分析

• 日本和韩国主要 PO 供应商
  • S-Oil
  • SKC
  • Sumitomo
• 日本、韩国PO产能及需求回顾（2019-2023年）
• 日本和韩国 PO 产能与需求展望（2024 年）

In 2022, a series of interrelated major events, including the COVID-19 pandemic, the war in Ukraine and the resulting food and energy crisis, soaring inflation, tightening debt conditions, and climate emergencies, resulted in a severe blow to the global economy. The global economy has been seeing a slowdown in 2023 since the last year. The Asia-Pacific region is generally in a post-pandemic recovery phase, but the recovery is slow. Dow Chemical and Shell declared force majeure on the supply of propylene oxide. Zhejiang Petroleum & Chemical, Satellite Chemical, and Jincheng Petrochemical successfully started their new production facilities. However, the demand from polyether polyols and propylene glycol has not met expectations,amplifying the supply-demand imbalance and further tilting the dominance downstream. The price of propylene oxide has fallen to the level of CNY 10,000/tonne, with narrower fluctuations, while profitability has significantly declined. With the implementation of "Industrial Structure Adjustment Guidance Catalogue", the use of chlorohydrin process is expected to be phased out in China by the end of 2025. Asia Pacific PO Market Report 2023, prepared by PUdaily, focuses on the Asia-Pacific market, providing in-depth analysis of the supply-demand pattern, price trends, costs and profits, potential growth, industry opportunities and potential threats, investment environment, and more. This report will assist users in targeting the ever-changing submarkets in the coming years, helping stakeholders make informed decisions and promote their development.

Table of Content

Chapter I Introduction to PO

• 1.1 PO Industry Chain
• 1.2 PO Production Process and Technology Development
  • 1.2.1 Chlorohydrin Process
  • 1.2.2 Cooxidation Process
  • 1.2.3 HPPO Process
  • 1.2.4 Advantages and Disadvantages of Different Processe

Chapter II An Overview of Global PO Market

• 2.1 Global Major PO Suppliers
  • 2.1.1 DOW
  • 2.1.2 Sadara
  • 2.1.3 LyondellBasell
  • 2.1.4 Petro Rabigh
• 2.2 Global PO Capacity and Demand Review 2019-2023
• 2.3 Global PO Capacity and Demand Outlook 2024-2028

Chapter III Asia Pacific PO Market Analysis

• 3.1 Asia Pacific PO Capacity Review and Outlook
• 3.2 Asia Pacific PO Demand Review and Outlook

Chapter IV China PO Market Analysis

• 4.1 China PO and Its Main Feedstocks Price Trends in 2023
  • 4.1.1 Propylene
  • 4.1.2 Liquid Chlorine
  • 4.1.3 PO
• 4.2 China PO Production Cost and Profit 2019-2023
• 4.3 China PO Supply Market 2019-2023
  • 4.3.1 China PO Suppliers
  • 4.3.2 China PO Capacity and Output Analysis
  • 4.3.3 China Major PO Suppliers' Market Share and Industry Concentration
• 4.4 China PO Imports and Exports 2019-2023
  • 4.4.1 China PO Import/Export Policy and Trade Environment
  • 4.4.3 China PO Imports and Exports 2019-2023
• 4.5 China PO Consumption Market 2023
  • 4.5.1 China PO Consumption by Region
  • 4.5.2 China PO Consumption by Industry
    • 4.5.2.1 Polyether Polyol
    • 4.5.2.2 Propylene Glycol
    • 4.5.2.3 Propanediol Ethers
    • 4.5.2.4 Others
• 4.6 China PO Market Forecast 2024-2028
  • 4.6.1 China PO Process Development Trend 2024-2028
  • 4.6.2 China PO Supply Forecast 2024-2028 (List of Projects under Construction and Proposed)
  • 4.6.3 China PO Demand Forecast 2024-2028
  • 4.6.4 China PO Import&Export Forecast 2024-2028
  • 4.6.5 China PO Price Forecast 2024-2026

Chapter V Southeast Asia and India PO Market Analysis

• 5.1 Major PO Suppliers in Southeast Asia and India
  • 5.1.1 PTTGC
  • 5.1.2 Shell
• 5.2 Southeast Asia and India PO Capacity and Demand Review 2019-2023
• 5.3 Southeast Asia and India PO Capacity and Demand Outlook 2024

Chapter VI Japan and South Korea PO Market Analysis

• 6.1 Major PO Suppliers in Japan and South Korea
  • 6.1.1 S-Oil
  • 6.1.2 SKC
  • 6.1.3 Sumitomo
• 6.2 Japan and South Korea PO Capacity and Demand Review 2019-2023
• 6.3 Japan and South Korea PO Capacity and Demand Outlook 2024

List of Tables

• Table 1 PO Basic information
• Table 2 Comparison of different PO production processes
• Table 3 Global PO projects under construction and proposed 2024-2028
• Table 4 Breakdown of the costs for PO produced using chlorohydrination process in 2023
• Table 5 Average price, cost and net profit for PO in China 2019-2023 (take PO produced using chlorohydrination process as an example)
• Table 6 Breakdown of the costs for PO produced using HPPO process in 2023 (in CNY/tonne)
• Table 7 Breakdown of the costs for PO produced using PO/SM process in 2023 (in CNY/tonne)
• Table 8 Operation of Wudi Xinyue Chemical's PO plants in 2023 (in 10kt)
• Table 9 Operation of CNOOC and Shell Petrochemicals Company's PO plants in 2023 (in 10kt)
• Table 10 Operation of Jishen Chemical Industry's PO plant in 2023 (in 10kt)
• Table 11 Operation of Ningbo ZRCC Lyondell Chemical's PO plants in 2023 (in 10kt)
• Table 12 Operation of Befar Group's PO plants in 2023 (in 10kt)
• Table 13 Operation of Wanhua Chemical's PO plants in 2023 (in 10kt)
• Table 14 Operation of Shandong Sanyue Chemical's PO plants in 2023 (in 10kt)
• Table 15 Operation of Nanjing Jinling Huntsman New Material's PO facility in 2023 (in 10kt)
• Table 16 Operation of Shandong Jinling Chemical's PO facility in 2023 (in 10kt)
• Table 17 Operation of Jiangsu Jiahong New Material's PO facility in 2023 (in 10kt)
• Table 18 Operation of Tianjin Bohai Chemical Development's PO facility in 2023 (in 10kt)
• Table 19 Operation of Hongbaoli's PO plants in 2023 (in 10kt)
• Table 20 Operation of Hangjin Technology's PO plants in 2023 (in 10kt)
• Table 21 Operation of Sinochem Quanzhou Petrochemical's PO plant in 2023 (in 10kt)
• Table 22 Operation of Shandong Daze Chemical's PO plants in 2023 (in 10kt)
• Table 23 Operation of Sinopec Changling Refining and Chemical's PO facility in 2023 (in 10kt)
• Table 24 Operation of Dongying Huatai Chemical's PO plant in 2023 (in 10kt)
• Table 25 Operation of Shandong Shida Shenghua Chemical's PO plant in 2023 (in 10kt)
• Table 26 peration of Zhonghai Fine Chemical's PO plants in 2023 (in 10kt)
• Table 27 China's PO capacity and output in 2023
• Table 28 Basic information on PO imports and exports
• Table 29 PO-related contents in the Announcement
• Table 30 China's apparent consumption of PO 2019-2023 (in 10kt)
• Table 31 Polyether polyols prices, supply and demand in China 2019-2023 (in CNY/tonne; 10kt)
• Table 32 Different manufacturers' polyether polyols capacities and output in 2023 (in 10kt/a)
• Table 33 Propylene glycol prices, supply and demand in China 2019-2023 (in CNY/tonne; 10kt)
• Table 34 PG manufacturers' capacities and output in China in 2023
• Table 35 PGME prices, supply and demand in China 2019-2023 (in CNY/tonne; 10kt)
• Table 36 Different PGME manufacturers' capacities and output in China in 2023 (in 10kt)

List of Figures

Fig. 1 PO value chain

Fig. 2 Different processes shares of the total PO production in 2023

Fig. 3 Process of producing PO using chlorohydrination

Fig. 4 Process of producing PO using cooxidation

Fig. 5 Process of producing PO using PO/MTBE

Fig. 6 Process of producing PO using CHP

Fig. 7 Process of producing PO using HPPO process (the refining of methanol is omitted)

Fig. 8 Distribution of Dow's global PO capacities

Fig. 9 Distribution of LyondellBasell's global PO capacities

Fig. 10 Global PO capacity and consumption 2019-2023 (in 10kt, %)

Fig. 11 PO capacity and consumption in Asia-Pacific for 2019-2023 (in 10kt, %)

Fig. 12 Forecast of PO capacity and consumption in Asia-Pacific for 2024-2028 (in 10kt, %)

Fig. 13 Movement of propylene prices in 2023 (in CNY/tonne)

Fig. 14 Movement of liquid chlorine prices in 2023 (in CNY/tonne)

Fig. 15 Movement of PO prices in 2023 (in CNY/tonne)

Fig. 16 China's annual PO capacities and output 2019-2023 (in 10kt)

Fig. 17 Volumes of China's PO imports and exports 2019-2023 (in 10kt)

Fig. 18 Different downstream sectors' shares of PO consumption in 2023 (%)

Fig. 19 Different downstream sectors' shares of the total polyether polyols consumption

Fig. 20 Different downstream industries' shares of the total PG consumption in China in 2023

Fig. 21 Different downstream industries' shares of the total PGME consumption in China in 2023

Fig. 22 Types of flame retardant

Fig. 23 Estimated PO capacities and consumption in China 2024-2028

Fig. 24 Annual PO capacities and consumption in Southeast Asia and India 2019-2023 (in 10kt)

Fig. 25 Annual PO capacities and consumption in Japan and South Korea 2019-2023 (in 10kt)