![]() |
市场调查报告书
商品编码
1384872
异丁烯全球市场规模、份额、产业趋势分析报告:按产品、应用、地区分類的展望与预测,2023-2030年Global Isobutene Market Size, Share & Industry Trends Analysis Report By Product (Methyl tert-butyl ether (MTBE), and Ethyl tert-butyl ether (ETBE)), By Application, By Regional Outlook and Forecast, 2023 - 2030 |
预计到 2030 年,异丁烯市场规模将达到 354 亿美元,预测期内年复合成长率为 4.4%。 2022年市场规模将达18,952.7千吨,成长2.4%(2019-2022年)。
然而,异丁烯的生产和处理可能会对工人造成风险,包括接触有毒化学物质、火灾危险和爆炸危险。遵守安全标准并确保员工的健康是我们的首要任务。这通常需要在安全措施、培训和设备方面进行大量投资。满足健康和安全法规因司法管辖区而异,既复杂又昂贵。异丁烯市场的公司必须了解并遵守许多化学品处理、运输和紧急时应对计画法规。如果发生事故或化学品洩漏,异丁烯生产商必须制定健全的紧急应变计画。必须为各种突发事件做好准备并确保与地方当局的有效沟通。准备此类评估并解决发现的任何不合规问题可能很困难。由于一些健康和安全问题,未来几年市场成长可能会下降。
产品展望
产品分为甲基叔丁基醚(MTBE)和乙基叔丁基醚(ETBE)。 2022 年,乙基叔丁基醚 (ETBE) 领域在市场中占据了重要的收益占有率。 ETBE 是一种主要从异丁烯和乙醇中提取的生物燃料。其辛烷值高、蒸气压低、沸点低,是合成汽油的理想组成。这使得精製能够满足生物成分和辛烷值的要求。使用石脑油也使我们能够满足环境标准并应对汽油市场的变化。化合物可用于将石脑油改进为汽油,并将低辛烷值改进为高辛烷值。在预测期内,由于多种因素,包括人们日益认识到提高汽车性能的重要性以及要求消费者使用环保燃料的更严格法规,对ETBE 的需求将增加,预计这将受到全球需求不断增长的推动。
按用途分類的展望
依应用划分,市场分为汽车、航太、抗氧化剂、製药等。 2022年,汽车业占市场收益占有率最高。异丁烯合成橡胶具有汽车应用特有的特性。这些特性包括最小的气体和液体渗透性、耐化学性和出色的阻尼特性。当这些合成橡胶被卤化时,它们的热效率也得到改善。与异丁烯-对甲基苯乙烯一样,溴化异丁烯-对甲基苯乙烯也具有固有的抗臭氧性。这些特性使该材料在动态部件、电缆和轮胎内衬等汽车应用中具有优势。此外,其化学特性对其在汽车燃料中作为抗爆剂的广泛应用做出了重大贡献。
区域展望
从区域来看,我们对北美、欧洲、亚太地区和拉丁美洲/中东/非洲的市场进行了分析。 2022年,北美地区的收益占有率最高。异丁烯是生产丁基橡胶的关键原料,丁基橡胶有多种应用,包括轮胎製造。北美汽车的成长和对高品质轮胎的需求推动了对丁基橡胶以及异丁烯的需求。北美是该行业的主要贡献者,因为近年来小客车和汽车支出增加、人均可可支配所得增加以及製造业强劲且持续的成长。取决于您在做什么。
The Global Isobutene Market size is expected to reach $35.4 billion by 2030, rising at a market growth of 4.4% CAGR during the forecast period. In the year 2022, the market attained a volume of 18,952.7 Kilo Tonnes, experiencing a growth of 2.4% (2019-2022).
Isobutene is a key raw material in producing certain antioxidants, particularly hindered phenols. Thus, the antioxidants segment would acquire 1/4th share of the market by 2030. Hindered phenols are a class of chemical compounds widely used as antioxidants in plastics, rubber, and other polymer materials. In the polymer industry, isobutene-derived antioxidants are added to plastic and rubber formulations to prevent or slow oxidation. This helps prevent the degradation of the material, including color changes, embrittlement, and loss of physical properties, which can occur when these materials are exposed to oxygen, heat, and UV radiation. Isobutene plays a crucial role in developing antioxidants that help preserve the integrity and longevity of a wide range of materials and products, contributing to their durability and performance. Some of the factors impacting the market are increasing technological advances and techniques, growing adoption of renewable isobutene, and growing health and safety regulations.
Technological innovations have led to more efficient methods of isobutene production. These innovations can reduce energy consumption, waste generation, and production costs, making isobutene more economically viable and increasing its availability in the market. Advancements in technology have enabled the use of alternative feedstocks for isobutene production. These feedstocks can include biomass, agricultural residues, and other sustainable sources, reducing the reliance on traditional fossil fuels and contributing to an additional sustainable industry. Developing new catalysts and catalyst systems has improved the selectivity and yield of isobutene in production processes. This results in higher product quality and increased production efficiency. Innovative methods, such as metathesis, have been developing to produce isobutene efficiently. Additionally, Renewable isobutene is typically produced from biomass sources, such as agricultural residues, forestry waste, or dedicated energy crops. This renewable feedstock reduces the environmental impact of traditional isobutene production, which relies on fossil fuels. As sustainability becomes a more prominent concern, the demand for eco-friendly chemicals like renewable isobutene grows. The production of renewable isobutene can result in lower greenhouse gas emissions compared to traditional petrochemical-based isobutene production. The availability of renewable isobutene can open up new markets and applications, especially in industries where sustainable materials are highly valued. It addresses environmental concerns, supports renewable energy sources, and offers a more responsible alternative to traditional petrochemical-based isobutene, contributing to the market's growth and long-term viability.
However, Isobutene production and handling can pose risks to workers, such as exposure to toxic chemicals, fire hazards, and explosion risks. Complying with safety standards and ensuring the well-being of employees is a top priority. This often requires significant investments in safety measures, training, and equipment. Meeting health and safety regulations can vary by jurisdiction and be complex and costly. Companies in the isobutene market must navigate and adhere to many chemical handling, transportation, and emergency response planning rules. In case of accidents or chemical releases, isobutene producers must have robust emergency response plans. Preparing for various contingencies and ensuring effective communication with local authorities is essential. Preparing for these assessments and addressing any identified non-compliance issues can be challenging. Due to several health and safety concerns, the market growth will decline in the coming years.
Product Outlook
On the basis of the product, the market is segmented into methyl tert-butyl ether (MTBE) and ethyl tert-butyl ether (ETBE). The ethyl tert-butyl ether (ETBE) segment acquired a substantial revenue share in the market in 2022. ETBE is a biofuel derived mainly from isobutylene and ethanol. Due to its high-octane content, low pressure of vapor, and low boiling point, it is an ideal component for gasoline combining. This allows refiners to meet bio-component and octane requirements. Its use also enables companies to meet environmental standards and adapt to alterations in the gasoline market. Using compounds, naphtha is upgraded to gasoline, or lower octane grades are improved to higher grades. Over the forecast period, the demand for ETBE is anticipated to be driven by an increasing worldwide need for higher-quality gasoline due to various factors, such as a greater awareness of the importance of vehicle performance enhancement and stricter regulatory mandates requiring consumers to use eco-friendly fuel.
Application Outlook
Based on application, the market is fragmented into automotive, aerospace, antioxidants, pharmaceuticals, and others. In 2022, the automotive segment held the highest revenue share in the market. Isobutylene-based elastomers have properties exclusive to automotive applications. These characteristics include minimal gas and liquid permeability, chemical resistance, and superior damping. When these elastomers are halogenated, their thermal efficacy also improves. Similar to isobutylene-co-para-methylstyrene, brominated isobutylene-co-para-methylstyrene has inherent ozone resistance. These characteristics give the material an advantage in automotive applications, including dynamic components, cables, and tire inner liners. In addition, its chemical properties have contributed significantly to its widespread use as an anti-knock agent in automotive fuel.
Regional Outlook
Region-wise, the market is analyzed across North America, Europe, Asia Pacific, and LAMEA. In 2022, the North America region registered the highest revenue share in the market. Isobutene is a key raw material in the production of butyl rubber, which is used in various applications, including tire manufacturing. The growing automotive industry in North America and the demand for high-quality tires drove the need for butyl rubber and, consequently, isobutene. The vital contribution of North America to this industry is owing to higher spending on passenger cars and light vehicles, increasing per capita disposable income, and strong and sustained manufacturing sector growth in the region in recent years.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include BASF SE, Evonik Industries AG (RAG-Stiftung), Exxon Mobil Corporation, Sumitomo Chemical Co., Ltd., Global Bioenergies, Weifang Binhai Petro-Chem Co., Ltd (Tiande Chemical Holdings Co., LTD), Honeywell International, Inc., LyondellBasell Industries Holdings B.V., Linde PLC, and China Petrochemical Corporation (Sinopec Group).
Strategies Deployed in Isobutene Market
Jul-2023: Sumitomo Chemical Co., Ltd. partnered with Ginkgo Bioworks, an American biotech company. Under this partnership, both companies aimed to allow the mass production of functional chemicals through fermentation.
Jun-2023: Exxon Mobil Corporation partnered with Axens, a French company in the energy and petrochemical sector. This partnership aimed to produce high-quality isobutylene using MTBE Decomposition Technology which would be cost-effective.
Mar-2023: Global Bioenergies introduced Isonaturane 16, a twelve-carbon molecule obtained by assembling three naturally sourced isobutene molecules. This launch aimed to begin to market the new naturally sourced ingredient widely used in cosmetics.
Nov-2022: Global Bioenergies joined hands with Shell, a global group of energy and petrochemical companies. Under this collaboration, both companies aimed to produce high-octane components for the development of low-carbon road fuels.
Apr-2022: BASF partnered with SINOPEC, a Chinese oil and gas enterprise based in Beijing. This partnership aimed to construct a new tert-butyl acrylate plant which would support the growing demand from various industries in the Chinese market.
Mar-2021: BASF joined hands with OMV, an integrated oil, gas, and petrochemical company which is headquartered in Vienna, Austria. Under this collaboration, both companies aimed to launch a codeveloped ISO C4 plant, responsible for producing high-quality isobutene.
Nov-2020: BASF joined hands with Linde plc, a chemical company founded in Germany. Under this collaboration, both companies aimed to provide licensing and engineering and/or bundled services for engineering, procurement, and construction (EPC) for BASF's superior technology allowing the production of HPIB from refinery and steam cracker C4 streams.
Apr-2020: Sumitomo Chemical Co., Ltd. took over the group companies of Nufarm Limited, an Australian agricultural chemical company. This acquisition aimed to achieve further growth in the Sumitomo Chemical Health & Crop Sciences Sector.
By Product (Volume, Kilo Tonnes, USD Million, 2019-2030)
By Application (Volume, Kilo Tonnes, USD Million, 2019-2030)
By Geography (Volume, Kilo Tonnes, USD Million, 2019-2030)
Companies Profiled
Unique Offerings from KBV Research