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市场调查报告书
商品编码
1558338
2030 年琥珀酸市场预测:按类型、应用程式、最终用户和地区分類的全球分析Succinic Acid Market Forecasts to 2030 - Global Analysis By Type (Bio-based Succinic Acid and Petro-based Succinic Acid), Application, End User and By Geography |
根据 Stratistics MRC 的数据,2024 年全球琥珀酸市场规模为 3.106 亿美元,预计在预测期内将以 11.7% 的复合年增长率增长,到 2030 年达到 6.033 亿美元。
琥珀酸是无色结晶质固体,熔点185-187°C。琥珀酸主要以阴离子琥珀酸盐的形式存在,在克雷布斯循环中发挥重要作用,克雷布斯循环是生物体能量产生的重要代谢途径。作为二质子酸,琥珀酸可以贡献两个质子并进行两次连续的去质子化反应,pKa值为4.3和5.6。琥珀酸源自琥珀,用作合成多种化学品的前体,包括聚合物、树脂和药物。
根据欧洲生物塑胶协会的数据,2021 年,包装占全球生质塑胶市场的 48%(115 万吨),并且仍然是这些材料的主要市场类别。
对生物基化学品的需求不断增长
由于生物基琥珀酸对环境友善且对环境的影响较小,因此与石化衍生的琥珀酸相比,人们对生物基琥珀酸的偏好日益增长。这种转变是由消费者对永续产品的需求和更严格的法规所推动的。生物基琥珀酸正在成为生物生物分解性塑胶生产中化学品的替代品,利用永续材料的趋势。
商业化挑战
生物基琥珀酸产量低且分离过程集中密集,使得製造商很难以有竞争力的价格生产它,从而限制了其应用。因此,主要的生物基生产工厂已关闭,导致需求减少和设施因高成本和技术挑战而关闭,阻碍了市场成长。
生物技术的进步
生物技术改进了生产生物琥珀酸的发酵过程。微生物菌株和发酵条件的创新提高了产量和效率,使生物基琥珀酸与石化替代品相比具有高度竞争力。这项进步至关重要,因为它降低了生产成本并提高了生物琥珀酸在各种应用中的可行性。
来自化石替代品的竞争
化石基琥珀酸的可负担性可能会阻止工业界采用生物基替代品,从而减慢永续产品的采用速度。这种不情愿会抑制生物基生产技术的创新和投资。琥珀酸市场面临供应过剩问题,需求低迷的行业,尤其是汽车和消费品,推动了市场成长。
COVID-19 大流行对琥珀酸市场产生了重大影响,扰乱了供应链并减少了汽车、消费品和药品等关键行业的需求。由于工厂关闭和生产因封锁和旅行限製而停止,製造商的销售和收益下降。然而,随着该行业逐渐重新开放,预计对琥珀酸,尤其是生物基产品的需求将回升。
生物基琥珀酸领域预计将在预测期内成为最大的领域
由于人们对环境问题的认识不断提高以及向永续性的转变正在推动对生物基琥珀酸的需求,预计生物基琥珀酸将在预测期内达到高峰。随着消费者和工业界寻求石化产品的环保替代品,生物琥珀酸在药品、食品、个人护理和生质塑胶等各种应用中越来越受欢迎。
风味增强剂领域预计在预测期内复合年增长率最高
由于其无毒和抗菌特性,风味增强剂领域预计在预测期内复合年增长率最高。这符合健康趋势,并支持生物基琥珀酸作为永续选择的成长。製造商可以使用琥珀酸作为风味增强剂来使他们的产品脱颖而出并吸引寻求创新食品选择的消费者。
预计欧洲在预测期内将占据最大的市场占有率。在欧洲,由于消费者越来越偏好生物基产品作为替代品,预计产品需求将停滞不前。在欧洲,琥珀酸广泛用于个人护理和化妆品行业。德国和英国不同地区的飞机製造商的存在带动了航太业的成长。
预计北美地区在预测期内的复合年增长率最高,因为该地区有各种建设和扩大新生产设施的机会。透过可再生原料的微生物转化生产琥珀酸作为石油短缺时期实现永续发展的一种手段在北美引起了人们的兴趣。
According to Stratistics MRC, the Global Succinic Acid Market is accounted for $310.6 million in 2024 and is expected to reach $603.3 million by 2030 growing at a CAGR of 11.7% during the forecast period. Succinic acid is a colorless, crystalline solid with a melting point of 185-187°C. It is primarily found in its anion, succinate, which plays a crucial role in the Krebs cycle, a key metabolic pathway for energy production in living organisms. As a diprotic acid, it can donate two protons and undergo two successive deprotonation reactions with pKa values of 4.3 and 5.6. Succinic acid is derived from amber and is used as a precursor in the synthesis of various chemicals, including polymers, resins, and pharmaceuticals
According to European Bioplastics, with 48% (1.15 million tonnes) of the global market for bioplastics in 2021, packaging will continue to be the leading market category for these materials.
Growing demand for bio-based chemicals
The preference for bio-based succinic acid over petrochemical-derived succinic acid is growing due to its eco-friendly nature and reduced environmental impact. This shift is driven by consumer demand for sustainable products and stricter regulations. Bio-based succinic acid is emerging as an alternative to chemicals in biodegradable plastics production, leveraging the trend towards sustainable materials.
Commercialization challenges
The adoption of bio-based succinic acid has been limited due to its low yields and cost-intensive separation processes, making it difficult for manufacturers to produce at competitive prices. This has led to the closure of major bio-based production plants, resulting in reduced demand and the closure of facilities due to the high costs and technical challenges which impedes the market growth.
Advancements in biotechnology
Biotechnology has led to improved fermentation processes for producing bio-succinic acid. Innovations in microbial strains and fermentation conditions have increased yields and efficiency, making bio-based succinic acid more competitive with petrochemical alternatives. This advancement is crucial as it reduces production costs and enhances the viability of bio-succinic acid in various applications.
Competition from fossil-based alternatives
The affordability of fossil-based succinic acid can deter industries from adopting bio-based alternatives, leading to slower adoption rates for sustainable products. This reluctance can stifle innovation and investment in bio-based production technologies. The market for succinic acid is experiencing oversupply issues, particularly in low-demand sectors like automotive and consumer products drives the growth of the market.
The COVID-19 pandemic significantly impacted the succinic acid market, disrupting supply chains and reducing demand across key sectors such as automotive, consumer products, and pharmaceuticals. Lockdowns and movement restrictions led to factory closures and halted production, resulting in decreased sales and revenue for manufacturers. However, as industries gradually reopened, a resurgence in demand for succinic acid, particularly bio-based variants, is anticipated.
The bio-based succinic acid segment is expected to be the largest during the forecast period
The bio-based succinic acid is expected to be the largest during the forecast period owing to the rising awareness of environmental issues and the shift towards sustainability are driving demand for bio-based succinic acid. As consumers and industries seek eco-friendly alternatives to petrochemical products, bio-succinic acid is gaining traction across various applications, including pharmaceuticals, food, personal care, and bioplastics.
The flavor enhancer segment is expected to have the highest CAGR during the forecast period
The flavor enhancer segment is expected to have the highest CAGR during the forecast period due to its non-toxic and antimicrobial properties. This aligns with health trends and supports the growth of bio-based succinic acid, a sustainable option. Manufacturers can differentiate their products by using succinic acid as a flavor enhancer, attracting consumers seeking innovative food options.
Europe is projected to hold the largest market share during the forecast period the rising healthcare and agricultural sectors in the region. Europe is expected to witness a stagnant product demand due to the growing preference for bio-based products among consumers as a drop-in replacement. In Europe, succinic acid is extensively used in the personal care & cosmetics industry. The strong presence of aircraft manufacturers in various parts of Germany and the U.K. has led to the growth of the aerospace sector.
North America is projected to witness the highest CAGR over the forecast period attributed to the presence of various opportunities to build and expand new production facilities in the region. The production of succinic acid from the microbial conversion of renewable feedstock has piqued interest in North America as a means to achieve sustainable development in this era of petroleum scarcity.
Key players in the market
Some of the key players in Succinic Acid market include Anhui Sunsing Chemicals, BASF SE, Corbion N.V., Dow Chemicals, Ernesto Ventos S.A., Gadiv Petrochemical Industries Ltd, GC Innovation America, Kawasaki Kasei Chemicals Ltd, Linyi Lixing Chemical Co. Ltd, Mitsubishi Chemical Corporation, Myriant, Nippon Shokubai, Novomer Inc, Parchem, Reverdia, Succinity Gmbh and The Chemical Company
In September 2024, Dow announced the introduction of its first bio-circular product* for the flooring industry, an addition to the ENGAGE(TM) REN Polyolefin Elastomers (POE) product portfolio. The flooring innovation* will be used in the manufacturing of carpet tile backing to provide dimensional stability and adhesion support for fibers.
In July 2024, BASF has introduced Haptex(R) 4.0, sustainable synthetic leather that aims to address environmental concerns associated with traditional synthetic leathers. This innovative product is designed to meet the growing demand for eco-friendly materials in the fashion and automotive industries.
In July 2024, BASF and 'Pragati' extends full transparency & traceability to bio-based footwear solutions with SuCCESS code. This initiative focuses on enhancing sustainability within the footwear industry by ensuring that castor oil and its derivatives