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市场调查报告书
商品编码
1733653
2026-2032 年丙烯醛市场(按生产方法、应用、最终用户和地区划分)Acrolein Market By Production Method, Application, End-User, Region for 2026-2032 |
终端产业对丙烯醛的需求日益增长,丙烯醛是生产戊二醛、甘油和丙烯酸等必需化合物的前驱物。这些化合物广泛应用于化学製造、医疗保健和农业,使丙烯醛成为重要的原料。这些最终产品的需求不断增长,尤其是在工业和医疗保健领域,将显着推动丙烯醛市场的发展。因此,终端产业对丙烯醛作为前驱物的需求不断增长,将推动市场规模的成长,到2024年将突破49亿美元,到2032年将达到79.2亿美元。
水处理製程中对聚丙烯醛的需求正在上升。聚丙烯醛是丙烯醛的衍生物,广泛用作水处理中的凝聚剂和混凝剂,对于确保工业和市政用水的安全清洁至关重要。随着全球对水资源短缺和污染问题的日益担忧,对有效水处理解决方案的需求,以及随之而来的丙烯醛的需求预计将大幅增长。因此,水处理过程中对聚丙烯醛日益增长的需求将推动市场在2026年至2032年间以6.2%的复合年增长率成长。
丙烯醛市场定义/概述
丙烯醛是无色或黄色液体,具有强烈的刺激性气味,会刺激喉咙。它高度易燃且易于聚合,因此操作起来很危险。丙烯醛主要透过两种製程生产:丙烯的催化氧化和甘油的脱水。丙烯是一种重要的石化原料,经过催化氧化可生成丙烯醛,而甘油是另一种石化原料,可透过不同的製造路线生产相同的化合物。丙烯醛具有多种工业和化学用途。丙烯醛是合成各种化学品的重要中间体,包括丙烯酸,而丙烯酸的应用范围广泛,包括黏合剂、被覆剂和纺织品。丙烯醛在甲硫胺酸的生产中也起着重要作用,蛋氨酸是动物饲料中使用的必需氨基酸。
除了在化学合成中的作用外,丙烯醛在水处理和农业领域也有实际应用。丙烯醛可用作除生物剂,消除水处理厂、油井和各种工业过程中的细菌和其他微生物。丙烯醛因其抑制微生物生长和藻类的能力而受到重视,有助于维持清洁安全的水环境。在农业领域,丙烯醛可用于抑制有害植物和藻类的生长,从而提高作物产量并管理水系统。丙烯醛的生产分为两个步骤。首先,从反应产物中回收丙烯醛;然后透过丙烯的催化氧化合成丙烯醛。此方法可确保最终产品的高纯度和效力。
丙烯醛在杀虫剂和除草剂中的使用量不断增加,也在市场扩张中发挥关键作用。丙烯醛是生产农药的关键成分,而农药在现代农业实践中不可或缺。随着全球人口持续成长,提高农业生产力以确保粮食安全的需求也日益增长。这种需求推动了丙烯醛市场的成长,尤其是在农业部门规模较大的地区。造纸和纸浆产业对聚丙烯醛的需求正在增加,因为它可用作湿强树脂,提高纸製品的耐久性和强度。随着对纸和纸製品的需求持续增长,尤其是在包装和卫生应用领域,预计丙烯醛市场将受益于这些行业对聚丙烯醛日益增长的需求。
聚丙烯醛和聚丙烯酸等丙烯醛基聚合物市场的扩张也是主要驱动力。这些聚合物广泛应用于纺织、黏合剂和被覆剂等稳定成长的产业。随着对这些聚合物的需求增加,预计丙烯醛市场也将相应扩大,这主要得益于对多功能高性能材料的需求。丙烯醛生产製程的技术进步也在推动市场成长。技术创新正在提高生产力和规模经济,使丙烯醛更易于获取,并在更广泛的应用中更具成本效益。预计这些进步将继续推动市场发展,并在各个领域开闢新的商机。
丙烯酸及其衍生物需求的不断成长也是丙烯醛市场的主要驱动力。丙烯醛是生产丙烯酸的关键中间体,而丙烯酸用于製造丙烯酸酯和高吸水性聚合物等产品。这些材料在黏合剂、被覆剂和纺织品等行业的需求量很大,从而刺激了对丙烯醛的需求。在个人护理行业,由于丙烯醛在香水、除臭剂和髮胶等产品的生产中发挥重要作用,其需求也不断增长。消费者(尤其是在新兴国家)对个人卫生和整装仪容的意识不断增强,这推动了该行业的成长,并促进了丙烯醛市场的发展。此外,丙烯醛是这些产品生产的关键中间体,这些产品广泛用于农业和水处理。在全球范围内,尤其是在美国、澳洲和巴西等地区,抗除草剂杂草的盛行,推动了对更有效的农业化学品解决方案的需求,包括基于丙烯醛的解决方案。
食品防腐剂需求的不断增长推动了丙烯醛市场的成长。丙烯醛的抗菌特性使其成为食品工业中有价值的防腐剂。由于饮食习惯的改变和对食品安全的日益担忧,全球对加工食品的需求不断增长,预计将进一步推动市场扩张,并增加对丙烯醛等有效防腐剂的需求。
已知丙烯醛会对眼睛、皮肤和呼吸系统造成严重刺激,吸入后会导致肺水肿和呼吸困难。接触皮肤和眼睛会导致化学灼伤、搔痒和过度流泪,对健康构成严重危害。这些不良健康影响尤其值得关注,尤其是患有呼吸系统疾病或皮肤敏感的人群,他们更容易受到丙烯醛的影响。此外,丙烯醛还与长期健康风险有关,包括癌症、呼吸系统疾病和心血管疾病,这引起了消费者和监管机构的担忧。丙烯醛暴露与如此严重的健康危害之间的关联可能会导致监管审查的加强。监管机构对丙烯醛的使用实施了严格的指导和限制,尤其是在可能接触人类的行业,例如消费品、农业化学品和保健产品的製造。这种加强的监管可能会对丙烯醛的需求产生不利影响,尤其是在某些对公共卫生问题敏感的最终用途产业。
替代化合物的供应也对丙烯醛市场构成了重大挑战。随着业界对丙烯醛健康风险的认识不断提高,人们开始转向更安全、更环保的替代方案。各公司正在加大研发投入,以寻找和生产危害更低的替代品,这些替代品既能复製丙烯醛的功能特性,又不会带来相关的健康风险。这种寻求替代化合物的趋势可能会减少对丙烯醛的依赖,并限制市场成长。此外,原物料价格的波动也进一步限制了丙烯醛市场的发展。用于生产丙烯醛的原料成本受市场波动的影响,导致生产成本难以预测。这种不确定性阻碍了市场稳定,使製造商难以维持具有竞争力的价格,最终影响丙烯醛作为化学原料的盈利和吸引力。
The growing end-use industry demand for acrolein as a precursor in the production of essential compounds such as glutaraldehyde, glycerol, and acrylic acid. These compounds are extensively used in chemical manufacturing, healthcare, and agriculture, making acrolein a critical raw material. The increasing demand for these end products, particularly in the industrial and healthcare sectors, significantly boosts the acrolein market. Thus, the increasing demand for acrolein as a precursor in the end-use industry surged the growth of market size surpassing USD 4.90 Billion in 2024 to reach a valuation of USD 7.92 Billion by 2032.
The rising need for polyacrolein in water treatment processes. Polyacrolein, a derivative of acrolein, is widely utilized as a flocculant and coagulant in water treatment, essential for ensuring safe and clean water for industrial and municipal applications. As global concerns over water scarcity and pollution intensify, the demand for effective water treatment solutions, and consequently for acrolein, is expected to grow substantially. Thus, the increasing need for polyacrolein in the water treatment processes enables the market to grow at a CAGR of 6.2% from 2026 to 2032.
Acrolein Market: Definition/ Overview
Acrolein is a liquid that can appear colorless or yellow and is noted for its strong, pungent odor that is quite irritating to the throat. It is highly flammable and prone to aggressive polymerization, making it a hazardous substance to handle. Acrolein is produced primarily through two main processes: the catalytic oxidation of propylene and the dehydration of glycerol. Propylene, a key petrochemical feedstock, undergoes catalytic oxidation to yield acrolein, while glycerol, another petrochemical, is used in a different production route to obtain the same compound. Acrolein serves multiple industrial and chemical functions. It is a crucial intermediary in the synthesis of various chemicals, including acrylic acid, which is used in a wide range of applications such as adhesives, coatings, and textiles. Additionally, acrolein plays a significant role in the production of methionine, an essential amino acid used in animal feed.
Beyond its role in chemical synthesis, acrolein has practical applications in water treatment and agriculture. It is used as a biocide to eliminate bacteria and other microorganisms in water treatment facilities, oil wells, and various industrial processes. Acrolein's effectiveness in controlling microbial growth and algae makes it valuable in maintaining clean and safe water environments. In agriculture, acrolein is employed to control the growth of unwanted plants and algae, thereby enhancing crop yields and managing aquatic systems. The production of acrolein involves a two-step process. First, acrolein is recovered from reaction products, and second, it is synthesized through the catalytic oxidation of propylene. This method ensures high purity and effectiveness in the final product.
The increasing usage of acrolein in pesticides and herbicides also plays a crucial role in market expansion. Acrolein is a key ingredient in the production of agrochemicals that are vital for modern farming operations. With the global population continuing to rise, there is an escalating need to enhance agricultural productivity to ensure food security. This demand is driving the growth of the acrolein market, particularly in regions with large agricultural sectors. In the paper and pulp industry, the demand for polyacrolein is on the rise due to its use as a wet-strength resin that enhances the durability and strength of paper products. As the demand for paper and paper-based products continues to grow, particularly in packaging and hygiene applications, the acrolein market is expected to benefit from the increased need for poly acrolein in these industries.
The expanding polymers market based on acrolein, such as polyacrolein and poly (acrylic acid), is another key driver. These polymers find extensive use in textiles, adhesives, and coatings, industries that are seeing steady growth. As the demand for these polymers increases, the acrolein market is anticipated to expand correspondingly, driven by the need for versatile and high-performance materials. Technological advancements in acrolein production processes are also propelling market growth. Innovations have led to increased productivity and economies of scale, making acrolein more accessible and cost-effective for a broader range of applications. These advancements are expected to continue driving the market forward, opening up new opportunities in various sectors.
The growing demand for acrylic acid and its derivatives is another significant driver for the acrolein market. Acrolein is a key intermediate in the production of acrylic acid, which is used to manufacture products such as acrylic esters and superabsorbent polymers. These materials are in high demand across industries like adhesives, coatings, and textiles, fueling the need for acrolein. In the personal care industry, the demand for acrolein is increasing due to its role in the production of products like perfumes, deodorants, and hair sprays. The rising consumer awareness about personal hygiene and grooming, particularly in emerging economies, is driving the growth of this sector, thereby boosting the acrolein market. In addition, acrolein serves as a key intermediate in the production of these products, which are widely used in agriculture and water treatment. The increasing prevalence of herbicide-resistant weeds worldwide, particularly in regions like the United States, Australia, and Brazil, is driving the demand for more effective agrochemical solutions, including those based on acrolein.
The increasing demand for food preservatives is contributing to the growth of the acrolein market. Acrolein's antimicrobial properties make it a valuable preservative in the food industry. As the global demand for processed foods rises, driven by changing dietary habits and growing concerns about food safety, the need for effective preservatives like acrolein is expected to increase, further driving market expansion.
Acrolein is known to cause severe irritation to the eyes, skin, and respiratory system, with inhalation potentially leading to pulmonary edema and respiratory distress. Contact with the skin or eyes can result in chemical burns, itchiness, and excessive tearing, posing serious health risks. These adverse health effects are particularly concerning for individuals with pre-existing respiratory conditions or skin sensitivities, making them more vulnerable to acrolein exposure. Moreover, acrolein's association with long-term health risks such as cancer, respiratory diseases, and cardiovascular conditions heightens the level of concern among consumers and regulatory bodies. The link between acrolein exposure and such severe health outcomes has the potential to lead to stricter regulatory scrutiny. Regulatory agencies impose stringent guidelines and restrictions on the use of acrolein, particularly in industries where human exposure is more likely, such as in the manufacturing of consumer goods, agricultural chemicals, and healthcare products. This increased regulation could negatively impact the demand for acrolein, particularly in certain end-use sectors that are sensitive to public health concerns.
The availability of alternative compounds also poses a significant challenge to the acrolein market. As industries become increasingly aware of the health risks associated with acrolein, there is a growing shift towards safer and more environmentally friendly alternatives. Companies are investing in research and development to identify and produce less harmful substitutes that can replicate the functional properties of acrolein without the associated health risks. This trend toward alternative compounds could reduce the reliance on acrolein, limiting its market growth. Furthermore, fluctuations in raw material prices present an additional restraint for the acrolein market. The cost of raw materials used in acrolein production is subject to market volatility, which leads to unpredictable production costs. This uncertainty can hinder the market's stability and make it challenging for manufacturers to maintain competitive pricing, ultimately affecting the profitability and attractiveness of acrolein as a chemical feedstock.
The oxidation of the propylene segment is poised to dominate the acrolein market, driven by its critical role in the production of acrolein, which is a key intermediate in the synthesis of acrylic acid. Acrylic acid, a compound essential in various applications such as adhesives, coatings, textiles, and superabsorbent polymers, is experiencing growing demand across multiple industries. Additionally, the integration of renewable energy sources in the oxidation process has contributed to minimizing the environmental footprint, aligning with the growing global emphasis on sustainability.
The propylene oxidation method is one of the most widely adopted techniques for producing acrolein. This method's dominance is largely attributed to its well-established industrial processes, which have been refined over the years to enhance efficiency and sustainability. Technological advancements in the propylene oxidation process have played a pivotal role in cementing its position as the leading segment in the acrolein market. Innovations such as the development of highly selective catalysts have improved the yield and purity of acrolein, reducing waste and lowering production costs.
Acrolein produced via the oxidation of propylene is not only crucial for the production of acrylic acid but also serves as a precursor for a variety of other chemical compounds, including glycidyl methacrylate. Glycidyl methacrylate is a versatile plasticizer used in the manufacture of various plastics. The rising demand for plastics, driven by their versatility, durability, and cost-effectiveness, is further propelling the growth of the propylene oxidation segment. As industries continue to expand their use of plastics in applications ranging from packaging to automotive components, the need for acrolein, and by extension, the propylene oxidation method, is expected to increase substantially.
Moreover, the efficiency gains and cost reductions achieved through technological improvements in the propylene oxidation process have made this method increasingly attractive to manufacturers. The ability to produce acrolein more sustainably and at lower costs is a key factor driving the segment's dominance. As a result, the propylene oxidation method is anticipated to maintain its leading position in the acrolein market, supported by the ongoing growth in demand for acrylic acid and other acrolein derivatives.
The pesticide segment is a significantly dominating segment within the acrolein market, largely driven by the escalating global demand for food, fueled by a rapidly growing population and evolving dietary preferences. As the world's population continues to expand, there is an increasing need to boost agricultural productivity to ensure food security. This necessity has placed significant pressure on farmers to achieve high crop yields, and pesticides have become essential tools in their efforts to meet this demand. Pesticides play a crucial role in modern agriculture by protecting crops from a wide array of threats, including pests, weeds, and diseases, all of which can severely diminish crop yields. Acrolein, as a key component in the production of various agrochemicals, including herbicides and insecticides, is integral to this process. Its effectiveness in controlling unwanted vegetation and pests that compete with crops for nutrients, water, and sunlight makes it invaluable to the agricultural sector.
Biopesticides derived from natural sources, such as plants, microorganisms, and certain minerals, biopesticides are gaining traction as environmentally safer alternatives to traditional chemical pesticides. Their lower toxicity and reduced impact on non-target species, including humans, make them particularly appealing in an era where sustainability and environmental health are paramount concerns. The shift towards biopesticides is a response to consumer demand for cleaner, safer agricultural practices and a reflection of stringent regulatory environments that favor more eco-friendly pest control methods.
In tandem with the rise of biopesticides, there is a growing adoption of integrated pest management (IPM) strategies. IPM is a holistic approach to pest control that combines various management techniques, including the judicious use of pesticides, biological controls, habitat manipulation, and cultural practices, to achieve effective and sustainable pest management. By integrating multiple tactics, IPM aims to minimize the reliance on chemical pesticides, thereby reducing the risk of pesticide resistance and lowering the environmental impact. The global adoption of IPM practices is increasingly influencing the demand dynamics within the pesticide segment, as farmers and agricultural producers seek more sustainable and environmentally responsible solutions.
The Asia Pacific region stands as a dominant region in the acrolein market driven by the rising demand for personal care products. Acrolein plays a vital role in the production of a wide array of cosmetic and personal care items, including fragrances, lotions, and shampoos. As consumer preferences in the region increasingly lean towards enhanced personal grooming and hygiene, the demand for these products is on the rise. This surge in demand directly translates into a growing need for acrolein, which is essential in the formulation of many of these personal care products.
Moreover, the Asia Pacific region is home to some of the world's largest agricultural economies, particularly China and India. Agriculture remains a cornerstone of these economies, and the need to protect crops from pests, weeds, and diseases is critical for maintaining high yields. Acrolein, widely used as a pesticide, is instrumental in safeguarding crops, thereby ensuring consistent and robust agricultural production. The ever-increasing demand for food and agricultural products in the region, driven by population growth and changing dietary habits, is a significant factor propelling the demand for acrolein in the agricultural sector.
In addition to its role in personal care and agriculture, the Asia Pacific region has also witnessed substantial technological advancements in recent years, particularly within the field of chemical manufacturing. These advancements have led to the development of innovative production processes for acrolein, including the integration of renewable energy sources and the creation of new, more efficient catalysts. Such innovations enhance the sustainability of acrolein production and reduce costs, improve overall efficiency, making acrolein more accessible to a broader range of industries within the region.
North America is anticipated to witness the fastest growth in the acrolein market during the forecast period owing to the increasing demand for plasticizers. Acrolein serves as a crucial intermediate in the production of plasticizers, which are essential additives in the manufacture of various plastics. With North America's thriving industries such as automotive, construction, and packaging, the need for plasticizers has surged. These industries rely heavily on plasticizers to enhance the flexibility and durability of plastics, driving the demand for acrolein in the region.
In addition, the personal care and cosmetic sector in North America is experiencing significant expansion. Acrolein is a vital component in the formulation of numerous personal care products, including shampoos, lotions, and fragrances. As consumers increasingly prioritize personal grooming and hygiene, the demand for these products is rising. This growing focus on personal care is contributing to the increased consumption of acrolein, further bolstering the market in North America.
Furthermore, acrolein plays a crucial role in the production of herbicides and insecticides, which are extensively used in agriculture. As North America's agriculture industry continues to grow, driven by the need to enhance crop yields and manage pest-related challenges, the demand for effective herbicides and insecticides has intensified. Acrolein's role as a key ingredient in these agrochemicals makes it an integral part of agricultural operations, thereby supporting the growth of the acrolein market in the region.
The Acrolein Market is characterized by a relatively concentrated competitive landscape, with a few major players dominating the industry. These companies are focused on developing innovative products, expanding their geographic reach, and investing in research and development to maintain their market positions.
The organizations are focusing on innovating their product line to serve the vast population in diverse regions. Some of the prominent players operating in the acrolein market include: