市場調查報告書
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1351037
2030 年生物丙烯酸市場預測:按類型、用途和地區分類的全球分析Bio-Acrylic Acid Market Forecasts to 2030 - Global Analysis By Type (2-Ethylhexy Acrylate, Butyl Acrylate, Methyl Acrylate, Ethyl Acrylate, Super Absorbent Polymer, Elastomers and Other Types), Application and By Geography |
根據 Stratistics MRC 的數據,2023 年全球生物丙烯酸市場規模為 71 億美元,預計到 2030 年將達到 128 億美元,預測期內年複合成長率為 8.7%。
生物丙烯酸具有紫外線、吸收劑、填料、有機溶劑、黏劑等多種性能,因此被廣泛應用於外牆塗料中,並擴大被應用於油漆和塗料的生產中。丙烯酸的主要用途是生產丙烯酸酯和樹脂,這些酯和樹脂主要用於油漆和黏劑。此外,它還用於水處理化學品、清潔劑中間體、油處理化學品和吸水性聚丙烯酸聚合物。
根據經濟產業省統計,2021年日本合成樹脂塗料的產量約為101萬噸,這是一個龐大的數量。整體而言,塗料產量從2020年的150萬噸增加到2021年的近153萬噸。
由於最終用途和新用途的需求,丙烯酸酯和高吸水性聚合物的市場正在迅速擴大。超吸收性聚合物是即使在壓力下也能承受體液(包括尿液和鹽)重量的塑膠。它作為顆粒狀白色粉末用於農業覆蓋物和新生兒尿布。策略擴張主要是由最終用途和新興用途需求的增加所推動的。
對生物基丙烯酸生產中使用的有害毒物和化學品的擔憂預計將阻礙市場的收入成長。儘管這種化學物質是由可再生資源製成的,但在其生產過程中使用了有毒化合物和毒物。此外,直接接觸化學物質時使用防護裝備可能會導致眼睛、鼻子和肺部發炎和燒傷。這些要素可能會減緩市場收入的成長。
由於對確保生物相容性並限制特異性吸收的聚合物塗層的需求不斷增加,這種化學物質的使用越來越頻繁。生物基丙烯酸塗料由於其高密度的羧基而經常用於生物醫學用途。細胞質培養基是此類化合物在生物醫學工業的另一個用途。因此,生物丙烯酸在化學和生物醫藥行業的使用預計將增加,推動全球收入成長。
生產生物丙烯酸是一項相對較新的技術,需要大量的研究和開發。這項研發成本可能會增加生物丙烯酸的生產價格。生物丙烯酸生產的原料可能比傳統丙烯酸生產所需的石化產品更昂貴。由於生物丙烯酸生產的產率仍然較低,因此生產與常規丙烯酸相同量的生物丙烯酸需要更多的原料。
COVID-19 大流行為建設產業帶來了物流挑戰和原料衍生品類型的短缺。由於金融市場大幅下滑,全球建築投資預計將下降。因此,對丙烯酸的需求正在減少。為對抗病毒影響而實施的政府法規可能會導致原料、人員和資源短缺以及供應鏈中斷,從而使我們難以履行合約義務。
由於彈性體在丙烯酸油漆和塗料中的使用不斷增加,預計彈性體細分市場在預測期內將成為最大的細分市場。彈性體通常與丙烯酸一起使用,以賦予其彈性並改善質感。由於其高熱穩定性和耐油性,它也被用於許多工業用途。預計這些將推動該領域的擴張。
預計衛生用品領域在預測期內年複合成長率最高。由於對衛生棉、月經杯、衛生棉條和陰道護理產品等女性衛生產品的需求不斷增加,生物丙烯酸的使用越來越頻繁。生物丙烯酸經常用於嬰幼兒和成人尿布,因為它具有高吸水性,並且能夠舒緩因潮濕引起的皮膚瘙癢。預計這些因素將推動該部門的收入發展。
由於洗滌清潔劑和液體清洗劑中生物丙烯酸的需求不斷成長,預計北美在預測期內將佔據最大的市場佔有率。此外,人們對使用可再生和生物基產品的環境效益的了解不斷增加,以及對以環境永續方式使用此類產品的必要性的認知不斷提高,也正在推動市場收入,這是預計有助於成長的要素之一。
預計亞太地區在預測期內將維持最高的年複合成長率。隨著工業活動的擴大,對生物丙烯酸的需求也不斷擴大。由於國家經濟活動的變化,油漆和塗料、介面活性劑、黏劑和密封劑以及其他用途中對生物丙烯酸的需求不斷成長。隨著新設施的建成和現有工廠產能的擴大,預計這一趨勢未來將持續下去。
According to Stratistics MRC, the Global Bio-Acrylic Acid Market is accounted for $7.1 billion in 2023 and is expected to reach $12.8 billion by 2030 growing at a CAGR of 8.7% during the forecast period. Bio-acrylic acid is widely used in external wall paints due to its many features such as UV, absorbent, filler, organic solvent, and adhesives, which has increased its adoption for making paints and coatings. The manufacturing of acrylic esters and resins, which are largely utilized in coatings and adhesives, is the main usage of acrylic acid. Additionally, it is utilized in water treatment chemicals, detergent intermediates, oil treatment chemicals, and polyacrylic acid polymers that absorb water.
According to the Ministry of Economy, Trade, and Industry (Japan), the production volume of synthetic resin paints in Japan amounted to approximately 1.01 million metric tons in 2021, making up an enormous production volume of paints. Overall, paints' production volume increased to nearly 1.53 million metric tons in 2021, compared to 1.50 million metric tons in 2020.
The demand from both established and new end-use applications is driving a rapid expansion of the market for acrylates and superabsorbent polymers. Superabsorbent polymers are plastics that can hold up the weight of urine and other salty bodily fluids even under pressure. They are utilized in agricultural mulching and newborn diapers as a grainy, white powder. The main reasons behind strategic expansions include rising demand from end-use applications and emerging applications.
It is anticipated that worries about dangerous toxins and chemicals utilized in the manufacture of bio-based acrylic will impede market revenue growth. Although this chemical is made from renewable resources, some toxic compounds and poisons are still employed in its manufacturing. In addition, it causes irritation of the eyes, nose, lungs, and burns when protective equipment is used while coming into direct contact with chemicals. These are a few things that could slow the increase in market revenue.
This chemical is being used more frequently as a result of rising demand for polymer coatings that ensure biocompatibility and limit non-specific absorption. Because they contain high and dense carboxylic groups, bio-based acrylic coatings are frequently used in biomedical applications. Cell cultured substrates are another use for such compounds in the biomedical industry. This is projected to increase the use of bio-acrylic acid in the chemical and biomedical industries and boost global revenue growth.
As a relatively new technique, bio-acrylic acid production needs a lot of research and development. The cost of this research and development may increase the price of producing bio-acrylic acid. Feedstocks for bio-acrylic acid production may be more expensive than the petrochemicals needed to make conventional acrylic acid. Due to the still-relatively low yield of bio-acrylic acid manufacturing, more raw materials are needed to create the same amount of bio-acrylic acid as conventional acrylic acid.
The COVID-19 pandemic has caused logistical challenges and a lack of raw derivative type for the construction industry. Global construction investments are predicted to have decreased as a result of the sharp decline in financial markets. As a result, there is less demand for acrylic acid. Governmental restrictions put in place to battle the virus's effects may lead to a shortage of raw materials, people, and resources, as well as interrupted supply chains, which will make it harder to fulfill contractual obligations.
The elastomers segment is expected to be the largest during the forecast period, owing to the rising usage of elastomers in acrylic paints and coatings. These are frequently employed in acrylic acid to give stretchability and enhance the texture of items, which is driving up demand for it. They are also employed in numerous industrial applications due to their strong thermal stability and oil resistance. These are a few things that are predicted to fuel the segment's expansion.
The sanitary products segment is expected to have the highest CAGR during the forecast period. Bio-acrylic is being used more frequently as a result of rising demand for feminine hygiene products such sanitary pads, menstrual cups, tampons, and vaginal wellness items. Due to their very absorbent qualities and ability to heal itchy skin brought on by moisture, these acids are also frequently employed in infant and adult diapers. It is anticipated that these elements would fuel segment revenue development.
North America is projected to hold the largest market share during the forecast period, owing to the rising demand for bio-acrylic acid in detergents powders and liquid cleaning agents. Additional factors that are anticipated to contribute to market revenue growth include growing knowledge of the environmental advantages of using renewable and bio-based products as well as rising awareness of the need to use such products in a way that is sustainable for the environment.
Asia Pacific is projected to hold the highest CAGR over the forecast period. The need for bio-acrylic acid has expanded as a result of expanding industrial operations. Growing demand for bio-acrylic acid in paints and coatings, surfactants, adhesives and sealants, and other uses is a result of changes in the nation's economic activity. With the construction of new facilities and the expansion of capacity at existing plants, this trend is anticipated to last into the future.
Some of the key players in Bio-Acrylic Acid market include: China Petroleum & Chemical Corporation, The Lubrizol Corporation, Arkema S.A., Mitsubishi Chemical Holdings Corporation, The Dow Chemical Company, PTTGC Innovation America Corporation, Evonik Industries AG, Formosa Plastics Corporation, SIBUR International GmbH, Saudi Acrylic Monomer Company Limited, Archer-Daniels-Midland Company, Polysciences, Inc., Cargill, Incorporated, Nippon Shokubai co., Ltd, Sasol Limited and The Lubrizol Corporation.
In April 2023, Sasol Chemicals, a business unit of Sasol Ltd. and Mission Possible Partnership (MPP) announced a collaboration to evaluate potential projects for Sasol's sustainability hub at its Lake Charles, La. location.
In May 2023, Dow and New Energy Blue announced a long-term supply agreement in North America in which New Energy Blue will create bio-based ethylene from renewable agricultural residues. Dow expects to purchase this bio-based ethylene, reducing carbon emissions from plastic production, and using it in recyclable applications across transportation, footwear, and packaging.
In January 2023, Holiferm Limited and Sasol Chemicals announced collaboration to produce and market rhamnolipids and mannosylerythritol lipids (MELs). This collaboration expands the partnership announced in March 2022 between the two companies to develop and commercialise another biosurfactant product, sophorolipids.