市場調查報告書
商品編碼
1418729
全球生物尼龍市場 - 2023-2030Global Bio Nylon Market - 2023-2030 |
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全球生物尼龍市場在2022年達到4億美元,預計2030年將達到9億美元,2023-2030年預測期間CAGR為13.8%。
生物尼龍是包裝中使用的標準石油基聚合物的更環保的替代品。隨著環境問題的日益嚴重,包裝產業正在尋找有助於減少包裝廢棄物對環境整體影響的材料。它也用作對氧敏感的食品的軟包裝材料。它用於需要高熔點、高機械強度、透明度和有效阻氧性的食品。
包裝產業的崛起很可能會產生市場成長的可能性。印度等國家對包裝材料的需求增加,其中對線上食品配送的需求增加。例如,2022 年 2 月,印度最大的食品配送公司之一 Zomato 表示,在過去五年中,其平均每月活躍食品配送餐廳增加了 6 倍,而每月交易客戶數量增加了 13 倍。
預計北美在預測期內CAGR第二高,佔全球生物尼龍市場近 1/4 的市場。該地區的公司正在考慮將永續產品涵蓋其產品組合,並與生物基尼龍製造商建立合作夥伴關係,這將有助於推動市場成長。例如,加拿大服裝品牌 Lululemon Athletica 於 2021 年 8 月與 Genomatica 合作開發 Lululemon 產品的植物尼龍。
原料約佔汽車製造總成本的45%。汽車生產普遍使用鋼和鋁。由於為提高燃料效率和控制二氧化碳排放而製定的嚴格規則,原料模式預計將發生重大變化。尼龍6用作薄膜和塗層,以保護原料免受腐蝕。
這導致生物尼龍在汽車領域被廣泛使用,因為它比塑膠更環保。除了重量輕且適應性強之外,生物尼龍還提供了更大的設計靈活性,有助於在不損害車輛安全性和穩定性的情況下進行創新設計。在預測期內,尼龍預計將推動汽車產業的市場需求。
生物尼龍的開發經常用於新產品的發布,從而提高性能品質。生物尼龍品質的提高使其能夠用於更廣泛的應用,從而增加了更大的市場需求。產品發布通常伴隨著製造過程中的技術改進。改進的製造技術使生物尼龍的生產更有效率且更具成本效益,使其成為各行業更具吸引力的選擇。
東麗工業公司(Toray Industries, Inc.) 於2022 年宣布,已開發出一種尼龍510 (N510) 纖維,其「生物基合成聚合物含量」為100%,如塑膠生物基國際標準ISO 16620- 1 : 2015 第3.1.5 節所述。東麗的EcodearTM N510將是該公司首款100%植物尼龍纖維。該公司為EcodearTM N510開發了廣泛的潛在用途,作為高階客戶的長期產品。
使用再生原料生產生物尼龍比傳統的石油基尼龍生產成本更高。生物基原料的費用以及提取和加工所需的技術導致生產成本增加。用於生物尼龍製造的生物基原料,例如蓖麻油或生物基中間體,可能很稀缺。此限制會影響生物尼龍製造的可擴展性,並可能導致價格變化。
生物基原料經常需要耕種土地,可能與糧食作物或生態系統競爭。生物尼龍原料市場與土地永續利用之間很難取得平衡。生物尼龍生產技術,包括聚合技術和生物基單體的開發,可以繼續發展。生產一致的品質和與傳統尼龍相當的品質的技術困難將限制市場成長。
Global Bio Nylon Market reached US$ 0.4 billion in 2022 and is expected to reach US$ 0.9 billion by 2030, growing with a CAGR of 13.8% during the forecast period 2023-2030.
Bio nylon is a more environmentally friendly alternative to standard petroleum-based polymers used in packaging. As environmental concerns grow, the packaging industry is looking for materials that can assist reduce the total environmental impact of packaging waste. It is also utilised as a flexible packing material for food that is oxygen sensitive. It is utilised in food products that require a high melting point, high mechanical strength, clarity and an effective oxygen barrier.
The rising packaging industry is likely to generate market growth possibilities. Demand for packing materials has risen in nations such as India, where the demand for online food delivery has increased. For example, in February 2022, Zomato, one of India's biggest food delivery companies, said that its average monthly active food delivery restaurants increased 6 times while monthly transacting clients increased 13 times over the last five years.
North America is expected to register the second highest CAGR during the forecast period with almost 1/4th market share of global bio nylon market. Companies in the region are considering integrating sustainable items in their product portfolios and forming partnerships with bio-based nylon manufacturers, which will help drive market growth. For example, Lululemon Athletica, a Canadian garment brand, teamed with Genomatica in August 2021 to develop plant-based nylon for use in Lululemon products.
Raw materials cover about 45% of total vehicle manufacturing costs. Steel and aluminum are commonly used in the automotive production. Owing to strict rules made for improving fuel efficiency and keeping CO2 emissions under control, raw material patterns are expected to change significantly. Nylon 6 is used as films and coatings to protect raw materials against corrosion.
It led to in the widespread use of bio nylon in the vehicle sector because it is more environmentally friendly than plastics. Aside from being lightweight and adaptable, bio nylon also provide for greater design flexibility, helping in the production of innovative designs without harming the vehicle's safety and stability. During the forecast period, nylon is expected to drive the market demand in automotive sector.
Bio nylon developments are often used in new product releases, resulting in improved performance qualities. Bio nylon's improved qualities enable it to be used in a broader range of applications, adding to greater market demand. Product releases are frequently accompanied by technological improvements in the manufacturing process. Improved manufacturing techniques make bio nylon production more efficient and cost-effective, making it a more appealing option for a variety of sectors.
Toray Industries, Inc. announced in 2022 that it has developed a nylon 510 (N510) fibre with 100% 'biobased synthetic polymer content' as described in section 3.1.5 of ISO 16620-1: 2015, the international norm for plastics' biobased content.Toray's EcodearTM N510 will be the company's first 100% plant-based nylon fibre. The company has developed a wide range of potential uses for EcodearTM N510 as a long-term product for high-end customers.
Bio nylon production from renewable feedstocks, is more costly than traditional petroleum-based nylon production. The expense of bio-based raw materials, as well as the technologies required for extraction and processing, contribute to increased production costs. Bio-based feedstocks for bio nylon manufacturing, such as castor oil or bio-based intermediates, may be scarce. The constraint has an impact on the scalability of bio nylon manufacturing and may result in price variations.
Bio-based feedstocks frequently necessitate the cultivation of land, that can compete with food crops or ecosystems. It is difficult to balance the market for bio nylon feedstocks with sustainable utilisation of land practices. Bio nylon production technologies, including polymerization techniques and the development of bio-based monomers, can continue evolving. The technical difficulties in producing consistent quality and qualities comparable to traditional nylon, will act as a restraint in the market growth.
The global bio nylon market is segmented based type, material, end-user and region.
In 2022, automotive end-user is expected to drive the growth, holding a share of about 1/3rd of the global market. Bio nylon is used in the automotive sector in making seat components like seat frames and fabric. The lightweight feature and durability makes it a suitable material for improving comfort and reducing overall vehicle weight. The automotive demand is being driven by the rising adoption of for electric vehicles in the world.
Based on estimated of World Economic Forum, about 4.3 million new battery-powered and plug-in hybrid EVs were sold in the first half of 2022. It increased the demand for products like bio nylon resins. Furthermore, following a US$ 7.2 million research initiative, the Radici Group, an Italian chemicals and advanced textiles firm, claims to have successfully shown the feasibility of making nylon at scale from waste oil in 2021. The nylon produced by the technique has uses in the automotive industry, which is driving market expansion.
During the forecast period, Asia-Pacific will hold the majority of the global bio nylon market, with over 35% of the market. The existence of a large unexplored market, as well as favourable government policies, are enticing global nylon manufacturers to establish production and distribution plants in the region. Many automakers made huge investments in various parts of the industry. Maruti Suzuki India invested US$ 865.12 million in many initiatives in November 2022, such as the establishment of new facilities and the launch of new models.
Furthermore, BASF SE began marketing many polyamide grades in Europe in February 2022. As part of the acquisition of Solvay's PA66 division, the company acquired various engineering plastics products. The items will be released under the well-known brand name Ultramid. As a result, the region's rising automobile industry increases demand for bio nylon use.
The major global players in the market include: Arkema, Evonik Industries AG, Wuxi Yinda Nylon, Kingfa, EMS, DuPont, DSM, RadiciGroup, BASF SE and Shandong Dongchen.
The demand for various products, including bio nylon, was affected by changes in consumer behavior and market dynamics during the pandemic. The continued crisis widened the supply-demand gap, putting strain on the global polyimide supply chain. As per an Economic Times article, exports of electronic supplies like wires & cables and chips have decreased due to supply chain difficulties.
Furthermore, due to the potential of infection among the workforce, some electronics companies have either closed down or reduced their operations. Moreover, more than 100 countries have closed their international borders for transit and banned non-essential trade activity, reducing polyimide use in a variety of end-use sectors.
By estimating demand, optimizing inventory levels and enhancing logistics, AI technologies improve supply chain efficiency. It helps bio nylon manufacturers in simplifying their supply chain procedures, lowering costs and ensuring on-time delivery. AI-powered systems is used to optimize manufacturing processes, resulting in higher efficiency and less waste.
AI can find areas for improvement by analyzing production data in real time, contributing to more sustainable and cost-effective bio nylon manufacturing. Machine learning algorithms analyzes massive datasets to determine optimal material compositions, manufacturing conditions and performance characteristics, resulting in the development of advanced bio-based materials.
All petrochemicals have experienced extreme volatility and instability, including polyimide products. The rising cost of raw materials needed to produce high performance plastics and the cost of energy, have disrupted market growth. The production of bio nylon involves the use of bio-based feedstocks. Any disruptions in the regions that supply these feedstocks could lead to shortages and increased prices, affecting the bio nylon market globally.
The bio nylon market is often influenced by consumer preferences for sustainable and eco-friendly materials. Geopolitical uncertainties prompt increased focus on research and development to find alternative sources for bio-based feedstocks or improve existing technologies. The conflict leads to changes in consumer behavior or sentiment, it impacts the demand for bio-based materials.
The global bio nylon market report would provide approximately 62 tables, 57 figures and 201 pages.
LIST NOT EXHAUSTIVE.