市場調查報告書
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1479905
奈米纖維素全球市場 - 2024 年至 2029 年預測Global Nanocellulose Market - Forecasts from 2024 to 2029 |
奈米纖維素是一種源自木漿的纖維素。使用涉及高剪切壓力的機械程序將材料與木材分離。例如,它們是使用高壓均質機、超音波均質機、研磨機、微流化機等製造的。
這些奈米粒子非常輕、堅韌且導電,非常適合用於複合材料。含有奈米纖維素成分的複合材料材料具有阻擋子彈的強度,適合製造防彈製品。此外,其低密度、高長寬比和高硬度使其成為優異的水泥添加劑。
由於其低透氧滲透性,奈米原纖化纖維素有潛力取代複合包裝中的塑膠薄膜。出於環境問題,消費者對在複合材料中使用合成填料持謹慎態度。
因此,以天然材料取代合成墊片也有利於環境。本產品導熱係數高,密度低,生物分解性,是不錯的選擇。需求是由消費者對個人護理、食品和飲料行業環保產品的需求所推動的。
據製漿造紙技術協會(TAPPI)稱,專利申請和研究出版物數量的不斷增加反映了公眾對此類奈米材料的興趣。奈米纖維素有潛力取代許多石化產品,並且比其他奈米級高性能材料更便宜。
特別是具有可分解性、生物分解性、透明性、柔韌性、高機械強度、阻隔性等優異性。未來幾年,食品和飲料行業的成長以及日益成長的健康問題將在推動奈米纖維素市場佔有率方面發揮重要作用。
此外,大多數包裝行業公司都從永續性和回收的角度努力提高包裝材料的品質。奈米纖維素對減少碳足跡有重大影響。全球暖化和環境法規等日益嚴重的環境問題可能會在未來幾年推動該行業的發展。
儘管自然界中纖維素豐富,但這些奈米材料的合成需要大量的技術專業知識和技術,這增加了生產成本。此外,許多其他材料以更低的成本提供與這些材料相同的功能。例如,金屬添加物以與奈米纖維素相同的方式改變塑膠複合材料的性能,但成本僅為其一小部分。因此,需要受監管的單一栽培來確保穩定的供應,從而提高了整體製造成本。因此,高製造成本阻礙了市場開拓潛力。
奈米纖維素市場分析按類型細分為奈米原纖化纖維素、細菌奈米纖維素和結晶纖維素
依類型分析全球奈米纖維素市場,可分為奈米原纖化纖維素、細菌奈米纖維素和結晶纖維素。奈米原纖化纖維素(NFC)具有廣泛的應用,包括複合材料、食品添加劑、過濾膜、藥物傳輸系統和氣凝膠。細菌奈米纖維素(BNC)在醫療植入、傷口敷料、組織工程、食品增稠劑、化妝品等方面有應用。結晶纖維素 (NCC) 的應用包括複合材料、塗料、電子產品、阻隔膜和藥物傳輸。
預計北美將在奈米纖維素市場中佔據主要佔有率。
預計北美將在整個預測期內佔據市場的主要佔有率。航太和製藥業不斷成長的需求是市場成長的主要驅動力。例如,美國聯邦航空管理局(FAA)預計,按航空公司集團分類的美國商業航空公司的國內乘客數量將從2021年的4.02億人次增至2022年的5.22億人次,預計到2025年這一數字將達到4.02億人次。
在北美,著名的研究機構和公司正在積極致力於奈米纖維素技術的開發和創新。該地區強大的經濟基礎、成熟的工業、對永續性的承諾以及研發方面的進步,使其成為全球奈米纖維素市場的關鍵參與者。
Nanocellulose is a kind of cellulose derived from wood pulp. Mechanical procedures involving high shear pressures are used to separate the substance from the wood. It is produced using high-pressure homogenizers, ultrasonic homogenizers, grinders, or microfluidizers, for example.
These nanoparticles are very light, sturdy, and electrically conductive, making them a great product for use in composites. A nanocomposite containing a nano cellulose component has the strength to stop a bullet, making it suitable for the production of bullet-proof goods. Furthermore, due to its low density, high aspect ratio, and hardness, it is an excellent addition to cement.
Due to its low oxygen permeability, nano-fibrillated cellulose has the potential to replace plastic films in composite packaging. Consumers are becoming increasingly cautious about the use of synthetic fillers in composite materials owing to environmental concerns.
As a result, replacing synthetic pads with natural ones will benefit the environment. Since the product has high heat conductivity, a low density, and is biodegradable, it is a suitable choice. Consumer demand for eco-friendly products in the personal care and food and beverage sectors is driving the demand.
According to the Technical Association of the Pulp and Paper Industry (TAPPI), the growing number of patent applications and research publications reflects the public's interest in this type of nanomaterial. Nanocellulose has the potential to replace many petrochemical-based goods and is less expensive than other nanoscale high-performance materials.
It has outstanding qualities like disability, biodegradability, transparency, flexibility, high mechanical strength, and barrier properties, among others. In the coming years, the growing food and beverage sector, as well as rising health concerns, will play a significant role in driving the nano cellulose market share.
Most packaging industry firms are also making significant efforts to improve packaging material qualities in terms of sustainability and recycling. Nanocellulose has a significant impact on lowering carbon footprints. In the coming years, the industry will be fueled by rising environmental concerns, including global warming and environmental regulations.
Even though cellulose is abundant in nature, the synthesis of these nanomaterials necessitates extensive technical expertise and technology, which raises the production cost. Furthermore, numerous other materials provide the same function as these materials at a far cheaper cost. Metal additions, for instance, change the characteristics of plastic composites in the same way as nano cellulose does, but at a fraction of the cost. As a result, regulated monoculture is necessary to ensure a steady supply, raising the entire cost of manufacturing. Therefore, the market's development potential is hampered by the high manufacturing costs.
Global nanocellulose market analysis segmented by type into nano fibrillated cellulose, bacterial nanocellulose, and nanocrystalline cellulose
The analysis of the global nano-cellulose market is categorized by type into nano-fibrillated cellulose, bacterial nanocellulose, and nanocrystalline cellulose. For Nanofibrillated Cellulose (NFC), applications span across composite materials, food additives, filtration membranes, drug delivery systems, and aerogels. Bacterial Nanocellulose (BNC) finds applications in medical implants, wound dressings, tissue engineering, food thickening agents, and cosmetics. In the case of Nanocrystalline Cellulose (NCC), applications include composites, coatings, electronics, barrier films, and drug delivery.
North America is anticipated to hold a significant share of the global nanocellulose market-
Throughout the forecasted period, North America is expected to hold a significant share of the market. The increasing demand from the aerospace and pharmaceutical industries is a key driver for market growth. For example, the Federal Aviation Administration (FAA), U.S. commercial air carriers domestic enplanements by carrier group, witnessed a rise from 402 million in 2021 to 522 million in 2022 for mainline, with projections reaching 402 million by 2025.
In North America, prominent research institutions and companies are actively engaged in the development and innovation of nano-cellulose technologies. The region's robust economic foundation, well-established industries, commitment to sustainability, and advancements in research and development collectively position it as a major player in the global nano-cellulose market.
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Market Segmentation