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到 2030 年气体分离膜市场预测:材料类型、结构类型、用途、最终用户和地区进行的全球分析Gas Separation Membranes Market Forecasts to 2030 - Global Analysis By Material Type, Construction Type, Application, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球气体分离膜市场规模为 10.7 亿美元,预计预测期内复合年复合成长率为 8.8%,到 2030 年将达到 19.2 亿美元。
当气体颗粒直径不同且差异较小时,可采用气体分离膜将气体从气体混合物中分离出来。气体分离膜装置比其他装置类型更紧凑,因此它们的轨道也更紧凑。聚合物通常用作气体分离膜的膜材料。此外,由于可以加工成高表面积的中空纤维,因此优选。它们用于从空气中分离氮气、从周围空气中去除二氧化碳和水、从空气和氮气流中去除有机蒸气以及执行许多其他任务。
全球能源价格上涨以及对环境永续性的日益担忧使该行业面临巨大压力。气体分离膜作为製程改进、能源效率和排放的重要工具的出现推动了气体分离膜市场的发展。此外,气体分离膜提供了一种有效的方法来分离天然气精製、碳捕获和氢气生产用途中的气体,所有这些都在推动公司寻求符合更严格法规标准的绿色解决方案。
安装气体分离膜系统需要大量的初始投资。此价格包含薄膜组件、相关设备的采购费用以及安装费用。此外,儘管这些系统以排放减排的形式提供了长期效益,但这些系统高昂的初期成本却让一些潜在用户望而却步,尤其是新兴经济体的中小企业和产业。躲开它。透过建立低成本膜製造程序和鼓励财政激励措施可以缓解这种限制。
随着世界向更永续和更清洁的能源转型,气体分离膜面临着巨大的机会。许多清洁能源用途都需要这些薄膜,包括氢气精製、沼气升级和可再生能源生产的碳捕获。此外,随着世界努力减少温室气体排放和应对气候变化,这些用途中对气体分离膜的需求预计将大幅增加。
气体分离膜面临蒸馏、吸附、吸收等传统分离製程的激烈竞争。但要说服业界从这些试验的技术转向气体分离膜是很困难的。为了超越您的竞争,您需要证明您的气体分离膜具有独特的优势、具有成本效益,并且在您的特定用途中具有积极的环境影响。
COVID-19大流行对气体分离膜市场产生了重大影响,扰乱了国际供应链,推迟了专案完成,并降低了许多行业的资本投资。气体分离膜的需求受到停产和限制的影响,这些停产和限制减缓了石化、医疗保健和水处理等行业的製造和建设活动。此外,疫情也凸显了薄膜技术在製药和医用气体生产等领域的价值。随着企业适应新常态并优先考虑业务营运的弹性,这可能会带来市场復苏和扩张的机会。
聚合物膜预计将在气体分离膜市场中占据最大份额。聚合物薄膜因其在各种用途中的适应性和经济性而受到青睐,包括天然气加工、水质净化和氢气分离。特别是,聚酰亚胺和聚酰胺膜因其出色的选择性和耐用性而受到高度重视。此外,这些薄膜因其与各种气体和液体的兼容性而闻名,使其适用于各种工业製程。此外,聚合物薄膜材料和製造方法的改进使其广泛应用于需要特别有效的气体分离和过滤的用途中。
製药业是气体分离膜市场中年复合成长率最高的行业。氧气和氮气等高纯度医用气体的生产对于製药製程和医疗保健用途至关重要,这只是製药业严重依赖气体分离膜的众多重要用途之一。此外,製药公司无尘室和实验室使用气体分离膜进行二氧化碳去除和空气过滤,以确保产品品质并符合严格的行业标准。生物製药的发展、全球医疗保健需求的不断增长以及製药行业的持续增长都促进了该领域的扩张。
预计北美将占据气体分离膜市场的最大份额。特别是在石化和天然气加工等领域,这些领域严重依赖气体分离膜技术来实现高效运作并遵守严格的环境法规。此外,北美地区积极进行研发工作,有助于提升膜系统和膜材料的技术。此外,采用气体分离膜进行碳捕获和清洁能源生产用途,为该地区减少温室气体排放和推广永续能源解决方案的努力提供了支持。
气体分离膜市场年复合成长率最高的是亚太地区。许多要素促成了这一增长,包括该地区的快速工业化、能源需求的增加以及对环境永续性的日益关注。在亚太地区,中国、印度等新兴经济体对基础设施和工业发展的大量投资创造了对气体分离膜的巨大需求。这些用途包括天然气加工、水处理、排放气体控制等。此外,亚太地区减少碳排放和部署清洁能源的配合措施推动了气体分离膜在碳捕获和清洁能源生产中的采用。
According to Stratistics MRC, the Global Gas Separation Membranes Market is accounted for $1.07 billion in 2023 and is expected to reach $1.92 billion by 2030 growing at a CAGR of 8.8% during the forecast period. When gas particle diameters differ and the difference in gas particle sizes are minimal, gases can be separated from a gas mixture using gas separation membranes. Because gas separation membrane units are more compact than other plant types, their tracks are also more compact. Polymers are frequently used as the membrane material in gas separation membranes. Moreover, they are desirable because of their capacity to be processed into hollow fibers with high surface areas. These are employed to separate nitrogen from air, remove carbon dioxide and water from ambient air, remove organic vapor from air or nitrogen streams, and perform many other tasks.
According to the World Steel Association, global crude steel production was 140.7 million tons (Mt) in December 2022. The total world crude steel production in 2022 was approximately 1,878 million tons, a 4% decrease compared to the production in the prior year.
Industries are under a lot of pressure due to the rising cost of energy globally and growing environmental sustainability worries. The market for gas membranes is being driven by the emergence of gas separation membranes as crucial tools for process improvement, energy efficiency, and emissions reduction. Additionally, gas membranes provide an effective method of separating gases in applications ranging from natural gas purification to carbon capture and hydrogen production, which are all driven by businesses' need for environmentally friendly solutions that adhere to stricter regulatory standards.
Gas separation membrane system installation can require a sizable up-front financial investment. This price covers the cost of buying membrane modules, related equipment, and installation costs. Moreover, the high initial cost of these systems can deter some potential users, particularly smaller businesses and industries in emerging economies, even though they provide long-term benefits in the form of energy savings and reduced emissions. This limitation might be eased by creating low-cost membrane manufacturing procedures and encouraging financial incentives.
Gas separation membranes have a sizable window of opportunity as a result of the global transition to more sustainable and clean energy sources. These membranes are necessary for many clean energy applications, including the purification of hydrogen, upgrading of biogas, and carbon capture for renewable energy production. Furthermore, the need for gas separation membranes in these applications is anticipated to increase significantly as the world works to reduce greenhouse gas emissions and combat climate change.
Gas separation membranes are up against fierce competition from tried-and-true separation processes like distillation, adsorption, and absorption. However, it can be difficult to persuade industries to switch to gas separation membranes from these tried-and-true techniques. In order to outperform the competition, gas membranes must be shown to have unique advantages, be cost-effective, and have positive environmental effects in particular applications.
The COVID-19 pandemic had a significant effect on the market for gas separation membranes by disrupting international supply chains, delaying the completion of projects, and lowering capital expenditures across numerous industries. In industries like petrochemicals, healthcare, and water treatment, the demand for gas separation membranes was impacted by lockdowns and restrictions that slowed down manufacturing and construction activities. Moreover, the pandemic also highlighted the value of membrane technology in fields like the manufacture of pharmaceuticals and medical gases, which could present opportunities for market recovery and expansion as businesses adjust to the new normal and give resilience a priority in their operations.
In the market for gas separation membranes, polymeric membranes are anticipated to hold the largest share. In a variety of applications, such as natural gas processing, water purification, and hydrogen separation, polymeric membranes are preferred for their adaptability and affordability. For their exceptional selectivity and durability, polyimide and polyamide membranes in particular are highly regarded. Moreover, these membranes are well known for being able to work with a variety of gases and liquids, making them appropriate for a range of industrial processes. They have also been widely used, particularly in applications requiring effective gas separation and filtration, thanks to improvements in polymeric membrane materials and manufacturing methods.
The pharmaceutical industry had the highest CAGRs in the market for gas separation membranes. The production of high-purity medical gases, such as oxygen and nitrogen, which are essential for pharmaceutical processes and healthcare applications, is just one of many critical applications for which the pharmaceutical industry heavily depends on gas separation membranes. Additionally, pharmaceutical clean rooms and laboratories use gas separation membranes for carbon dioxide removal and air filtration to guarantee product quality and adherence to rigid industry standards. The development of biopharmaceuticals, rising global healthcare demands, and the ongoing growth of the pharmaceutical industry all contribute to the sector's expansion.
In the market for gas separation membranes, North America is anticipated to have the largest market share. A number of factors contributed to the region's prominence, including its well-established industrial base, particularly in fields like petrochemicals and natural gas processing, which heavily rely on gas separation membrane technology for effective operations and adherence to strict environmental regulations. Additionally, research and development were given a lot of attention in North America, which helped to advance the technology of membrane systems and materials. Furthermore, the adoption of gas separation membranes in carbon capture and clean energy production applications has been boosted by the region's commitment to lowering greenhouse gas emissions and promoting sustainable energy solutions.
The market for gas separation membranes had the highest CAGR in the Asia-Pacific region. Numerous factors, such as the region's quick industrialization, rising energy demand, and growing environmental sustainability concerns, contributed to this growth. A significant demand for gas separation membranes was generated in the Asia-Pacific region as a result of significant investments being made in the development of infrastructure and industry in emerging economies like China and India. These applications included natural gas processing, water treatment, and emissions control. Additionally, the adoption of gas separation membranes in carbon capture and clean energy production was encouraged by Asia-Pacific's commitment to lowering carbon emissions and implementing cleaner energy sources.
Some of the key players in Gas Separation Membranes market include: Fujifilm Corporation, GRASYS JSC, Compact Membrane Systems, Air Liquide Advanced Separations LLC, DIC Corporation, Mahler AGS, Borsig Membrane Technology GmbH, GMT Membrantechnik GmbH, Generon IGS Inc., Air Products and Chemicals Inc, UGS LLC, UBE Industries Ltd, Evonik Industries AG, Atlas Copco AB, Toray Industries Inc., Schlumberger Ltd, Parker Hannifin Corporation, Honeywell International Inc, Membrane Technology and Research Inc and Linde PLC.
In June 2023, Honeywell International Inc. HON has entered into a definitive agreement to acquire heads-up-display assets of Swedish aerospace and defense company Saab Technology. The financial terms of the transaction are kept under wraps. The HUD system reduces the workload for pilots, helps them with increased situational awareness and increases flight safety.
In May 2023, Toray Industries, Inc., announced that it has signed a four-year global partnership agreement with star Japanese sprinter Abdul Hakim Sani Brown. Under this arrangement, he will receive support from Toray and appear in its advertisements while helping develop materials and taking part in its social contribution initiatives.
In July 2022, FUJIFILM Corp. announces that it has agreed to transfer 100% of its equity investments in FUJIFILM Business Equipment Shanghai Corp. held by FUJIFILM Business Innovation Corp., a wholly owned subsidiary in China, to EVA Precision Industrial Limited, a group company of EVA Group Ltd. Based on this agreement, FUJIFILM Business Innovation Corp. signed an Equity Transfer Agreement with EVA Precision Industrial Limited.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.