市场调查报告书
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1403876
全球离子交换膜市场 - 预测(2024-2031)Ion Exchange Membrane Market - Forecast(2024 - 2031) |
预计2030年,全球离子交换膜市场规模将达14亿美元,2024年至2030年复合年增长率为3.7%。市场成长主要归因于其在海水淡化、废水处理、放射性废弃物处理和其他各种应用的广泛应用。安全饮用水的需求不断增长以及政府确保清洁水供应的措施预计将推动市场成长。此外,未来新兴经济体对废水处理项目的需求不断增长预计将为市场成长提供机会。此外,预计各地区日益严重的水资源短缺将导致离子交换膜产业在预测期内快速成长。
世界卫生组织 (WHO) 宣布新冠肺炎 (COVID-19) 为大流行病,其出现对该地区 2020 年的经济成长产生了显着影响。COVID-19大流行对离子交换膜市场的成长产生了正面影响。疫情期间,新冠肺炎 (COVID-19) 透过饮用水和污水的传播增加,增加了对清洁水的需求,以确保健康、粮食和营养安全。此外,许多政府机构和非营利组织已采取措施提高人们对水安全的认识,这增加了对离子交换膜的需求并促进了市场成长。
由于中国、印度和日本等国家对用于饮用和卫生的清洁水的兴趣日益浓厚,亚太地区在离子交换膜市场上占据主导地位。离子交换膜用于去除杂质,因此水处理需求的不断增长将导致市场成长。
氯碱离子交换膜主要用于电解厂,帮助分离氯化钠中的钠离子和氯离子,并推动该领域的成长。
此外,离子交换膜可能是过滤和分离过程中的污染源,这引起了健康问题,并对这个市场的成长构成了挑战。
以收入计算,亚太地区在 2020 年占据离子交换膜市场的主导地位,份额为 48.7%,预计在 2021-2026 年预测期内也将主导该市场。在中国、印度和其他亚太国家等人口大国,对水的再利用和节约的需求正在迅速增加。此外,在日本和印度等国家,离子交换膜在海水淡化、废水处理和电渗析等各种应用中的适用性不断增强,预计将促进市场成长。在印度,《Safe Drinking Water Act》要求 EPA(美国环保署)制定法规,保护人类健康免受饮用水污染物的影响。该法案授权美国环保署制定国家饮用水标准并确保遵守这些标准。因此,该地区各种最终用途产业对离子交换膜的需求不断增长,预计将在预测期内进一步推动市场成长。
医疗部门产生大量含有有害细菌的废水。为了减少这些原因,医疗领域的废水管理使用离子选择薄膜等技术,在处理过程中选择所需的离子,使水可以在药品生产中重复使用。在製药业中,离子交换树脂用于医药产品的纯化,并用于掩盖医药产品的味道和气味。此外,离子交换膜普遍用于广泛的电化学应用,如燃料电池、电池、电渗析、感测器等,增加了离子交换膜在电子领域的使用并促进了市场成长。因此,电子和医疗产业对离子交换膜的需求不断增长,预计将在预测期内提振离子交换膜市场。
离子交换膜的使用需要较高的投资,而离子交换膜的使用需要大量的时间,这显着增加了总体成本,并对市场成长构成了挑战。此外,膜性能、製程和设计方面的各种研发活动进一步增加了成本,这对该市场的成长构成了挑战。例如,目前离子交换膜的成本约为250-500美元/平方米,价格过于昂贵,对离子交换膜市场的成长构成挑战。
该报告研究了全球离子交换膜市场,并提供了市场份额、驱动因素、细分市场、区域和主要参与者的分析。
The ion exchange membrane market size is forecast to reach $1.4 billion by 2030, after growing at a CAGR of 3.7% during 2024-2030. Growth of the ion exchange membrane market is mainly attributed to its wide-ranging applications across desalination, waste water treatment, radioactive liquid waste treatment and various other applications. Rising demand for safe drinking water and government initiatives to ensure clean water supply is anticipated to drive the growth of the market. Additionally, in future, the rising demand for wastewater treatment projects in developed economies is expected to provide opportunities for the market growth. Furthermore, increased water scarcity across various regions will upsurge the ion exchange membrane industry over the forecast period.
The emergence of COVID-19, which is declared a pandemic by the World Health Organisation, had a noticeable impact on regional economic growth in 2020. The COVID-19 pandemic positively impacted the growth of ion exchange membrane market. During pandemic, the need of clean water for health, food and nutrition security increased owing to increasing transmission of coronavirus through drinking water and sewage water. Moreover, many government bodies and non-profit organization took initiatives to create awareness about water safety and security that increased the demand of ion exchange membrane and hence raised the growth of the market.
The report, "Ion Exchange Membrane Market- Forecast (2021-2026)", by IndustryARC, covers an in-depth analysis of the following segments of the ion exchange membrane market.
By Charge Analysis: Cation Exchange Membrane, Anion Exchange Membrane, Amphoteric Exchange Membrane, Bipolar Exchange Membrane, and Mosaic Exchange Membrane.
By Material: Hydrocarbon Membrane, Perfluorocarbon Membrane, Inorganic Membrane, Composite Membrane, and Partially Halogenated Membrane.
By Application: Electro Dialysis, Electrolysis, Chromatographic Separation, Desalination, Waste Water Treatment, and Radioactive Liquid Waste Treatment.
By Structure: Heterogenous Membrane and Homogenous Membrane
By Geography: North America (U.S., Canada, and Mexico), Europe (UK, Germany, Italy, France, Netherlands, Belgium, Spain, Denmark, and Rest of Europe), Asia Pacific (China, Australia, Japan, South Korea, India, Taiwan, Malaysia, Hong Kong, and Rest of APAC), South America (Brazil, Venezuela, Argentina, Ecuador, Peru, Colombia, Costa Rica, and Rest of South America), and Middle East and Africa (Israel, Saudi Arabia, UAE, South Africa, and Rest of Middle East & Africa).
Asia Pacific dominated the ion exchange membrane market due to the rising concerns of clean water for drinking and sanitation helps in countries such as China, India, Japan, and Others. Since, ion exchange membranes are used in removing impurities, the rising demand for water treatment will lead towards the market growth.
In electrolysis plant, chlor-alkali ion exchange membranes are mostly used that helps to separate the sodium and chloride ions of the sodium chloride and are driving the growth of this segment.
Further, ion exchange membranes can be a source of contamination during the filtration or separation process which increases the concerns regarding health and are challenging the growth of this market
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Cation exchange membrane held the largest share of 45.5% by revenue in the ion exchange membrane market in 2020. Cation exchange membrane consists of negatively charged functional groups. They are typically made of fluorinated polymer and transfer protons to show high conductivity owing to the presence of negatively charged sulfonate group. These materials help in electro dialysis and are strong acid polymer membranes, containing significant quantities of sulphonic acid groups and show excellent ion conductivity and chemical/thermal durability. Increasing use of cation exchange membrane in various ion exchange membrane applications would further drive the market growth.
Perfluorocarbon membrane held the largest share of 37.1% by revenue in the ion exchange membrane market in 2020. Perfluorocarbon membranes are very stable against oxidative corrosion and chemical attack caused by high potentials. They are widely used acid electrolytes for iron chromium cells or vanadium redox flow cells. The factors boosting the market growth are proton conductivity of perfluorinated membrane owing to their architecture that leads to very effective proton transport, as long as the hydrophilic regions consists enough water. Also, the rising use of perfluorocarbon membrane to fabricate cation exchange membranes is estimated to drive the demand of the market.
Electrolysis held the largest share with 35% in the ion exchange membrane market in 2020 and is anticipated to grow at a CAGR of 2.7% during the forecast period 2021-2026. Ion exchange membranes (IEMs) have great potential in diverse applications of electrolysis and play prominent roles in addressing energy and environment related issues. Hence, the development of IEMs in the use of electrolysis has attracted much research attention in terms of materials, preparation and applications, owing to their academic and industrial values. Ion exchange membranes are also used as a separator in organic synthesis by electrolysis a typical example is hydro dimerization of acrylonitrile to produce adiponitrile. Moreover, owing to its compactness and high efficiency and cost-effective nature, ion exchange membranes (IEM) are in demand in green hydrogen processing for future energy supply systems. Thus, the increasing usage of ion exchange membrane in the electrolysis application is estimated to drive the market growth in the forecast period.
Heterogenous membrane held the largest share in the ion exchange membrane market in 2020. The ion exchange groups in Heterogeneous membranes are contained in small domains and are distributed throughout the inert matrix. The excellent structural stability of heterogeneous membrane and better mechanical strength and chemical stability and relatively low cost of production of heterogeneous membrane are the key factors driving the market growth for heterogeneous membrane. The low cost performance of homogenous membranes is optimized by varying its composition such as binder, ion exchange, and additives and physical parameters like porosity, thickness. Thus, rising demand for heterogenous membrane will further boost the growth of the market.
Asia Pacific dominated the ion exchange membrane market in terms of revenue with a share of 48.7% in 2020 and is projected to dominate the market during the forecast period 2021-2026. In highly populated countries such as China, India, and other APAC countries, the need for re-use of water and conservation is rising at a significant rate. Also, the increasing applicability of ion exchange membranes in various applications such as desalination, wastewater treatment, and electrodialysis, among others in countries such as Japan and India will raise the growth of the market. In India, the Safe Drinking Water Act requires EPA (the United States Environmental Protection Agency) to establish regulations, to protect human health from contaminants in drinking water. The act authorizes EPA to develop national beverage standards and ensure compliance with these standards. Thus, growing demand for ion exchange membrane from various end use industries in this region will further drive the market growth in the forecast period.
Healthcare sector generates a large amount of wastewater which consists of harmful bacteria and in order to reduce such causes wastewater management in healthcare sector are using technologies such as ion selective permeable membranes to select the ions that are required during the process and to make water reusable for manufacturing medicines. In pharmaceutical Industry, ion exchange resins are used for the purification of drugs and are used to mask the taste and smell of drugs that increases the demand and are driving the growth of this market. Also, ion exchange membrane are commonly used for a wide range of electrochemical applications, such as fuel cells, batteries, electrodialysis, and sensors which increases the use of ion exchange membrane in electronic sector and are boosting the growth of the market. Therefore, rising demand for ion exchange membrane in the electronic and healthcare industry is projected to fuel the market for ion exchange membrane market during the forecast period.
High investment is required in case of ion exchange membranes and more time is required in use of ion exchange membranes, which are significantly increasing the overall cost and are challenging the growth of this market. Moreover, various research and development activities in membrane performance, processes, and designs further increase the cost that are challenging the growth of this market. For instance, currently the cost of ion exchange membrane is approximately $250-500/m2 which is too expensive and is challenging the growth of ion exchange membrane market growth.
Technology launches, acquisitions, and R&D activities are key strategies adopted by players in the ion exchange membrane market. Major players in the ion exchange membrane market are Fujifilm Holdings Corporation, Asahi Kasei Corporation, Saltworks Technologies Inc., Resintech Inc., SnowPure, LLC, FUMATECH BWT GmbH, AGC Chemicals Americas Inc., Rising Sun Membrane Technology (Beijing) Co Ltd, Liaoning Yichen Membrane Technology Co Ltd., and MEGA A.S. among others.
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