市場調查報告書
商品編碼
1359884
膜過濾市場 - 全球產業規模、佔有率、趨勢、機會和預測,2018-2028 年。按類型、模組設計、薄膜材料、最終用途、區域按應用、競爭細分Membrane Filtration Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028F. Segmented By Type, By Module Design, By Membrane Material, By End-Use, By Application By Region, Competition |
預計全球膜過濾市場在2024-2028年預測期內將蓬勃發展。由於對未經處理廢水排放的環境限制不斷增加,預計全球膜分離技術市場將在預測期內高速擴張。此外,預計乳製品加工和飲料行業中膜分離技術的使用不斷增加將推動預測期內的市場擴張。
由於對未經處理廢水排放的環境限制日益嚴格,預計全球膜分離技術市場在預測期內將高速擴張。此外,乳製品加工和飲料行業擴大使用膜分離技術進行高級過濾,預計將在預測期內促進市場擴張。
水處理中一個快速發展的方面是薄膜過濾。過濾器有多種類型,具有不同的顆粒直徑和排列方式。去除相對較大的顆粒物質以及去除溶解的化學物質只是薄膜過濾的眾多潛在用途的一小部分。膜是一種薄的半滲透材料片,可以根據污染物的化學和物理特性分離污染物。此外,液體過濾膜還可用於去除食品中的生質能、去除處理過的市政水中的細菌、處理廢水、過濾循環水和濃縮漿液等任務。
市場概況 | |
---|---|
預測期 | 2024-2028 |
2022 年市場規模 | 225.8億美元 |
2028 年市場規模 | 324.3億美元 |
2023-2028 年複合年成長率 | 6.26% |
成長最快的細分市場 | 微濾 |
最大的市場 | 亞太 |
預計該市場將受到許多最終用途行業擴大實施膜分離技術以限制有害廢水排放的推動。此外,許多政府措施和其他幾個相關組織,包括美國國家科學基金會 (NSF)、能源與環境事務部 (EEA)、美國測試與材料協會 (ASTM)、歐洲環境署 (EEA) 和環境保護部該機構(EPA)預計將對市場的擴張產生積極影響。
在過去的十年中,對水處理技術的需求急劇增加。缺乏良好的飲用水是需求增加的主要原因之一。人口成長以及地下水和地表水體污染導致水資源加速枯竭,從而推動了水處理程序的使用。由於容量限制和財務限制,以及無法執行高強度水過濾,市政公司不會對向家庭提供的水進行廣泛的處理程序,因此薄膜過濾的使用增加。這種趨勢在中南美洲和亞太地區等發展中地區很普遍。近年來,這些地區經歷了人口的巨大成長和顯著的工業化。預計類似的趨勢在不久的將來也會持續下去。由於缺乏純淨水,預計對水過濾器和過濾系統的需求將會很高。
由於降雨模式的變化以及地下水和地表水資源的過度使用,世界目前正在經歷前所未有的水資源短缺。海水淡化已成為縮小水供需差距的實用解決方案,特別是滿足家庭和市政需求。沙烏地阿拉伯、阿拉伯聯合大公國和巴林等海灣合作理事會 (GCC) 國家嚴重依賴海水淡化來滿足日常用水需求。 GWI 海水淡化統計數據顯示,全球 150 個不同國家有 18,426 個海水淡化廠。據介紹,這些設施每天生產8,700萬立方公尺潔淨水,為3億多人提供用水。歷史上曾使用熱蒸餾來淡化海水。海水淡化最受歡迎的兩種熱脫鹽方法是多效蒸餾(MED)和多級閃蒸(MSF)。然而,海水淡化廣泛使用的兩個主要障礙是回收率低和能耗高。由於逆滲透 (RO) 薄膜技術的快速進步和 RO 模組的顯著減少,市場動態現已發生變化,有利於海水逆滲透 (SWRO) 技術。這增加了全球膜過濾市場的需求。
低能源成本和工業過濾對更好加工的需求的增加正在推動膜過濾產業的發展。它可以有效地處理包括空氣在內的各種氣體,是冷凍保存對熱敏感材料的有效方法。它起到柵欄的作用,從液體或氣體中去除危險的微生物,而不是根除它們。膜過濾通常用於大規模工業應用。它主要用於從溶液中分離微小顆粒。這種方法在特定方面與其他方法不同,包括其對細菌攻擊、嚴酷化學條件和升高溫度的抵抗力。
該程序有可能污染膜並減少滲透流量。薄膜過濾器需要昂貴的生產和維護。由於採用高流速,薄膜過濾器需要定期維護,這可能會破壞剪切敏感材料。如果生產過程管理不善,大孔膜可能會導致問題並導致功能不良。
以超濾分離可生產蛋白質濃度為35%~85%的乳清蛋白粉。新鮮起司的生產、起司奶的蛋白質標準化、牛奶中的乳糖降低以及滲透物和粉末的脫鈣只是超濾眾多乳製品應用中的一小部分。乳製品生產商對超濾產生了興趣,預計超濾將在不久的將來推動膜過濾市場的擴張。
預計薄膜過濾市場將在未來幾年受益於陶瓷膜等技術的發展,這可以提高製造效率。未來幾年,消費者對陶瓷膜過濾技術的需求可能會增加,因為它具有化學和熱穩定性、窄孔徑分佈、高孔隙率、高通量、機械強度(支持反沖洗)、抗微生物性和長使用壽命。此外,未來對逆滲透技術的需求可能會很強勁,因為它可以輕鬆去除水中的硬度和有害物質。
根據給定的市場資料,TechSci Research 可根據公司的具體需求提供客製化服務。該報告可以使用以下自訂選項:
(註:公司名單可依客戶要求客製化。)
Global Membrane Filtration Market is predicted to thrive during the forecast period 2024- 2028. Due to increasing environmental restrictions on the discharge of untreated wastewater, the global market for membrane separation technology is anticipated to expand at a high rate during the forecast period. Moreover, growing usage of membrane separation technology in the dairy processing and beverage industries is anticipated to boost market expansion over the forecast period.
Due to increasing environmental restrictions on the discharge of untreated wastewater, the global market for membrane separation technology is anticipated to expand at a high rate during the forecast period. Moreover, growing usage of membrane separation technology in the dairy processing and beverage industries for advance filtration is anticipated to boost market expansion over the forecast period.
A rapidly growing aspect in water treatment is membrane filtration. There are numerous types of filters that come in a variety of particle diameters and arrangements. The removal of relatively big particle material to the removal of dissolved chemicals are only a few of the many potential uses for membrane filtering. A membrane is a thin, semi-permeable sheet of material that may separate pollutants according to their chemical and physical properties. Moreover, Membranes for liquid filtration are used for tasks including removing biomass for food, removing bacteria from treated municipal water, treating waste-water, filtering circulating water, and concentrating slurries.
Market Overview | |
---|---|
Forecast Period | 2024-2028 |
Market Size 2022 | USD 22.58 Billion |
Market Size 2028 | USD 32.43 Billion |
CAGR 2023-2028 | 6.26% |
Fastest Growing Segment | Microfiltration |
Largest Market | Asia-Pacific |
The market is anticipated to be driven by the growing implementation of membrane separation technology across numerous end-use industries to limit the emission of hazardous effluents. Additionally, a number of government initiatives and several other relevant organizations, including the National Science Foundation (NSF), Energy & Environmental Affairs (EEA), American Society for Testing & Materials (ASTM), European Environment Agency (EEA), and Environmental Protection Agency (EPA), are anticipated to have a positive effect on the market's expansion.
Over the last decade, the demand for water treatment techniques has increased sharply. The lack of good drinking water is one of the main causes of the increase in demand. The use of water treatment procedures has been driven by the acceleration of water resource depletion brought on by increasing population and contamination of ground and surface water bodies. Due to capacity constraints & financial constraints, and the inability to execute high-intensity water filtration, municipal corporations do not expose the water they supply to households to extensive treatment procedures, due to which the use of the membrane filtration has grown. This trend is prevalent in developing areas like Central & South America and Asia Pacific. In recent years, these areas have experienced both tremendous population increase and significant industrialization. Similar trends are anticipated to continue in the near future for them as well. High demand for water filters and filtration systems is anticipated due to a lack of pure water.
Moreover, environmental issues and strict regulatory framework are predicted to have a major impact on how the industry grows soon. The water filtration business is expected to benefit from government rules and policies that control water treatment for home and industrial wastewater, which will increase demand for membrane separation technology. Industry participants have been compelled by such rules and regulations to make significant investments in water treatment technologies.
Due to changed rainfall patterns and overuse of groundwater and surface water resources, the world is currently experiencing water scarcity on a scale never seen before. Desalination of seawater has become a practical solution to reduce the gap between water supply and demand, particularly for meeting home and municipal needs. Saudi Arabia, the UAE, and Bahrain are among the Gulf Cooperation Council (GCC) nations that rely heavily on seawater desalination to meet their daily water needs. The GWI Desal statistics showed that there were 18,426 desalination operations spread over 150 different nations. According to reports, these facilities produce 87 million cubic meters of clean water daily, providing water to over 300 million people. Thermal distillation has been used historically to desalinate seawater. Two of the most popular thermal desalination methods for seawater desalination are multi-effect distillation (MED) and multi-stage flash (MSF). However, the two main barriers to the widespread use of seawater desalination were its low recovery rate and high energy consumption. The market dynamics have now altered in favor of seawater reverse osmosis (SWRO) technology due to the quick advancement in reverse osmosis (RO) membrane technology and significant reduction in RO modules. This increases the demand for global membrane filtration market.
Low energy costs and an increase in the demand for industrial filtering for better processing are driving the membrane filtration industry. It works effectively with a variety of gases, including air, and is an efficient method for cryopreserving material that is sensitive to heat. It acts as a fence and removes dangerous microorganisms from the liquid or gas, rather than eradicating them. Membrane filtration is often used in large-scale industrial applications. It is primarily used to separate minute particles from solutions. This method differs from others in specific aspects, including its resistance to bacterial attacks, severe chemical conditions, and increasing temperature.
The procedures have the potential to contaminate the membrane and reduce penetration flow. Membrane filters require expensive production and maintenance. Because of the high flow rates employed, membrane filters require periodic maintenance, which could destroy the shear-sensitive material. Large pore membranes can cause problems and function badly if the production process is not well managed.
Whey protein powder with a protein concentration of 35% to 85% can be produced with the aid of ultrafiltration separation. The manufacturing of fresh cheese, protein standardization of cheese milk, lactose reduction in milk, and decalcification of permeates and powders are just a few of the many dairy applications for ultrafiltration. Dairy producers have taken an interest in UF, which is expected to drive the expansion of the membrane filtering market in the near future.
The market for membrane filtration is anticipated to benefit in the next years from technological developments, such as in ceramic membranes, that could boost manufacturing efficiency. Consumer demand for ceramic membrane filtering technologies may increase over the future years as it has chemical and thermal stability, narrow pore size distribution, high porosity, high flux, mechanical strength (enabling back flushing), microbiological resistance, and long lifetime. Moreover, future demand for reverse osmosis technology may be strong since it makes it simple to remove hardness and hazardous substances from water.
On the basis of type, the market is segmented into type, module design, membrane material, end-use, and application. On the basis of type, the market is segmented into Reverse Osmosis, Microfiltration, Nanofiltration, Forward Osmosis and Ultrafiltration. On the module design, the market is further segmented into Spiral Wound, Tubular Systems and Plate & Frame and Hollow Fibre. Based on membrane material, the market is Ceramic and Polymeric. Based on end-use, the market is segmented into Alcoholic Beverages, Non-Alcoholic Beverages, Dairy Products, Food & Beverages, Sugar, Bakery, and Others. On the basis of application, the market is segmented into Protein Processing, Nutraceutical Processing, Color Reduction, Concentration, pH Balancing, and Others. Based on region, the market is divided among North America, Europe, Asia-Pacific, South America, and Middle East & Africa.
Merck KGgA, Toray Industries, Inc, Pentair plc, Hydranautics, AXEON Water Technologies, GEA Group Aktiengesellschaft, Hyflux Ltd., 3M Company, Suez SA, Pall Corporation are among the major players that are driving the growth of the global Membrane Filtration Market.
In this report, the global Membrane Filtration Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
Company Profiles: Detailed analysis of the major companies present in the global Membrane Filtration Market.
With the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report:
(Note: The companies list can be customized based on the client requirements.)