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市場調查報告書
商品編碼
1662649
螺旋膜市場至2030年的預測:按類型、材料、技術、應用、最終用戶和地區的全球分析Spiral Membrane Market Forecasts to 2030 - Global Analysis By Type, Material, Technology, Application, End User and By Geography |
根據 Stratistics MRC 的資料,全球螺旋膜市場規模在2024年達到 92.3億美元,預計到2030年將達到 187.3億美元,年複合成長率為 12.5%。
螺旋膜是水處理過程中常用的過濾技術。它由螺旋纏繞的半透膜組成,可以有效地將污染物從液體中分離出來。這種設計增加了表面積,增強了逆滲透、超過濾和奈米過濾等應用的過濾過程。由於其高效和緊湊的設計,螺旋膜廣泛應用於水質淨化、食品和飲料、製藥和污水處理等行業。
根據美國勞工統計局的資料,2020年食品支出下降了10.4%,其中外食支出下降了32.5%。
水處理需求不斷成長
隨著全球水資源短缺問題日益令人擔憂,對高效水過濾解決方案的需求也日益成長。螺旋膜廣泛應用於海水淡化、污水處理和淨化過程,特別是在逆滲透(RO)系統中。隨著薄膜材料的改進,其去除雜質的有效性使其成為提供安全、清潔水的完美方法。水處理產業採用螺旋膜技術是由於這種不斷成長的需求,受到工業和市政需求的推動,特別是在供水有限的地區。
膜壽命有限
由於污垢、結垢和磨損,螺旋膜在過濾操作中的效率會隨著時間的推移而降低。為了保持最佳性能,它們需要經常更換和清洗,增加了營運成本。在水處理量大且長膜壽命對於成本效益非常重要的產業中,克服這項限制尤其困難。即使膜材料有所改進,螺旋膜長期使用的主要障礙是需要頻繁維護和最終更換。
海水淡化計劃需求不斷成長
隨著淡水資源變得越來越有限,海水淡化已成為提供清潔飲用水的重要策略,尤其是在乾旱地區。螺旋膜(特別是逆滲透(RO)系統中的螺旋膜)由於其能有效去除海水中的鹽和雜質而處於海水淡化技術的前沿。人口成長、都市化和氣候變遷的影響也推動這項需求,推動世界各地對大型海水淡化廠的投資,並大幅增加螺旋膜技術在水質淨化的使用。
低收入地區採用有限
高昂的初始資本投資、安裝和維護成本使得開發中國家難以負擔這些先進的過濾系統,特別是在預算有限的地區。此外,螺旋膜系統的操作和維護需要專業的技術知識,這可能會進一步限制其採用。因此,基礎設施和財政資源有限的地區可能必須依賴更便宜、效率更低的水處理技術,儘管螺旋膜在解決水資源短缺和污染方面具有潛在優勢,但它仍無法廣泛應用。
COVID-19 的影響
人們對衛生意識的不斷增強以及對清潔水的需求導致對水處理解決方案的需求增加,這有利於螺旋膜市場,特別是在市政和醫療保健領域。疫情導致製造延遲、供應鏈中斷以及膜系統安裝困難,影響了市場成長。由於預算限制和公共和私營部門的經濟不確定性,大型水處理計劃的取消和延遲也減緩了疫情期間整體市場的擴張。
預計預測期內聚醯胺細分市場規模最大。
由於聚醯胺具有優異的耐化學性、高機械強度和高效的水過濾性能,預計在預測期內將佔據最大的市場佔有率。聚醯胺通常用於海水淡化和水質淨化淨化的逆滲透膜,在去除鹽和污染物方面具有優異的性能。對永續水處理解決方案的需求不斷增加,加上聚醯胺的耐用性和成本效益,使其成為首選材料。此外,聚醯胺膜技術的不斷進步推動其在製藥、食品加工和市政水處理等行業的進一步應用。
預計海水淡化領域在預測期內將實現最高的年複合成長率。
預計海水淡化領域在預測期內將呈現最高的成長率。隨著淡水資源變得越來越稀缺,特別是在乾旱地區,海水淡化已成為提供清潔飲用水的關鍵解決方案。螺旋膜,尤其是逆滲透系統中的螺旋膜,由於其去除鹽和污染物的效率高,在海水淡化方面非常有效。全球人口成長、都市化和氣候變遷議題推動對海水淡化計劃的進一步投資,增加對螺旋膜等先進膜技術的需求。
預計預測期內亞太地區將佔據最大的市場佔有率。中國、印度和中東等國家正大力投資水處理技術,包括海水淡化和污水處理,以滿足日益成長的清潔水需求。此外,該地區龐大的製造業基礎和不斷擴大的食品和飲料行業進一步推動了螺旋膜技術在過濾和分離過程中的應用,推動了該地區的市場成長。
由於對先進水處理技術的需求不斷增加,尤其是海水淡化、市政水淨化和工業應用,預計北美地區在預測期內將呈現最高的年複合成長率。嚴格的環境法規和對永續性的關注推動各行各業採用高效的過濾系統。對基礎設施維修的投資,特別是老化水處理廠的投資,也推動了該地區市場的發展。此外,農業、食品飲料和製藥領域對清潔水的需求不斷成長,進一步推動了北美地區對螺旋膜技術的應用。
According to Stratistics MRC, the Global Spiral Membrane Market is accounted for $9.23 billion in 2024 and is expected to reach $18.73 billion by 2030 growing at a CAGR of 12.5% during the forecast period. A spiral membrane is a type of filtration technology commonly used in water treatment processes. It consists of a semi-permeable membrane wound in a spiral configuration, which allows for the efficient separation of contaminants from liquids. This design increases surface area, enhancing the filtration process for applications such as reverse osmosis, ultrafiltration, and nanofiltration. Spiral membranes are widely used in industries like water purification, food and beverage, pharmaceuticals, and wastewater treatment due to their high efficiency and compact design.
According to the U.S. Bureau of Labour Statistics, the spending on food showed a decrease of 10.4% in 2020, driven by a fall in the spending for food away from home with a 32.5% decline.
Rising demand for water treatment
The need for efficient water filtration solutions has increased as concerns about worldwide water scarcity grow. Spiral membranes are extensively employed in desalination, wastewater treatment, and purification procedures, especially in reverse osmosis (RO) systems. Together with improvements in membrane materials, their effectiveness in eliminating impurities makes them the perfect way to supply safe, clean water. Spiral membrane technology adoption in the water treatment industry is fuelled by this rising demand, which is fuelled by both industrial and municipal needs, especially in areas with limited water supplies.
Limited lifespan of membranes
The efficiency of spiral membranes in filtration operations is decreased as a result of fouling, scaling, and wear over time. Maintaining optimal performance necessitates frequent replacement or cleaning, which raises operating expenses. High water throughput industries or those where a longer membrane lifespan is essential for cost-effectiveness may find this restriction especially difficult to overcome. A major obstacle to spiral membranes' long-term use in several applications is their requirement for frequent maintenance and eventual replacement, even with improvements in membrane materials.
Growing demand in desalination projects
Seawater desalination has emerged as a key strategy for supplying clean drinking water as freshwater resources grow more limited, particularly in dry areas. Because of their exceptional effectiveness in eliminating salt and impurities from seawater, spiral membranes-especially those found in reverse osmosis (RO) systems-are at the forefront of desalination technology. Population increase, urbanization, and the effects of climate change are further factors driving this need, which in turn is propelling investments in massive desalination facilities across the globe and greatly increasing the use of spiral membrane technology for water purification.
Limited adoption in low-income regions
High initial capital investment, installation, and maintenance costs make it difficult for developing countries to implement these advanced filtration systems, especially in areas with constrained budgets. Additionally, the need for specialized technical expertise for operation and maintenance of spiral membrane systems can further limit adoption. As a result, regions with limited infrastructure and financial resources may rely on more affordable, less efficient water treatment technologies, hindering the widespread adoption of spiral membranes despite their potential benefits in addressing water scarcity and pollution.
Covid-19 Impact
Increased awareness of sanitation and the need for clean water led to a rise in the demand for water treatment solutions, which benefited the spiral membrane market, especially in the municipal and healthcare sectors. The pandemic impacted market growth by causing manufacturing delays, supply chain interruptions, and difficulties installing membrane systems. Large-scale water treatment project cancellations or delays were also caused by budgetary restraints and economic uncertainty in both the public and private sectors, which slowed the pandemic's total market expansion.
The polyamide segment is expected to be the largest during the forecast period
The polyamide segment is expected to account for the largest market share during the forecast period, due to its excellent chemical resistance, high mechanical strength, and efficiency in water filtration. It is commonly used in reverse osmosis membranes for desalination and water purification, offering superior performance in removing salts and contaminants. The growing demand for sustainable water treatment solutions, coupled with polyamide's durability and cost-effectiveness, makes it a preferred material. Additionally, continuous advancements in polyamide membrane technology further enhance its adoption across industries like pharmaceuticals, food processing, and municipal water treatment.
The desalination segment is expected to have the highest CAGR during the forecast period
Over the forecast period, the desalination segment is predicted to witness the highest growth rate. As freshwater resources become increasingly scarce, particularly in arid regions, seawater desalination has emerged as a vital solution for providing clean drinking water. Spiral membranes, especially in reverse osmosis systems, are highly effective in desalinating seawater due to their efficiency in removing salts and contaminants. The rising global population, urbanization, and climate change concerns further boost investments in desalination projects, driving the demand for advanced membrane technologies like spiral membranes.
During the forecast period, Asia Pacific region is expected to hold the largest market share. Countries like China, India, and the Middle East are investing heavily in water treatment technologies, including desalination and wastewater treatment, to address the growing demand for clean water. Additionally, the region's large manufacturing base and expanding food and beverage industries further fuel the adoption of spiral membrane technologies for filtration and separation processes, accelerating market growth in the region.
Over the forecast period, the North America region is anticipated to exhibit the highest CAGR, owing to increasing demand for advanced water treatment technologies, particularly in desalination, municipal water purification, and industrial applications. Stringent environmental regulations and a strong emphasis on sustainability push industries to adopt efficient filtration systems. The region's investment in infrastructure upgrades, particularly in aging water treatment plants, also boosts the market. Additionally, the growing demand for clean water in agriculture, food and beverage, and pharmaceutical sectors further propels the adoption of spiral membrane technology across North America.
Key players in the market
Some of the key players profiled in the Spiral Membrane Market include Dow Inc., Toray Industries, Inc., LG Chem Ltd., Pentair plc, SUEZ Water Technologies & Solutions, Pall Corporation, Mitsubishi Chemical Corporation, 3M Company, Veolia North America, Parker Hannifin Corporation, General Electric (GE) Water & Process Technologies, Koch Membrane Systems, Inc., Toyobo Co., Ltd., Filtration Group Corporation, Lanxess AG, and Sartorius AG.
In December 2024, Dowopens announced that it has entered into a definitive agreement to sell a 40% equity stake in select U.S. Gulf Coast infrastructure assets to a fund managed by Macquarie Asset Management, a leading global infrastructure and energy asset manager.
In November 2024, LG Chem and the extrusion machine manufacturer Reifenhauser have signed a Memorandum of Understanding (MOU), confirming further extensive cooperation. The aim is to further develop and market competitive Machine Direction Oriented (MDO)-PE blown films and flat films for recyclable packaging. The partners are building on a successful track record: In May 2024, the companies had presented the world's first MDO-PE film only 18 micrometers (µm).
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.