Global Polymeric Membranes Market

The Global Polymeric Membranes Market is projected to grow at a CAGR of 4.2% to reach a Market Size of US$ 9.01 Billion in 2027 from a value of US$ 7.04 Billion in 2020. The Market is driven by factors such as Increasing Adoption in Pharmaceutical Industry, Scarcity of Fresh Drinking Water and Need for Water Purification Systems, Rising Water Pollution to Fuel Massive Demand and Surging demand from F&B Industry.

  • Definition / Scope
  • Market Overview
  • Top Market Opportunities
  • Market Risks
  • Market Drivers
  • Market Restraints
  • Industry Challenges
  • Technology Trends
  • Pricing Trends
  • Post COVID-19 Recovery
  • Market Size and Forecast
  • Market Outlook
  • Technology Roadmap
  • Competitive Landscape
  • Competitive Factors
  • Key Market Players
  • Strategic Conclusion
  • References
  • Appendix

Definition / Scope

Polymeric Membranes refers to a collection of polymers with improved and more efficient mechanical properties for membrane filtration. Wool, rubber, and cellulose are natural polymers, while polyamide, polysulfide, polyether sulfone, polymethyl pentene, polystyrene, and polytetrafluoroethylene are synthetic polymers used in membrane manufacture (PTFE). Polymeric membranes are cost-effective, have high selectivity, and are simple to prepare and operate in a variety of applications such as beverage processing, feed water generation, chemical processing, and others.

Polymeric membranes are responsible for the large market size in this area due to their high performance, efficiency, and particular separation properties. Also, the increasing use of polymers for applications in end-use industries such as food & beverage, power generation, oil & gas and pharmaceutical, and others are driving the use of polymeric membranes.

Polymeric Membranes Market, by Type

  • Solution-Diffusion Membrane
  • Ion Membrane

Polymeric Membranes Market, by Application

  • Chemical Industry
  • Biology & Medicine
  • Chemical Industry
  • Food & Beverage
  • Water Treatment
  • Others

Market Overview

The Global Polymeric Membranes market is expected to reach $9.01 billion by 2027, up from $7.04 billion in 2021, representing a 4.2% CAGR.

The sudden outbreak of the COVID-19 Pandemic has caused a significant strain on the growth of the Global Polymeric Membranes Market as a result of Disruption in the supply and demand chain of raw materials for manufacturing such as polymers, including polysulfides, polyacrylonitrile, and others, coupled with lack of labor force availability, is straining the productivity of the market.

In terms of revenue, the water & wastewater treatment segment dominated the market, with value of USD 3.75 Billion in the year 2021

Asia Pacific dominated the global market for membranes in 2021, with a share of 43.8% In 2021, Asia Pacific held the highest share of the global membranes market. During the projection period, the market in the area is predicted to grow at the fastest rate.

Market Risks

The Prime Risk for Market Players in the Global Polymeric Membrane Market is

Consolidated Market

The Global Polymeric Membranes Market is highly consolidated with the top 5 players acquiring a market share of more than 60% and this along with the high investments required for R&D activities to find new Formulas makes this industry a highly competitive segment and hence causing entry barriers and necessitating the acquisition or collaboration of small businesses with large corporations.

Top Market Opportunities

The Top Opportunities for Market Players in the Global Polymeric Membranes Market are

Water and Wastewater Treatment Digitalization for Increased Water Reuse: Membrane manufacturers must promote membrane automation’s ease of use as an indirect driver for industrial process adoption.

Proton Exchange and Anion Exchange Membranes to Accelerate Green Hydrogen Production Membranes: Manufacturers will profit from investing in proton exchange and anion exchange membrane development to accelerate green hydrogen production growth.

Blood transfusion and apheresis membranes. The market for apheresis and transfusion membranes will rise in response to the growing demand for blood plasma to make plasma-derived biopharmaceutical products. To address rising markets, manufacturers must focus on developing membrane products for various applications.

Market Drivers

The Major Factors driving the growth of the Global Polymeric Membranes Market are

Increasing Adoption in Pharmaceutical Industry

In recent years, the pharmaceutical and biomedical industries have seen remarkable technological improvement. They play a crucial role in the business, whether it’s recovering valuable intermediates or substrates or lowering the concentration of effluent streams. In the pharmaceutical business, nano filtration and pervaporation techniques are commonly employed to eliminate hazardous elements in the effluent stream. Dyes, colors, BOD/COD, endocrine disruptors, pharmaceutical residue, microplastic, and other contaminants are commonly removed using nano-filtration barrier films. Demand is predicted to rise as rules and regulations governing wastewater treatment and pre-treatment effluents become more stringent.

Scarcity of Fresh Drinking Water and Need for Water Purification Systems

The survival of human life depends on the availability of freshwater for drinking. The water issue has only exacerbated as a result of the rapid increase in population, and it has become imperative to make optimum use of limited resources. The pressure on current freshwater supplies has been eased because to technological advancements. Using this method, seawater may now be transformed to drinking water. Desalination plants based on this technique have proven to be a blessing to people and countries with limited water supplies. People in places like the Middle East and Africa, for example, rely heavily on desalination plants for a variety of activities, including farming, industry, and day-to-day needs.

As the population is rising worldwide, the water crises are getting worse, and it is evident from the increasing number of desalination projects that this technology is evolving as the game-changer. Moreover, an increasing number of household’s water purifiers based on this technology also significantly contribute to consumption.

Rising Water Pollution to Fuel Massive Demand

Industries contribute considerably to water pollution, and the burden on water resources in emerging countries has increased significantly as a result of urbanization and growing industrialization. Increasing environmental concerns have pushed legislators to enact strict industry discharge regulations in order to reduce water pollution. Many industries utilize this technology to comply with regulations by reducing the severity and level of contaminants in their output streams. The concept of zero-discharge is relatively new, and membranes are critical to attaining zero liquid discharge (ZLD) and therefore decreasing industry’s environmental effect. As the process of industrialization progresses, limiting the impact is the only way to maintain long-term growth. These factors may contribute to the growth of the membranes market.

Surging demand from F&B Industry

Nanofiltration membranes are used in the food and beverage industry to concentrate food and beverages naturally without degrading the products. Individuals’ disposable income rises, as does their level of life, in industrialized and emerging economies, resulting in increased demand for fast food and beverages. As a result, the need for nanofiltration membranes for food and beverage concentration is expected to rise. This factor is expected to propel the market forward. The pharmaceutical industry’s expansion in developing countries like India, China, and Brazil is also driving up demand for nanofiltration membranes in the market. Furthermore, the market for nanofiltration membranes is predicted to grow due to an increase in generic pharmaceutical sales, improvements in medical infrastructure, and a surge in demand for low-cost drugs.

Market Restraints

The Major Factors Restraining the Global Polymeric Membranes Market are

Need for Frequent Replacements of Barrier Films

Fouling is a big issue that has a negative impact on the company’s operations. Its efficiency and flow are reduced, resulting in higher energy consumption and deterioration of the water or stream quality. To remove contaminated membranes, the two options are chemical cleaning or replacement (both of which are expensive). Because of these expenses, applications and acceptance are restricted to specialized industries, limiting market growth.

Maintaining low cost of production

Increased volume production while retaining low production costs is difficult, and it is likely to stymie technology adoption.

The separating membranes market’s growth is being hampered by a lack of common testing standards and metrics, which are required for quantitative evaluation and the development of revolutionary membrane solutions.

Industry Challenges

The Prime Challenge for Market Players in the Global Polymeric Membranes Market is

Lack of Performance

To develop consumer trust in a freshly launched product, it must be proved. These procedures make it difficult for a new membrane product to enter the market.

The provision of imperfect solutions is due to a lack of integrity among researchers, end users, system designers, and manufacturers. Due to a lack of explicit performance targets, some solutions are even off target.

The New types of Polymeric Membranes that are gaining substantial growth traction in the Global Polymeric Membranes Market are

Microfiltration Membranes

MF has the widest, or most “open,” pore diameters in the membrane technology spectrum, which correlates to rejection of particles in the micrometer size range. Fats, bacteria, yeast, and suspended solids higher than 0.1-10% are examples of solids that will not pass through the membrane into permeate. Proteins, carbohydrates, dissolved salts, and lower molecular weight compounds will pass through into the permeate, making this format appealing for removing pollutants from recirculating or higher-value feed streams.

MF is widely utilized in the process industries, with the most common applications being dairy, food ingredients, biotechnology/life sciences, drinks, and automotive manufacture. The following are some of the most important uses in these industries:

IndustryApplication
DairyWPI production (whey defatting)
Cheese production (brine clarification)
Skim milk production (casein/whey fractionation)
Food IngredientsSugar/sweetener processing (dextrose clarification prior to refining)
Gelatin processing (downstream clarification)
Other fermentation processes (clarification)
Life SciencesEnzyme manufacturing (downstream processing of bulk fermentation)
BeveragesBeer, wine, and juice production (color removal and clarification)
AutomotivePaint recovery (clarification)
OtherOil-water separation (for water/waste treatment and/or recovery of oils)

Ultrafiltration Membranes

Today, ultrafiltration (“UF”) products are commonly utilized to separate high-value feed streams. Clarification and fractionation are two separation methods that are well suited for UF and have been used for decades. To purify, concentrate, or improve the quality of an end-product, UF can be used after a microfiltration (“MF”) treatment step. It can also be used after another membrane technology, such as nanofiltration (“NF”) or reverse osmosis (“RO”), to purify, concentrate, or improve the quality of an end-product.

Some of the key applications of UF Membranes include the following:

IndustryApplication
DairyWPC and WPI production (protein fractionation / concentration)
Milk production (protein fractionation/concentration)
WPC and WPI production (protein fractionation/concentration)
Food IngredientsSugar/sweetener processing (dextrose clarification prior to refining)
Gelatin processing (protein concentration)
Edible oils (phosphatide removal, degumming)
Other fermentation processes (clarification)
Life ScienceCell mass removal (downstream processing of bulk fermentation)
BeveragesBeer, wine, and juice production (color removal and clarification)
AutomotivePaint recovery (clarification)
OtherOil-water separation (for water/waste treatment and/or recovery of oils)

Polymeric membranes are more desirable due to their low cost, uncomplicated manufacturing, and processability. Although there are better options, such as inorganic membranes, polymeric membranes are now the most used commercial membrane. The Price of Polymeric Membranes primarily depends on the following factors

  1. Plant type
  2. Fuel type
  3. Cooling system and
  4. Manufacturing Process employed

The global average price of Gas Separation Membranes is falling, from 1152 $/unit in 2012 to 832 $/unit in 2021. If new capacity is put into operation and the price of raw materials falls in the future, the price will fall. With a CAGR of 3.51 percent, global sales of Gas Separation Membranes will reach roughly 672 K Units in 2021 from 376 K Units in 2012.

Post COVID-19 Recovery

The outbreak of the COVID-19 pandemic has thrown global trade, production, and logistics into disarray. The halt in industrial activity has had a substantial influence on economies around the world, resulting in an economic downturn. For example, the Centre for Monitoring Indian Economy (CMIE) predicts that India’s unemployment rate was over 27% in the first week of May 2020, which is attributed to the economy’s high strain.

The market’s productivity is being strained by disruptions in the supply and demand chain of raw materials for manufacturing, such as polymers, such as polysulfides, polyacrylonitrile, and others, as well as a lack of labor force availability. To combat the spread of the sickness, the government enforced a number of restrictions and lockdowns, including a temporary halt in production.

However, the intense R&D in developing vaccines and the rules and regulations are expected to relax the curbs on production and trade activities.

Market Size and Forecast

Concerns about water scarcity and the aim to build a circular economy urge industrial and municipal stakeholders to use membrane-based water and wastewater treatment systems. Membranes, such as water treatment membranes, wastewater treatment membranes, medicinal membranes, and industrial membranes, are in high demand as a result of this. As a result, the global polymeric membranes market is expected to reach $9.01 billion by 2027, up from $7.04 billion in 2021, representing a 4.2% CAGR.

The sudden outbreak of the COVID-19 Pandemic has caused a significant strain on the growth of the Global Polymeric Membranes Market as a result of Disruption in the supply and demand chain of raw materials for manufacturing such as polymers, including polysulfides, polyacrylonitrile, and others, coupled with lack of labor force availability, is straining the productivity of the market.

In terms of revenue, the water & wastewater treatment segment dominated the market, with value of USD 3.75 Billion in the year 2021

In 2021, the water and wastewater treatment segment held the greatest proportion of the membranes market. During the forecast period, it is expected to be the fastest growing segment. The application of membrane technology in wastewater treatment has grown in response to rising water contamination caused by agricultural and industrial activities. The demand for membrane technology has grown in response to the scarcity of freshwater resources and the growing need to improve water quality.

The usage of membrane technology in the industrial sector is increasing as improved wastewater treatment techniques such as reverse osmosis, ion exchange, and adsorption become more widely adopted. Membranes are becoming more popular due to the growing demand for improvements in wastewater treatment methods that allow treated wastewater to be reused for agricultural, industrial, and home purposes. Moreover, stringent standards regarding discharge or reuse imposed by the regulatory bodies on water and wastewater treatment are also boosting the demand for the membrane technology.

Asia Pacific dominated the global market for membranes in 2021, with a share of 43.8%

In 2021, Asia Pacific held the highest share of the global membranes market. During the projection period, the market in the area is predicted to grow at the fastest rate. In underdeveloped nations, a lack of potable water has prompted the use of membrane technology in water and wastewater treatment. The growing population and corresponding increase in water use has resulted in an unequal allocation of limited freshwater resources, which has fueled municipal demand for membrane technology. Furthermore, increased industrialization and expansion in agricultural and domestic activities are causing enormous amounts of wastewater to be produced, boosting the membrane market.

Market Outlook

The global polymeric membranes market is expected to reach $9.01 billion by 2027, up from $6.76 billion in 2020, representing a 4.2 percent CAGR.

The primary goal of membrane development has been to treat water and wastewater. Later, as technology advanced, the applications were expanded to include food and beverage, pharmaceutical, biomedical, and other industries. Purification technologies have become promising solutions to meet and fulfil potable water needs as water resources become depleted. Food & beverage has the second-largest membranes market share in the world, and with the industry’s growing penetration in developing nations, the market’s expansion is assured.

The sudden outbreak of the COVID-19 Pandemic has caused a significant strain on the growth of the Global Polymeric Membranes Market as a result of Disruption in the supply and demand chain of raw materials for manufacturing such as polymers, including polysulfides, polyacrylonitrile, and others, coupled with lack of labor force availability, is straining the productivity of the market.

Asia Pacific had the largest share of the global membranes market in 2021. The market in the area is expected to grow at the fastest rate during the projected period. Lack of potable water in developing countries has spurred the application of membrane technology in water and wastewater treatment. The growth in population and related increase in water use has resulted in an unequal distribution of scarce freshwater resources, fueling municipal demand for membrane technology. In addition, growing industrialization and expansion in agricultural and residential activities are generating massive amounts of wastewater to be produced, which is driving the membrane market.

Distribution Chain Analysis

The Supply Chain of the Global Polymeric Membrane Market is as shown in the below figure

Competitive Landscape

The Global Polymeric Membrane market is consolidated with the presence of concentrated large players. The Major players in the Global Polymeric Membranes Market are Nanostone Water, Pall Corporation, Hyflux Ltd., Parker Hannifin, Honeywell, MTR, Schlumberger, Air Liquide, Evonik, Borsig, Air Products, Fuji Film, Veolia Water Technologies, Atech and CoorsTek

Key Market Developments

  • February 2021: Toray Industries announced the development and product launch of a new polyvinylidene fluoride ultrafiltration barrier film with an excellent virus removal rate and high-water permeability for the water treatment process.
  • January 2021: Suez announced the asset purchase of the Reverse Osmosis membrane product line from Lanxess. With this acquisition, Suez integrates the new corresponding RO barrier film technology.

Competitive Factors

The Market Players in the Global Polymeric Membranes Market are employing both organic and inorganic strategies such as New Product Launches, Research & Development, Mergers & Acquisitions, Partnerships and Strategic Alliances. For Instance, In January 2021: Suez announced the asset purchase of the Reverse Osmosis membrane product line from Lanxess. With this acquisition, Suez integrates the new corresponding RO barrier film technology.

Key Market Players

Some of the Key Players in the Global Polymeric Membranes Market are

Nanostone Water is a membrane solutions company with a ceramic ultrafiltration module product line designed specifically for water and wastewater treatment applications. Headquartered in Waltham, MA, the company has ceramic manufacturing operations in Halberstadt, Germany.

Pall Corporation is a global supplier of filtration, separations, and purifying products with headquarters in Port Washington, New York. In fiscal year 2014, total revenues were $2.8 billion, with R&D spending of $103 million. Pall Corporation’s operations are divided into two categories: Life Sciences (c.51 percent) and Industrial (c.51 percent) (c.49 percent). Customers in the biotechnology, pharmaceutical, transfusion medicine, energy, electronics, municipal and industrial water purification, aerospace, transportation, and broad industrial markets benefit from these business groups’ fluid management products and systems.

Hyflux Ltd. is a holding company for investments. Municipal and Industrial are the two segments in which the company operates. The Municipal segment provides towns and agencies with a variety of water and fluid treatment solutions, including the commissioning, operation, and maintenance of a variety of water treatment and liquid separation plants. Liquid separation applications for the manufacturing sector, such as pharmaceutical, biotechnology, food processing, and petrochemical oil-related industries, are included in the Industrial category.

Parker-Hannifin Corporation is a motion and control technology and systems firm that specialises in precision designed solutions for the mobile, industrial, and aerospace markets. Diversified Industrial and Aerospace Systems are the company’s two segments. The Diversified Industrial Segment is made up of many business units that produce motion-control and fluid-power system components for manufacturers and users of a wide range of manufacturing, packaging, processing, transportation, agricultural, construction, and military vehicles and equipment.

Air Liquide S.A. is a French multinational corporation that provides industrial gases and services to a variety of industries, including medical, chemical, and electronic firms. Founded in 1902, it is the world’s second-largest provider of industrial gases by revenue, after only Linde, with operations in more than 80 countries. Its headquarters are in Paris’s 7th arrondissement. The patent for Aqua-Lung was held by Air Liquide until it expired.

Evonik Industries AG (Evonik) is a specialty chemicals corporation established in Germany with four business segments: The Nutrition and Care segment produces specialty chemicals, primarily for use in consumer goods for daily needs and food, as well as nutrition for animal food and healthcare products; the Resource Efficiency segment provides material solutions for environmentally friendly and energy-efficient products used in the automotive, adhesives, and construction industries, among others; and the Performance Materials segment manufactures polymer materials and intermediates, primarily for the automotive, adhesives, and construction industries.

Air Products and Chemicals, Inc. is a manufacturer of industrial gases. Customers across a variety of industries, including refining, chemical, metals, electronics, manufacturing, and food and beverage, rely on the company for important industrial gases, related equipment, and applications. Liquefied natural gas process technologies and equipment are also available from the company. It also creates, engineers, constructs, owns, and operates industrial gas projects, such as gasification, carbon capture, and carbon-free hydrogen, to help with worldwide transportation and energy transformation.

Veolia Environnement SA is a resource management company established in France. It creates and implements solutions for water, waste, and energy management. Potable water plants and supply systems, as well as wastewater systems and treatment facilities, are all covered under water solutions. Waste collection services on behalf of local governments, as well as the operation of specialist sorting centres and platforms, are examples of waste solutions.

Strategic Conclusion

The Global Polymeric Membranes Market is at the saturation point yet it is poised to grow at a substantial growth rate with several verticals set to grow at a faster rate as the market is projected to grow at a CAGR of 4.2% in the forecast period (2020 – 2027). The Global Polymeric Membranes Market is expected to reach a Market Size of US$ 9.07 Billion in 2027 from a value of US$ 7.04 Billion in 2021. Increasing Adoption in Pharmaceutical Industry, Scarcity of Fresh Drinking Water and Need for Water Purification Systems, Rising Water Pollution to Fuel Massive Demand and Surging demand from F&B are some of the major drivers for the growth of the Market.

There are some major growth bottlenecks such as the Need for Frequent Replacements of Barrier Films, Maintaining low cost of production and Lack of Performance targets. Lucrative Opportunities such as Water and Wastewater Treatment Digitalization, Proton Exchange and Anion Exchange Membranes and blood transfusion and apheresis membranes are expected to boost revenue growth.

References

  1. https://www.statista.com/statistics/491201/water-quality-satisfaction-in-the-united-states/
  2. https://www.statista.com/topics/5985/global-water-accessibility-and-stress/#dossierKeyfigures
  3. https://www.statista.com/statistics/1099051/drought-risk-by-country/
  4. https://www.statista.com/statistics/1097524/water-stress-levels-by-country/
  5. https://www.statista.com/statistics/1199744/market-size-water-and-wastewater-treatment-global/
  6. https://www.solectamembranes.com/membrane-solutions/polymeric-membranes/
  7. https://www.solectamembranes.com/membrane-solutions/polymeric-membranes/ultrafiltration/
  8. https://www.solectamembranes.com/membrane-solutions/polymeric-membranes/ultrafiltration/
  9. https://www.solectamembranes.com/membrane-solutions/polymeric-membranes/microfiltration/https://www.solectamembranes.com/membrane-solutions/polymeric-membranes/microfiltration/#industrial-applications-of-microfiltration
  10. https://www.sciencedirect.com/science/article/abs/pii/S1226086X21001532
  11. https://www.mdpi.com/journal/molecules/special_issues/membrane_trends
  12. https://www.mdpi.com/1420-3049/25/5/1132/htm
  13. https://www.linkedin.com/pulse/new-trends-membranes-material-anil-baghel
  14. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6434056/
  15. https://www.sciencedirect.com/topics/materials-science/polymeric-membrane
  16. https://www.researchgate.net/publication/352848040_Green_and_sustainable_membrane_fabrication_development

Appendix

  • F&B – Food and Beverages
  • MF – Microfiltration
  • UF – Ultrafiltration
  • RO – Reverse Osmosis
  • R&D – Research & Development

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