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Key Winning Imperatives in the Global Nanofiltration Membrane Market
- NF technology can be employed for a broad range of applications owing to its distinctive properties to focus on major global concerns in a sustainable and green method.
- Choosing naturally derived raw material sources helps ensure sustainability and minimize using non-renewable petrochemical-based materials.
- Manufacturers looking for increasing whey concentration before transportation would typically employ membrane as a cost-effective separation process.
MARKET TRENDS & OPPORTUNITIES
Advancement in Filtration Technology
Nanofiltration (NF) is a pioneering filtration technology that might be deemed a true paradigm shift in membrane science. NF technology can be employed for a broad range of applications owing to its distinctive properties to focus on major global concerns in a sustainable and green method. Notwithstanding several technological advancements and accomplishments, wastewater treatment remains a fundamental global concern. NF membrane is one of the most successful procedures for eliminating heavy metals from wastewater due to its adaptable design, efficient operation, and low cost.Rapid Urbanization
The growth of the nanofiltration membrane market is expected to accelerate due to rapid urbanization and industrialization across developing economies such as India and China and a surge in demand for water for domestic and industrial purposes and access to fresh and clean water. Urbanization refers to the increase in the population percentage in urban areas. Over 50% of the global population lives in urban areas, generating over 80% of the gross domestic product (GDP). With the rapid development of the economy & acceleration of urbanization and industrialization, the concern about water pollution has increased. The rising population in cities has a strong impact on water quality. Moreover, the growing number of industries that release emissions is also anticipated to generate greater opportunities for NF membranes for water treatment. Thus, with the increase in urbanization and growing consumer awareness, the demand for NF membranes will grow during the projected period.Low Energy Consumption
NF membrane technology has replaced RO membrane technology in several applications due to lower energy consumption and high flux rates. The lower the pressure required, the lower the energy consumption. NF has exchanged reverse osmosis (RO) membranes in numerous applications owing to lower energy consumption and higher flux rates. In addition, NF membranes are mostly used to soften and disinfect water.Hence, low energy consumption surges the demand for nanofiltration membranes in the wastewater treatment and water purification sector.
INDUSTRY RESTRAINTS
Fouling in Nanofiltration Membrane
Nanofiltration is a process between RO and ultrafiltration (UF) that discards molecules sized in the order of one nanometer. The use of the membrane process is restricted by fouling, which discloses itself as a reduction in flux with the time of operation. Hence, fouling is one of the most significant reasons for the minimal acceptance of nanofiltration and other membrane processes in large-scale processing. The fouling perseveres and remains a key area for improvement in the quality of the membrane, which has hindered the nanofiltration membrane market growth.SEGMENTATION INSIGHTS
INSIGHTS BY TYPE
The polymeric type accounted for the largest global nanofiltration membrane market share in 2022. Polymeric membranes, also known as organic membranes, are nonporous polymeric materials. It comprises a family of liquid separation technologies that is industry-leading in performance and effectiveness. These membranes are commonly acknowledged in four key categories, grounded on characteristics, performance, and specific separation attributes. The polymers used in the nanofiltration membrane category production are cautiously selected to ensure optimum performance in a selected environment.Segmentation by Type
- Polymeric
- Inorganic
- Hybrid
INSIGHTS BY MEMBRANE TYPE
The global nanofiltration membrane market by membrane type is classified as tubular membrane, flat sheet membrane, spiral-wound membrane, and hollow-fiber membrane. In 2022, the tubular membrane segment dominated the membrane segment, accounting for a revenue share of over 33%. Tubular-shaped membranes are not self-sufficient membranes. These membranes are located on the inside of a tube and are made of a distinct kind of material. The material is the supporting layer for the membrane as the position of tubular membranes is inside a tube, and the flow in a tubular membrane is usually inside out. The tubular membranes, however, have low packing density, resulting in high module prices.Segmentation by Membrane Type
- Tubular Membrane
- Flat Sheet Membrane
- Spiral-Wound Membrane
- Hollow-Fiber Membrane
INSIGHTS BY APPLICATION
Based on application, the water & wastewater treatment segment is the largest global nanofiltration membrane market segment. The water & wastewater application segment held the most substantial global nanofiltration membrane market share in 2022. Nanofiltration is an extensively used membrane process for water and wastewater treatment and other applications such as desalination. Features of NF lie between UF and RO and function by both pore-size flow (convective) and the solution-diffusion mechanisms. NF membrane technology has replaced RO membrane technology in several applications due to lower energy consumption and high flux rates. NF membrane technology is used in various wastewater treatment methods for diverse industrial applications.Segmentation by Application
- Water & Wastewater Treatment
- Food & Beverage
- Pharmaceutical & Biomedical
- Chemicals & Petrochemicals
- Others
GEOGRAPHICAL ANALYSIS
North America dominated the global nanofiltration membrane market, accounting for over 32% global share in 2022. In North America, nanofiltration membranes are broadly used in industrial and municipal water treatment processes. The treated water is generally used for irrigation and domestic purposes, such as in toilets and for a car wash, helping minimize pure water scarcity. Therefore, factors like this are expected to increase the demand for nanofiltration membranes significantly. In addition, the industrial sector's increased demand for nanofiltration membranes is further expected to accelerate the regional market.- North America
- US
- Canada
- Europe
- Germany
- UK
- France
- Italy
- Russia
- APAC
- China
- India
- Japan
- South Korea
- Australia
- Middle East & Africa
- GCC
- South Africa
- Latin America
- Brazil
- Mexico
COMPETITIVE LANDSCAPE
The global nanofiltration membrane market is partially fragmented, with many small and medium-sized manufacturers accounting for a marginal market share. Prominent players with a dominant presence in the global nanofiltration membrane market include Alfa Laval, Koch Separation Solutions, Applied Membranes, Nitto Denko Corporation, and Toray Industries. Major vendors are adopting innovative technologies to retain their industry position. The market has witnessed several acquisitions over the last few years, strengthening companies' ability to offer multiple technologies and comprehensive solutions.Key Company Profiles
- Alfa Laval
- Nitto Denko Corporation
- Toray Industries
- Koch Separation Solutions
- Applied Membranes
Other Prominent Vendors
- Pall Corporation (Danaher)
- SUNUP
- DuPont
- Synder Filtration
- NX Filtration
- RisingSun Membrane Technology
- SUEZ
- Novasep
- Inopor
- GEA
- SPX FLOW
- MANN+HUMMEL Water & Fluid Solutions
- MEMBRANIUM
- AXEON Water Technologies
- Hunan Keensen Technology
- Osmotech Membranes
- VONTRON MEMBRANE TECHNOLOGY
- SnowPure
- Cerahelix
- Pure Aqua
KEY QUESTIONS ANSWERED
1. How big is the nanofiltration membrane market?2. What is the growth rate of the global nanofiltration membrane market?
3. Which region dominates the global nanofiltration membrane market share?
4. What are the significant trends in the nanofiltration membrane market?
5. Who are the key players in the global nanofiltration membrane market?
Table of Contents
1 Research Methodology2 Research Objectives
3 Research Process
4 Scope & Coverage
4.1 Market Definition
4.1.1 Inclusions
4.1.2 Exclusions
4.1.3 Market Estimation Caveats
4.2 Base Year
4.3 Scope of the Study
4.4 Market Segmentation
4.4.1 Market by Type
4.4.2 Market by Membrane Type
4.4.3 Market by Application
4.4.4 Market by Geography
5 Report Assumptions & Caveats
5.1 Key Caveats
5.2 Currency Conversion
5.3 Market Derivation
6 Market at a Glance
7 Premium Insights
7.1 Market Overview
7.1.1 Market Trends
7.1.2 Market Opportunities
7.1.3 Market Enablers
7.1.4 Market Challenges
7.2 Segment Overview
7.3 Competitive Landscape
8 Introduction
8.1 Overview
8.1.1 Filtration Technology
8.1.2 Nanofiltration Membranes
8.1.3 Advantages of Nf
8.1.4 Disadvantage of Nf
8.1.5 Application
8.1.6 Conditions
8.1.7 Efficiency
8.1.8 Automation Level
8.1.9 Challenges
8.1.10 Costs
9 Market Opportunities & Trends
9.1 Advancements in Filtration Technology
9.2 Sustainable Nanofiltration Membranes
9.3 Opportunities in the Dairy Industry
9.4 Rapid Urbanization
10 Market Growth Enablers
10.1 Effects of Hard Water
10.2 Low Energy Consumption
10.3 Increased Adoption in Wastewater Treatment and Water Purification
10.4 Rise in Demand for Concentrated Food & Beverages
10.5 Stringent Rules & Regulations
11 Market Restraints
11.1 Factors Impeding the Growth of Nanofiltration Membrane Systems
11.2 Fouling in Nanofiltration Membranes
12 Market Landscape
12.1 Market Overview
12.2 Market Size & Forecast
12.3 Five Forces Analysis
12.3.1 Threat of New Entrants
12.3.2 Bargaining Power of Suppliers
12.3.3 Bargaining Power of Buyers
12.3.4 Threat of Substitutes
12.3.5 Competitive Rivalry
13 Type
13.1 Market Snapshot & Growth Engine
13.2 Market Overview
13.3 Polymeric
13.3.1 Market Overview
13.3.2 Market Size & Forecast
13.3.3 Market by Geography
13.4 Inorganic
13.4.1 Market Overview
13.4.2 Market Size & Forecast
13.4.3 Market by Geography
13.5 Hybrid
13.5.1 Market Overview
13.5.2 Market Size & Forecast
13.5.3 Market by Geography
14 Membrane Type
14.1 Market Snapshot & Growth Engine
14.2 Market Overview
14.3 Tubular Membranes
14.3.1 Market Overview
14.3.2 Market Size & Forecast
14.3.3 Market by Geography
14.4 Flat Sheet Membranes
14.4.1 Market Overview
14.4.2 Market Size & Forecast
14.4.3 Market by Geography
14.5 Spiral-Wound Membranes
14.5.1 Market Overview
14.5.2 Market Size & Forecast
14.5.3 Market by Geography
14.6 Hollow-Fiber Membranes
14.6.1 Market Overview
14.6.2 Market Size & Forecast
14.6.3 Market by Geography
15 Application
15.1 Market Snapshot & Growth Engine
15.2 Market Overview
15.3 Water & Wastewater Treatment
15.3.1 Market Overview
15.3.2 Market Size & Forecast
15.3.3 Market by Geography
15.4 Food & Beverage
15.4.1 Market Overview
15.4.2 Market Size & Forecast
15.4.3 Market by Geography
15.5 Pharmaceutical & Biomedical
15.5.1 Market Overview
15.5.2 Market Size & Forecast
15.5.3 Market by Geography
15.6 Chemicals & Petrochemicals
15.6.1 Market Overview
15.6.2 Market Size & Forecast
15.6.3 Market by Geography
15.7 Others
15.7.1 Market Overview
15.7.2 Market Size & Forecast
15.7.3 Market by Geography
16 Geography
16.1 Market Snapshot & Growth Engine
16.2 Geographic Overview
17 North America
17.1 Market Overview
17.2 Market Size & Forecast
17.3 Type
17.3.1 Market Size & Forecast
17.4 Membrane Type
17.4.1 Market Size & Forecast
17.5 Application
17.5.1 Market Size & Forecast
17.6 Key Countries
17.6.1 Us: Market Size & Forecast
17.6.2 Canada: Market Size & Forecast
18 Europe
18.1 Market Overview
18.2 Market Size & Forecast
18.3 Type
18.3.1 Market Size & Forecast
18.4 Membrane Type
18.4.1 Market Size & Forecast
18.5 Application
18.5.1 Market Size & Forecast
18.6 Key Countries
18.6.1 Germany: Market Size & Forecast
18.6.2 Uk: Market Size & Forecast
18.6.3 France: Market Size & Forecast
18.6.4 Italy: Market Size & Forecast
18.6.5 Russia: Market Size & Forecast
19 Apac
19.1 Market Overview
19.2 Market Size & Forecast
19.3 Type
19.3.1 Market Size & Forecast
19.4 Membrane Type
19.4.1 Market Size & Forecast
19.5 Application
19.5.1 Market Size & Forecast
19.6 Key Countries
19.6.1 China: Market Size & Forecast
19.6.2 India: Market Size & Forecast
19.6.3 Japan: Market Size & Forecast
19.6.4 South Korea: Market Size & Forecast
19.6.5 Australia: Market Size & Forecast
20 Middle East & Africa
20.1 Market Overview
20.2 Market Size & Forecast
20.3 Type
20.3.1 Market Size & Forecast
20.4 Membrane Type
20.4.1 Market Size & Forecast
20.5 Application
20.5.1 Market Size & Forecast
20.6 Key Countries
20.6.1 Gcc: Market Size & Forecast
20.6.2 South Africa: Market Size & Forecast
21 Latin America
21.1 Market Overview
21.2 Market Size & Forecast
21.3 Type
21.3.1 Market Size & Forecast
21.4 Membrane Type
21.4.1 Market Size & Forecast
21.5 Application
21.5.1 Market Size & Forecast
21.6 Key Countries
21.6.1 Brazil: Market Size & Forecast
21.6.2 Mexico: Market Size & Forecast
22 Competitive Landscape
22.1 Competition Overview
23 Key Company Profiles
23.1 Alfa Laval
23.1.1 Business Overview
23.1.2 Product Offerings
23.1.3 Key Strategies
23.1.4 Key Strengths
23.1.5 Key Opportunities
23.2 Nitto Denko Corporation
23.2.1 Business Overview
23.2.2 Product Offerings
23.2.3 Key Strategies
23.2.4 Key Strengths
23.2.5 Key Opportunities
23.3 Toray Industries
23.3.1 Business Overview
23.3.2 Product Offerings
23.3.3 Key Strategies
23.3.4 Key Strengths
23.3.5 Key Opportunities
23.4 Koch Separation Solutions
23.4.1 Business Overview
23.4.2 Product Offerings
23.4.3 Key Strategies
23.4.4 Key Strengths
23.4.5 Key Opportunities
23.5 Applied Membranes
23.5.1 Business Overview
23.5.2 Product Offerings
23.5.3 Key Strategies
23.5.4 Key Strengths
23.5.5 Key Opportunities
24 Other Prominent Vendors
24.1 Pall Corporation (Danaher)
24.1.1 Business Overview
24.1.2 Product Offerings
24.2 Sunup
24.2.1 Business Overview
24.2.2 Product Offerings
24.3 Dupont
24.3.1 Business Overview
24.3.2 Product Offerings
24.4 Synder Filtration
24.4.1 Business Overview
24.4.2 Product Offerings
24.5 Nx Filtration
24.5.1 Business Overview
24.5.2 Product Offerings
24.6 Risingsun Membrane Technology
24.6.1 Business Overview
24.6.2 Product Offerings
24.7 Suez (Veolia)
24.7.1 Business Overview
24.7.2 Product Offerings
24.8 Novasep
24.8.1 Business Overview
24.8.2 Product Offerings
24.9 Inopor
24.9.1 Business Overview
24.9.2 Product Offerings
24.10 Gea
24.10.1 Business Overview
24.10.2 Product Offerings
24.11 Spx Flow
24.11.1 Business Overview
24.11.2 Product Offerings
24.12 Mann+Hummel Water & Fluid Solutions
24.12.1 Business Overview
24.12.2 Product Offerings
24.13 Membranium
24.13.1 Business Overview
24.13.2 Product Offerings
24.14 Axeon Water Technologies
24.14.1 Business Overview
24.14.2 Product Offerings
24.15 Hunan Keensen Technology
24.15.1 Business Overview
24.15.2 Product Offerings
24.16 Osmotech Membranes
24.16.1 Business Overview
24.16.2 Product Offerings
24.17 Vontron Membrane Technology
24.17.1 Business Overview
24.17.2 Product Offerings
24.18 Snowpure
24.18.1 Business Overview
24.18.2 Product Offerings
24.19 Cerahelix
24.19.1 Business Overview
24.19.2 Product Offerings
24.20 Pure Aqua
24.20.1 Business Overview
24.20.2 Product Offerings
25 Report Summary
25.1 Key Takeaways
25.2 Strategic Recommendations
26 Quantitative Summary
26.1 Type
26.2 Membrane Type
26.3 Application
26.4 Market by Geography
26.5 North America
26.5.1 Type
26.5.2 Membrane Type
26.5.3 Application
26.6 Europe
26.6.1 Type
26.6.2 Membrane Type
26.6.3 Application
26.7 Apac
26.7.1 Type
26.7.2 Membrane Type
26.7.3 Application
26.8 Middle East & Africa
26.8.1 Type
26.8.2 Membrane Type
26.8.3 Application
26.9 Latin America
26.9.1 Type
26.9.2 Membrane Type
26.9.3 Application
27 Appendix
27.1 Abbreviations
Companies Mentioned
- Alfa Laval
- Nitto Denko Corporation
- Toray Industries
- Koch Separation Solutions
- Applied Membranes
- Pall Corporation (Danaher)
- SUNUP
- DuPont
- Synder Filtration
- NX Filtration
- RisingSun Membrane Technology
- SUEZ
- Novasep
- Inopor
- GEA
- SPX FLOW
- MANN+HUMMEL Water & Fluid Solutions
- MEMBRANIUM
- AXEON Water Technologies
- Hunan Keensen Technology
- Osmotech Membranes
- VONTRON MEMBRANE TECHNOLOGY
- SnowPure
- Cerahelix
- Pure Aqua
Methodology
Our research comprises a mix of primary and secondary research. The secondary research sources that are typically referred to include, but are not limited to, company websites, annual reports, financial reports, company pipeline charts, broker reports, investor presentations and SEC filings, journals and conferences, internal proprietary databases, news articles, press releases, and webcasts specific to the companies operating in any given market.
Primary research involves email interactions with the industry participants across major geographies. The participants who typically take part in such a process include, but are not limited to, CEOs, VPs, business development managers, market intelligence managers, and national sales managers. We primarily rely on internal research work and internal databases that we have populated over the years. We cross-verify our secondary research findings with the primary respondents participating in the study.
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Table Information
Report Attribute | Details |
---|---|
No. of Pages | 227 |
Published | April 2023 |
Forecast Period | 2022 - 2028 |
Estimated Market Value ( USD | $ 738.97 Million |
Forecasted Market Value ( USD | $ 1070.91 Million |
Compound Annual Growth Rate | 6.3% |
Regions Covered | Global |
No. of Companies Mentioned | 25 |