Global Microfiltration Membrane Market (2020 to 2030)

Dublin, April 26, 2021 (GLOBE NEWSWIRE) — The “Microfiltration Membrane Market Research Report: By Material Type, Filtration Technology, Application, Process, Configuration – Global Industry Analysis and Demand Forecast to 2030” report has been added to’s offering.

The global microfiltration membrane market reached a value of $2,885.57 million in 2019 and is predicted to generate a revenue of $7,517.38 million by 2030. According to the publisher’s estimates, a market research company based in India, the market would demonstrate a CAGR of 9.0% between 2020 and 2030. The rising adoption of microfiltration technologies for industrial wastewater treatment, rapidly expanding pharmaceutical industry, and growing technology integration in the food & beverage industry.

Sand filtration, dissolved air floatation, and sedimentation and coagulation were some of the most widely used traditional separation technologies in various filtration applications such as those involving food and beverages, pharmaceuticals, and industrial wastewater treatment. However, these methods were found to be inefficient in treating solutions having excessive dissolved organic compounds. As a result, advanced filtration techniques are rapidly gaining traction around the world. Microfiltration is one such advanced filtration method that is increasingly being used for treating contaminated liquids.

Another major factor fueling the expansion of the microfiltration membrane market is the growing usage of microfiltration methods for industrial wastewater treatment. The discharge of agricultural and industrial waste into various water bodies massively affects the quality of water. As per the fourth World Water Development Report, in 2017, nearly 70% of the total wastewater treatment took place in high-income countries. The environmental degradation caused due to negligible wastewater treatment poses major threat to economic activity and human life.

Because of the above-mentioned reasons, the governments of various countries such as the U.S. are enacting several initiatives for raising public awareness of the consequences of water pollution and water scarcity. This is, in turn, pushing up the adoption of advanced wastewater treatment technologies such as microfiltration technologies for treating the wastewater and making it suitable for consumption. Depending on material type, the microfiltration membrane market is categorized into polypropylene, polyether sulphone, polytetrafluorethylene, PVDF, cellulose, polyether ketone, and polyimide.

Out of these, the PVDF category is predicted to register the highest growth in the market in the future years. PVDF membranes are heavily used in the treatment of general and industrial water, on account of their ability to easily separate particles from liquid or air streams. In addition to this, these membranes provide very high-flow rates for mobile phase and solvent-based applications. Due to these factors, this category will demonstrate rapid advancement in the market in the future.

Across the globe, the microfiltration membrane market is predicted to exhibit the fastest growth in Asia-Pacific (APAC) in the upcoming years. This would be a result of the rapid rise in the requirement for fresh water in various developing nations such as India, China, Vietnam, and Thailand. In addition to this, the support of the governments of the regional countries regarding the treatment of industrial wastewater is predicted to boost the market growth in the region in the forthcoming years.

Hence, it can be said with certainty that the market will exhibit huge expansion all over the world in the upcoming years, primarily because of the mushrooming demand for wastewater treatment and the rising popularity of microfiltration technologies in various countries around the world.

Key Topics Covered:

Chapter 1. Research Background

Chapter 2. Research Methodology

Chapter 3. Executive Summary

Chapter 4. Introduction
4.1 Voice of Industry Experts/KOLs
4.2 Definition of Market Segments
4.2.1 By Material Type
4.2.2 By Filtration Technology
4.2.3 By Application
4.2.4 By Process
4.2.5 By Configuration
4.3 Value Chain Analysis
4.4 Market Dynamics
4.4.1 Trends Shift in preference from conventional separation technologies to microfiltration technologies
4.4.2 Drivers Increasing demand for microfiltration technology for industrial wastewater treatment Growth in pharmaceutical industry Growing technology usage in food & beverage industry Impact analysis of drivers on market forecast
4.4.3 Restraints High cost of production of membranes used in microfiltration Impact analysis of restraints on market forecast
4.4.4 Opportunities Growing technology demand in emerging economies
4.5 Impact of COVID-19
4.5.1 Global Share by Countries Contribution of countries in global manufacturing output Contribution of countries in global export and import (2019) Top 20 countries by export Top 20 countries by import
4.5.2 Global Scenario of COVID-19 Impact Global scenario GDP growth rate (2019) GDP growth rate (2020) GDP growth rate projection for 2021 Assessment of COVID-19 impact on GDP and economic forecast Assessment of COVID-19 impact on workforce across various sectors
4.5.3 Impact of COVID-19 on Global Microfiltration Membrane Market
4.6 Pore Size Analysis

Chapter 5. Global Market Size and Forecast
5.1 By Material Type
5.2 By Filtration Technology
5.3 By Application
5.4 By Process
5.5 By Configuration
5.6 By Region

Chapter 6. Global Microfiltration Membrane Market Analysis by Material Type
6.1 PES Microfiltration Membrane Market
6.1.1 By Filtration Technology
6.1.2 By Process
6.1.3 By Configuration
6.2 PP Microfiltration Membrane Market
6.2.1 By Filtration Technology
6.2.2 By Process
6.2.3 By Configuration
6.3 PVDF Microfiltration Membrane Market
6.3.1 By Filtration Technology
6.3.2 By Process
6.3.3 By Configuration
6.4 PTFE Microfiltration Membrane Market
6.4.1 By Filtration Technology
6.4.2 By Process
6.4.3 By Configuration
6.5 PEEK Microfiltration Membrane Market
6.5.1 By Filtration Technology
6.5.2 By Process
6.5.3 By Configuration
6.6 Polyimide Microfiltration Membrane Market
6.6.1 By Filtration Technology
6.6.2 By Process
6.6.3 By Configuration
6.7 Cellulose Microfiltration Membrane Market
6.7.1 By Filtration Technology
6.7.2 By Process
6.7.3 By Configuration

Chapter 7. Global Microfiltration Membrane Market Analysis by Application
7.1 Market for Semiconductor & Electronic
7.1.1 By Material Type
7.1.2 By Process
7.1.3 By Configuration
7.2 Market for Oil & Gas
7.2.1 By Material Type
7.2.2 By Process
7.2.3 By Configuration
7.3 Market for Dairy
7.3.1 By Material Type
7.3.2 By Process
7.3.3 By Configuration
7.4 Market for Food & Beverage
7.4.1 By Material Type
7.4.2 By Process
7.4.3 By Configuration
7.5 Market for Pharmaceutical
7.5.1 By Material Type
7.5.2 By Process
7.5.3 By Configuration
7.6 Market for Biotechnology
7.6.1 By Material Type
7.6.2 By Process
7.6.3 By Configuration
7.7 Market for Industrial Wastewater Treatment
7.7.1 By Material Type
7.7.2 By Process
7.7.3 By Configuration

Chapter 8. Global Market for Microfiltration Membrane Applications by Material Type and by Technology Type
8.1 Semiconductor & Electronic Application
8.2 Oil & Gas Application
8.3 Dairy Application
8.4 Food & Beverage Application
8.5 Pharmaceutical Application
8.6 Biotechnology Application
8.7 Industrial Wastewater Treatment Application

Chapter 9. North America Market Size and Forecast
9.1 By Material Type
9.2 By Filtration Technology
9.3 By Application
9.4 By Country

Chapter 10. Europe Market Size and Forecast
10.1 By Material Type
10.2 By Filtration Technology
10.3 By Application
10.4 By Country

Chapter 11. APAC Market Size and Forecast
11.1 By Material Type
11.2 By Filtration Technology
11.3 By Application
11.4 By Country

Chapter 12. LATAM Market Size and Forecast
12.1 By Material Type
12.2 By Filtration Technology
12.3 By Application
12.4 By Country

Chapter 13. MEA Market Size and Forecast
13.1 By Material Type
13.2 By Filtration Technology
13.3 By Application
13.4 By Country

Chapter 14. Major Markets
14.1 U.S. Market Size and Forecast
14.1.1 By Filtration Technology
14.1.2 By Application
14.2 China Market Size and Forecast
14.2.1 By Filtration Technology
14.2.2 By Application
14.3 Japan Market Size and Forecast
14.3.1 By Filtration Technology
14.3.2 By Application
14.4 Germany Market Size and Forecast
14.4.1 By Filtration Technology
14.4.2 By Application
14.5 India Market Size and Forecast
14.5.1 By Filtration Technology
14.5.2 By Application

Chapter 15. Competitive Landscape
15.1 Market Share Analysis of Key Players
15.2 Competitive Benchmarking of Key Players
15.3 List of Other Players
15.4 Global Strategic Developments of Key Players
15.4.1 Mergers and Acquisitions
15.4.2 Product Launches
15.4.3 Other Developments

Chapter 16. Company Profiles
16.1 Asahi Kasei Corporation
16.1.1 Business Overview
16.1.2 Product and Service Offerings
16.1.3 Key Financial Summary
16.2 Culligan International Company
16.2.1 Business Overview
16.2.2 Product and Service Offerings
16.3 Applied Membranes Inc.
16.3.1 Business Overview
16.3.2 Product and Service Offerings
16.4 Alfa Laval AB
16.4.1 Business Overview
16.4.2 Product and Service Offerings
16.4.3 Key Financial Summary
16.5 Graver Technologies LLC
16.5.1 Business Overview
16.5.2 Product and Service Offerings
16.6 Markel Corporation
16.6.1 Business Overview
16.6.2 Product and Service Offerings
16.7 Toray Industries Inc.
16.7.1 Business Overview
16.7.2 Product and Service Offerings
16.7.3 Key Financial Summary
16.8 Koch Membrane Systems Inc.
16.8.1 Business Overview
16.8.2 Product and Service Offerings
16.9 Merck KGaA
16.9.1 Business Overview
16.9.2 Product and Service Offerings
16.9.3 Key Financial Summary
16.10 3M Company
16.10.1 Business Overview
16.10.2 Product and Service Offerings
16.10.3 Key Financial Summary
16.11 SUEZ
16.11.1 Business Overview
16.11.2 Product and Service Offerings
16.11.3 Key Financial Summary
16.12 Danaher Corporation
16.12.1 Business Overview
16.12.2 Product and Service Offerings
16.12.3 Key Financial Summary

Chapter 17. Appendix

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