Membrane Aerated Biofilm Reactor (MABR) Market Overview:
The Membrane Aerated Biofilm Reactor (MABR) Market was valued at USD 5,685.16 Million in 2021, registering a CAGR of 16.9% during the forecast period (2022-2030), and the market is projected to be worth USD 17,130.05 Million by 2030.
Membrane Aerated Biofilm Reactors (MABR) was announced in 2015 to the wide-ranging wastewater treatment industry, after years of R&D at several institutes and in the wastewater treatment industry. This membrane aerated biofilm reactor (MABR) works on the security distribution of the acceptors and electron donors into the biofilm, it is an innovative technology for wastewater treatment. The membrane aerated biofilm reactor (MABR) method is a pioneering technique that allows the conventional initiated sludge treatment plants for capacity expansion and nutrient removal in existing tank volumes, while MABR technology significantly reduced the energy essential for aeration. The sludge treatment has extended been used for aerophilic effluent treatment, but its aeration phase is mostly energy-intensive, and as a result, expensive. Membrane aerated biofilm reactor (MABR) helps in improving the aerophilous wastewater treatment. Also, it has energy efficiency, and provide nutrient removal as compared to old wastewater treatment systems. Further, it also provides wound casing envelope that helps in passively delivering oxygen straight into the wastewater so that helpful microorganism can grow.
Market Dynamics:
Driver:
Membrane aerated biofilm reactor (MABR) is a technology widely used in wastewater management system. The technology aids in removing distinct noncompliant pollutants from wastewater. This membrane aerated biofilm reactor (MABR) works on the counter circulation of the electron acceptors and donors into the membrane, it is an innovative equipment for wastewater treatment. The biofilm absorbs and consume carbon and nitrogen-based pollutants. It reflects high energy efficiency capacity and nutrient removal compared to conventional wastewater treatment systems.
Various companies around the globe are researching and developing different methods to reduce the energy demand and operational cost from conventional wastewater treatment systems. Membrane aerated biofilm reactor (MABR) provides high treatment efficiency, low maintenance, low operating expenses, low noise, and odor level. MABR process also provides highly efficient biological treatment Removal which results in operational saving and minimal carbon footprint. Membrane aerated biofilm reactors increases the treatment capacity by 50% and reduces the energy consumption by up to 70%. The aforementioned factors make MABR an eco-friendly solution. According to industry outlook report, India’s wastewater treatment market is anticipated to reach approximately 10 billion USD by 2026 and wastewater treatment technology market is forecasted to grow up to 8 percent. As per a news article by Eurekaleart, about 359 billion cubic meters of wastewater is produced in a year and about 48 percent of wastewater released is untreated. Considering the significant advantages such as rise in wastewater treatment capacity, energy saving and reduction in carbon emission are anticipated to boost elevate the demand for membrane aerated biofilm reactor during the forecasted period.
Restraint:
Membrane aerated biofilm reactor is a novel technology that is supported by years of research and over 200 industrial projects, MABR technology is said to be the technology of 2020. Wastewater treatment is a pioneering technology that enables the conventional activated sludge treatment plants for nutrient elimination and capacity expansion in existing tank capacities, while MABR technology significantly reduced the energy essential for aeration. According to Multidisciplinary Digital Publishing Institute (MDPI), the membrane replacement cost was found to be in the critical parameters over convention membrane-based process. It is estimated that total capital and annual cost for newly developed membrane aerated biofilm reactor film for 1 MGD capacity ranges from USD 2 to USD 2.58 as per MDPI. Further, as MABR technology is recently introduced in the market, there is lack of key market players providing the MABR system globally. Major market players present in the market are Fluence Corp., Oxymem (DuPont), SUEZ. Owing to limited numbers of market players, the market growth of MABR is limited resulting in restraining the market owing to supply demand gap in the industry. Thus, the aforementioned factors of MABR are anticipated to restrict the market growth in projected years.
Membrane Aerated Biofilm Reactor (MABR) Report Coverage:
Report Attributes | Report Details |
Study Timeline | 2016-2030 |
Market Size in 2030 (USD Million) | 17,130.05 million |
CAGR (2022-2030) | 16.9% |
By Type | BOD Removal and TSS Removal |
By Application | Municipal, Textile industry, Chemicals, Food and beverage, Paper & Pulp, and Others |
By Geography | North America– (U.S., Canada, Mexico)
Europe- (Germany, France, U.K., Russia, Italy, Spain, BENELUX, Rest of Europe) Asia Pacific- (China, Japan, India, South Korea, Australia, ASEAN, Rest of Asia Pacific) Latin America- (Brazil, Argentina, Chile, Rest of Latin America) Middle East and Africa- (GCC, Turkey, South Africa, and the Rest of MEA) |
Key Players | Verde Environmental Group, DuPont de Nemours, Inc, Fluence Corporation Limited, SUEZ – Water Technologies & Solutions, Aquatec Maxcon Pty. Ltd., and Euroteck Environmental Pvt. Ltd. |
Market Segmentation:
By Type
The Type segment is divided into BOD Removal and TSS Removal.
The BOD Removal segment is anticipated to contribute the largest revenue share of over USD 4,781.25 million in the year 2025 during the forecast period. Biochemical oxygen demand is the volume of oxygen utilized by bacteria and other various microorganisms however they decay organic matter in an aerobic condition. The water bodies contain small quantities of oxygen as dissolved oxygen (DO). The dissolved oxygen in water is an essential component of water bodies, sustaining the aquatic life and quality of water bodies. The decomposition of organic matter in water is evaluated as biochemical oxygen demand. However, environmental, and other human-generated factors can reduce the amount of dissolved oxygen in a water body. Biological oxygen demand (BOD) is a measure of the oxygen essential to eradicate waste organic matter from water.
Additionally, the TSS Removal segment is expected to grow at a CAGR of 15.8 % during the forecast period. TSS denotes total suspended solids, and it signifies the presence of solid particles suspended in water. TSS is described as the total quantity of solid material, suspended in water, which is retained after filtration. Total soluble solids include both organic and inorganic matter that consists of an array of materials for instance grit, sand, sediments, metal particles, decaying plant or animal matter, and others. The MABR works on the general framework of the GPS-X simulation software. It is used to predict performance when operating the full-scale industry in a hybrid MABR arrangement. A hybrid MABR is a system that includes biomass in both suspension and fixed form in a biofilm attached to a cassette membrane biofilm. In wastewater treatment unit, MABR membrane cassettes would be submerged in the existing wastewater bioreactors in such a way that biofilm and the suspended biomass work simultaneously. However, the necessity to remove the total suspended solids in water is common among most industrial chemical and textile plants that treat water. Raised TSS levels can also harm the environment and compromise the health of any living organism that is exposed to these unacceptable waters.
Global Membrane Aerated Biofilm Reactor (MABR) Market, by Type (%), 2021
By Application
The Application segment is divided into Municipal, Textile industry, Chemicals, Food and beverage, Paper & Pulp, and Others.
The Municipal segment is expected to account for the largest share of approximately 23.28% in 2021. Municipal wastewater is defined as the wastewater generated from houses or a mixture of wastewater from a household’s precipitation water. The household wastewater is mainly generated from the kitchen, cleaning, and toilet water polluted with washing and cleaning agents including dirt and food. Moreover, micro pollutants, such as medicinal products for human use, biocidal products, and anti-corrosive agents. The MABR wastewater treatment system is selected due to its exceptionally low energy consumption, high effluent quality, low operating costs, and efficient design. The MABR wastewater treatment solution is novel technology, and it reduces energy usage by up to 90% compared to conventional treatment. Membrane Aerated Biofilm Reactor (MABR) technology is a pioneering wastewater treatment solution model for decentralized municipal wastewater treatment plants. Moreover, to cope with the growing water scarcity or discover an alternative method for wastewater treatment, several technologies have been practiced for years, and MABR wastewater treatment is the relatively latest technology being used for filtering wastewater in both industrial and domestic sectors.
Global Membrane Aerated Biofilm Reactor (MABR) Market, by Application 2022-2030, (USD Million)
By Region:
The regional segment includes North America, Europe, Asia Pacific, the Middle East and Africa, and Latin America. In 2021, North America region is considered to contribute the largest revenue share of USD 2,241.22 million. Implementation of strict policies regarding wastewater treatment and concerns regarding freshwater sources are expected to drive the membrane aerated biofilm reactor market in the Asia Pacific in the next few years. Countries such as China, India, and Japan are major markets for membrane aerated biofilm reactors in the Asia Pacific. Emefcy Group Ltd. and RWL Water announced their first jointly developed project in China. To be deployed in Tianjin, China’s fourth-largest city, the project was developed in partnership with one of Emefcy’s China distributors and Interflow Control Technologies. It involves a multiphase agreement to utilize Emefcy’s membrane aerated bioreactor (MABR) wastewater treatment technology at one of five treatment plants in the city. There are five plants owned and operated by Tianjin Caring Co. and they have a total installed capacity of 1.5 million cubic meters per day. Furthermore, the factors driving the market’s expansion are cost & energy-efficient wastewater treatment systems over conventional technologies.
The Asia Pacific region is anticipated to witness substantial growth during the forecast period with a CAGR of 16.8%. Implementation of strict policies regarding wastewater treatment and concerns regarding freshwater sources are expected to drive the membrane aerated biofilm reactor market in the Asia Pacific in the next few years. Countries such as China, India, and Japan are major markets for membrane aerated biofilm reactors in the Asia Pacific. Emefcy Group Ltd. and RWL Water announced their first jointly developed project in China. To be deployed in Tianjin, China’s fourth-largest city, the project was developed in partnership with one of Emefcy’s China distributors and Interflow Control Technologies. It involves a multiphase agreement to utilize Emefcy’s membrane aerated bioreactor (MABR) wastewater treatment technology at one of five treatment plants in the city. There are five plants owned and operated by Tianjin Caring Co. and they have a total installed capacity of 1.5 million cubic meters per day. Furthermore, the factors driving the market’s expansion are cost & energy-efficient wastewater treatment systems over conventional technologies.
Membrane Aerated Biofilm Reactor (MABR) Market Competitive Landscape:
The competitive landscape of the market has been analyzed in the report, along with the detailed profiles of the major players operating in the industry. Further, the surge in Research and Development (R&D), product innovation, various business strategies, and application launches have accelerated the growth of the Global Membrane Aerated Biofilm Reactor (MABR) Market. Key players in the market include-
- Verde Environmental Group
- DuPont de Nemours, Inc
- Fluence Corporation Limited
- SUEZ – Water Technologies & Solutions
- Aquatec Maxcon Pty. Ltd.
- Euroteck Environmental Pvt. Ltd.
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