The global market for membrane bioreactors (MBRs) should grow from $1.9 billion in 2018 to reach $3.8 billion by 2023 at a compound annual growth rate (CAGR) of 14.7% for the period of 2018-2023.
Report Scope:
The study is divided into chapters dealing with the membrane component of MBRs, the biological component, system configurations, typical MBR performance, cost analyses, system applications, companies active in the market, market share, and industry structure. Quantitative evaluations are given for the major market segments, historically and for a five-year horizon. The global scope of the MBR market is identified within four major geographical regions with information on regional economics, water needs, MBR experience, and proposed projects.
The MBR market in this study is centered on biological/membrane wastewater treatment for the municipal, industrial, and environmental sectors. The evaluated market does not include catalytic membrane reactors or enzymatic membrane reactors.
Report Includes:
- 16 data tables and 29 additional tables
- An overview of the global membrane bioreactors markets used for wastewater treatment
- Analyses of global market trends, with data from 2017 and 2018, and projections of CAGRs through 2023
- Assessment of the challenges for major water users specifically in the municipal, industrial, and environmental sectors
- Description of the membrane component of MBRs, the biological component, system configurations, and typical MBR performance
- A look into the system applications, market share, and industry structure
- Detailed profiles of major players active in the market, including Alfa Laval, Asahi Kasei, Evoqua Water Technologies, Hitachi Ltd. and Toray Industries
Table of Contents
Chapter 1 Introduction
Study Goals and Objectives
Reasons for Doing This Study
Scope of Report
Information Sources
Methodology
Geographic Breakdown
Analyst's Credentials
BCC Custom Research
Related BCC Research Reports
Chapter 2 Summary and Highlights
Chapter 3 Technology and Market Overview
History
Amounts of Water to be Treated
Global Water Resources and Withdrawals
U.S. Water Resources, Withdrawals
MBRs in Brief
Advantages Include:
Disadvantages Include:
Microorganisms
Aerobic and Anaerobic
Membranes
Materials, Manufacturing Methods, Modules
Flux
Fouling
Selecting Membranes for MBRs
System Configuration: Submerged, External
Technology Development
Performance
Particle Removal and Disinfection
Removal of Organic Matter
Nutrient Removal
Trace Organic Compounds
Competing Wastewater Treatment Technologies
Capital and Operating Costs
Recent Developments
Trend toward Larger MBRs
Chapter 4 Applications for MBR Technology
Domestic, Municipal Wastewater
Domestic, Municipal Wastewater Treatment
Industrial Wastewater
Wastewater Components
Industrial Wastewater Treatment
Landfill Leachate
In-Building Water Recycling
Other Wastewater Types
Shipboard Wastewater
Agricultural Wastewater
Water Reclamation and Reuse
Water Reuse in the U.S.
Water Reuse in Other Countries
U.S. Regulatory Efforts
Federal Assistance for Wastewater Plant Construction
International Regulatory Efforts
EU Regulations
Regulations in Other World Regions
Chapter 5 The North American Market for MBR Technology
United States
Canada
North American MBR Experience
North American Development Programs for MBRs
Chapter 6 Global Markets for MBR Technology
The Role of International Organizations in Water/ Wastewater Management
Water Challenges in the 21st Century
Millennium Goals
Bellagio Framework
Market for MBR Systems by Region
Europe
Water Issues
European MBR Experience
EU MBR Development Programs
The European Market for MBRs
Installed Base of MBRs
End Uses
Country Analysis
Belgium
France
Germany
Italy
Spain
The Netherlands
United Kingdom
Eastern Europe
The Asia-Pacific Market for MBRs
Australia
China
India
Japan
South Korea
Singapore
The Middle East/African Market for MBRs
Middle East
Bahrain
Kuwait
Egypt
Israel
Saudi Arabia
United Arab Emirates
Africa
The Latin American/Caribbean Market for MBRs
Latin America
Caribbean
Chapter 7 Industry Structure
Conglomerates
Water/Wastewater Treatment Companies
Specialized Providers
Strategies for Remaining Competitive
Market Shares
Chapter 8 Patent Review
Methodology
Findings, by Country
Findings, by Year
Findings, by Organization
Chapter 9 Company Profiles
A3 WATER SOLUTIONS GMBH
ACWA SERVICES LTD.
ALFA LAVAL
AQUA-AEROBIC SYSTEMS, INC.
AQUATECH INTERNATIONAL
ASAHI KASEI
BEIJING ORIGIN WATER TECHNOLOGY CO.
BERGHOF MEMBRANE TECHNOLOGY GMBH
BUSSE GMBH
CANPURE GROUP
CHICAGO BRIDGE & IRON CO.
CITIQ ENVIROTECH LTD.
COLLOIDE ENGINEERING SYSTEMS
CUT MEMBRANE TECHNOLOGY GMBH
DYNATEC SYSTEMS, INC.
ECOLOGIX TECHNOLOGIES ASIA-PACIFIC, INC.
ECONITY
EFLO UK INTERNATIONAL LTD.
EPCO AUSTRALIA
EVOQUA WATER TECHNOLOGIES
HANGZHOU H-FILTRATION MEMBRANE TECH. & ENG. CO. LTD.
HITACHI LTD.
HUBER SE
HYDRANAUTICS
KA NA HSIUNG ENTERPRISE CO. LTD.
KEPPEL SEGHERS TECHNOLOGY GROUP BV
KIBARAN TERNAMA SDN. BHD.
KOCH MEMBRANE SYSTEMS
KOLON INDUSTRIES
KUBOTA CORP.
LG ELECTRONICS
LITREE PURIFYING TECHNOLOGY CO. LTD.
MANN+HUMMEL
MARTIN SYSTEMS AG
MEMOS MEMBRANES MODULES SYSTEMS GMBH
MICRODYN NADIR
MITSUBISHI CHEMICAL HOLDINGS CORP.
NEWTERRA LTD.
NITTO GROUP
NOVOFLOW GMBH
ORELIS ENVIRONNEMENT SAS
OVIVO USA, LLC
PALL CORP.
PENTAIR PLC
POLYMEM SA
POROUS FIBERS S.L.
PURE ENVITECH CO. LTD.
SENUO FILTRATION TECHNOLOGY (TIANJIN) CO. LTD.
SFC UMWELTTECHNIK GMBH
SHANGHAI MEGAVISION MEMBRANE ENGINEERING & TECHNOLOGY CO., LTD.
SHANGHAI SINAP MEMBRANE TECHNOLOGY CO. LTD.
SIEMENS AG
SMITH & LOVELESS
SUEZ ENVIRONNEMENT SAS
SUMITOMO ELECTRIC FINE POLYMER
TIANJIN MOTIMO MEMBRANE TECHNOLOGY LTD.
TORAY INDUSTRIES
TRIQUA INTERNATIONAL BV
VA TECH WABAG LTD.
VEOLIA WATER TECHNOLOGIES
WARTSILA
WEHRLE WERK AG
WJP SOLUTIONS
XYLEM
ZENA MEMBRANES