Global Reverse Osmosis (RO) Systems Market - Forecasts from 2017 to 2022
Reverse osmosis is a system used around the world to purify the water and remove its contaminants in order to help improve water for cooking, drinking, and other important uses. Moreover, it can also be used to produce hydrogen on a small scale. The reverse osmosis process is more economical for concentrating food liquids (such as fruit juices) than conventional heat-treatment processes. It decreases the operating cost and avoids the complicated heat treatment process. It can be used to produce whey protein powders in dairy industry.
The growing concern among people regarding health coupled rising awareness about the need for safe and clean water drives the demand for reserve osmosis system. In addition, factors like increase in disposable income and rising living standard coupled with increasing middle class income level results in high spending over health while propelling the reverse osmosis system market. Other factors contribute to the market growth are rapid industrialization and ongoing advancement in technology. Owing to the growth in population, the market has a huge demand for wastewater treatment technologies which boosts the market of reverse osmosis at global level. However stringent regulations by government and extensive pre treatment of water in many industries may act as restraint to market growth.
Geographically, Asia Pacific region is expected to drive the global market of reverse osmosis owing to the presence of large population base which drive the need for clean processed water. Moreover, rapid industrialisation in countries like Australia, Japan, India and China is also expected to augment the demand of reverse osmosis in the region.
Firstly, the report provides a brief introduction of the market and deals with detailed research methodology for calculating market size and forecasts, secondary data sources used and the primary inputs which were taken for data validation. This section also outlines various segmentations which have been covered as part of the report.
Next, the section provides comprehensive market dynamics through an overview section along with growth drivers, challenges, and opportunities which exist in the current market. This section of the report also provides supplier and industry outlook as a whole; key industry, global and regional regulations which are determining the market growth and a brief technological aspect of RO Systems. Complete industry analysis has also been covered by Porter’s five forces model as a part of this report section.
Thirdly, RO Systems Market has been segmented on the basis of end user and geography as follows:
- North America
- South America
- Europe Middle East and Africa
- Middle East and Africa
- Asia Pacific
Finally, competitive intelligence section deals with major players in the market, their market shares, growth strategies, products, financials, and recent investments among others. Key industry players profiled as part of this section are ALFA LAVA, OSMO Membrane Systems GmbH, Applied membranes, Inc., Pall Corporation, The Dow Chemical Company, Graver Technologies, and GE Water & Process Technology.
2. Research Methodology
3. Executive Summary
4. Market Dynamics
4.1. Market Overview and Segmentations
4.5. Supplier Outlook
4.6. Industry Outlook
4.7. Porter’s 5 Forces Analysis
4.8. Industry Value Chain Analysis
4.9. Industry Regulations
4.10. Scenario Analysis
5. Global Reverse Osmosis (RO) Systems Market Forecast by End User (US$ billion)
6. Global Reverse Osmosis (RO) Systems Market Forecast by Geography (US$ billion)
6.1.1. North America
6.1.2. South America
6.2. Europe Middle East and Africa
6.2.2. Middle East and Africa
6.3. Asia Pacific
7. Competitive Intelligence
7.1. Market Share of Key Players
7.2. Investment Analysis
7.3. Recent Deals
7.4. Strategies of Key Players
8. Company Profiles
8.1. ALFA LAVA
8.2. OSMO Membrane Systems GmbH
8.3. Applied membranes, Inc.
8.4. Pall Corporation.
8.5. The Dow Chemical Company
8.6. Graver Technologies
8.7. GE Water & Process Technology