February 27, 2020

Electrodeionization Market- Global Industry Analysis, Share and Size to 2025

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Electrodeionization Market is likely to hit US$ XX Bn by 2026 at a CAGR of 6.13%.

Growing demand for ultrapure water from the end-use industries of power generation, pharmaceutical, and electronics & semiconductor, rapid industrialization in emerging economies, and rising wastewater generation are some of the driving factors behind the global market for Electrodeionization (EDI) growth. On the other hand, the availability of alternative technologies to obtain ultrapure water restricts the growth of the global market for Electrodeionization (EDI).

During the Electrodeionization market, the design of the plate and frame construction is projected to grow at a rate of XX percent of CAGR.

Over the past 10 years, power plants have gradually used reverse osmosis as a roughing demineralized to remove the bulk of mineral, organic and particulate contaminants, which also reduces the ion exchange system’s chemical consumption. Latest developments in Electrodeionization (EDI) technology have resulted in the shift to chemical-free deionization systems due to RO followed by Electrodeionization (EDI) technology, which has become more competitive with conventional ion exchange costs. Due to improvements in the construction of the module, the Electrodeionization module and system costs fell even more.

During the forecast period, the Asia-Pacific region is expected to lead the market for Electrodeionisation

The segment of the end-use power generation industry is estimated to share considerable growth in the global market for Electrodeionization. Electrodeionization plays a vital role in the power generation industry, producing ultrapure water to enable turbines to function smoothly and high pressure. Ultrapure water avoids coagulation or disruption of boiler tubes and corrosion at high temperatures. Recognizing the boosted power generation effect of ultrapure water is expected to increase demand for Electrodeionization in the power generation industry.
Plate and frame configuration is expected to use more than 90 percent of installed Electrodeionization (EDI) systems. Plate and frame devices provide the benefit of equal water flow and DC distribution among the parallel hydraulically and electrically in series cells. This system arrangement, like the reject compartments, is identical to each other.

In the global market for Electrodeionization (EDI), the Asia Pacific region is projected to be a leading region. The market’s leading position is attributed to a rapid expansion of construction activity and foreign direct investment to expand or upgrade production facilities. Also, initiatives undertaken by many governments around the world to support growth in end-user industries and manufacturing sectors such as power generation, pharmaceuticals, and electronics & semiconductors are expected to increase demand for Electrodeionization in the region.

The report’s objective is to present a comprehensive market assessment and includes thoughtful insights, facts, historical data, industry-validated market data and projections with an appropriate set of assumptions and methodology. The study also helps the global Electrodeionization market to understand dynamics, structure by analyzing market segments, and project. The report also provides a clear representation of key players ‘ competitive analysis on the global market for Electrodeionization by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, analysis of PORTER, SWOT analysis to address the issue of shareholders in arranging efforts and investment for a particular market segment in the near future.

Under the co-flow configuration, Electrodeionization systems with designs operate, in the system the flow direction in the concentrate chamber is equal to that in the diluting chamber. Because of the plate & frame design, the product compartments are identical, providing the benefit of equal water flow and distribution of electrical current among the stacks. Due to its features such as lower operating costs, simple design and high durability, the demand for the plate & frame construction is increasing.

The Asia-Pacific region is estimated to share North America’s maximum market share in the global market for Electrodeionization. China is one of the Asia-Pacific market’s major contributors to Electrodeionization. The availability of cheap labor and growing foreign direct investment in the region’s power generation, pharmaceutical and electronics & semiconductor industries are expected to drive demand for Electrodeionization.

Acute Market Research, a global market research firm with a dedicated team of specialists and data on the global market for Electrodeionization, has conducted extensive research. The report covers the market by different segments and region, providing an in-depth analysis of the overall industry ecosystem, which is useful for making informed strategic decisions by the industry’s key stakeholders. Importantly, the report provides market forecasts and market share, providing further insight into the market dynamics and future opportunities that may exist in the global market for Electrodeionization. The driving forces were explained in-depth as well as considerable restraints. Also, the competitive landscape describing the strategic growth of competitors was taken into account to enhance our customers ‘ market know-how and at the same time explain competitors ‘ global market positioning for Electrodeionization.

The following manufacturers are covered:

  • Lenntech
  • GE Water
  • ELGA LabWater (Veolia Water Technologies)
  • Applied Membranes
  • AES Arabia
  • Pure Aqua
  • Dow Chemical
  • Aguapuro Equipments
  • newterra ltd
  • SnowPure
  • Progressive Water Treatment
  • Tech Aid Systems
  • Aqua FilSep Inc.

Segment by Regions

  • North America
  • Europe
  • China
  • Japan

Segment by Type

  • Membrane Separation
  • Ion Exchange
  • Others

Segment by Application

  • Food And Beverages Industry
  • Chemical Production
  • Biotechnology
  • Electronics & Semiconductor
  • Cosmetic
  • Laboratories
  • Pharmaceutical Industry
  • Water Treatment

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Table Of Content:

1 Electrodeionization (EDI) Systems Market Overview

1.1 Product Overview and Scope of Electrodeionization (EDI) Systems

1.2 Electrodeionization (EDI) Systems Segment by Type

1.2.1 Global Electrodeionization (EDI) Systems Production Growth Rate Comparison by Type (2014-2025)

1.2.2 Membrane Separation

1.2.3 Ion Exchange

1.2.4 Others

1.3 Electrodeionization (EDI) Systems Segment by Application

1.3.1 Electrodeionization (EDI) Systems Consumption Comparison by Application (2014-2025)

1.3.2 Food And Beverages Industry

1.3.3 Chemical Production

1.3.4 Biotechnology

1.3.5 Electronics & Semiconductor

1.3.6 Cosmetic

1.3.7 Laboratories

1.3.8 Pharmaceutical Industry

1.3.9 Water Treatment

1.3 Global Electrodeionization (EDI) Systems Market by Region

1.3.1 Global Electrodeionization (EDI) Systems Market Size Region

1.3.2 North America Status and Prospect (2014-2025)

1.3.3 Europe Status and Prospect (2014-2025)

1.3.4 China Status and Prospect (2014-2025)

1.3.5 Japan Status and Prospect (2014-2025)

1.3.6 Southeast Asia Status and Prospect (2014-2025)

1.3.7 India Status and Prospect (2014-2025)

1.4 Global Market Size

1.4.1 Global Revenue (2014-2025)

1.4.2 Global Production (2014-2025)

2 Global Electrodeionization (EDI) Systems Market Competition by Manufacturers

2.1 Global  Production Market Share by Manufacturers (2014-2019)

2.2 Global  Revenue Share by Manufacturers (2014-2019)

2.3 Global  Average Price by Manufacturers (2014-2019)

2.4 Manufacturers  Production Sites, Area Served, Product Types

2.5 Market Competitive Situation and Trends

2.5.1 Market Concentration Rate

2.5.2 Market Share of Top 3 and Top 5 Manufacturers

2.5.3 Mergers & Acquisitions, Expansion

3 Global Electrodeionization (EDI) Systems Production Market Share by Regions

3.1 Global Production Market Share by Regions

3.2 Global Revenue Market Share by Regions (2014-2019)

3.3 Global Production, Revenue, Price and Gross Margin (2014-2019)

3.4 North America Production

3.4.1 North America Production Growth Rate (2014-2019)

3.4.2 North America Production, Revenue, Price and Gross Margin (2014-2019)

3.5 Europe Production

3.5.1 Europe Production Growth Rate (2014-2019)

3.5.2 Europe Production, Revenue, Price and Gross Margin (2014-2019)

3.6 China Production (2014-2019)

3.6.1 China Production Growth Rate (2014-2019)

3.6.2 China Production, Revenue, Price and Gross Margin (2014-2019)

3.7 Japan Production (2014-2019)

3.7.1 Japan Production Growth Rate (2014-2019)

3.7.2 Japan Production, Revenue, Price and Gross Margin (2014-2019)

4 Global Electrodeionization (EDI) Systems Consumption by Regions

4.1 Global Electrodeionization (EDI) Systems Consumption by Regions

4.2 North America Consumption (2014-2019)

4.3 Europe Consumption (2014-2019)

4.4 China Consumption (2014-2019)

4.5 Japan Consumption (2014-2019)

5 Global Electrodeionization (EDI) Systems Production, Revenue, Price Trend by Type

5.1 Global Production Market Share by Type (2014-2019)

5.2 Global Revenue Market Share by Type (2014-2019)

5.3 Global Price by Type (2014-2019)

5.4 Global Production Growth by Type (2014-2019)

6 Global Electrodeionization (EDI) Systems Market Analysis by Applications

6.1 Global Consumption Market Share by Application (2014-2019)

6.2 Global Consumption Growth Rate by Application (2014-2019)

7 Company Profiles and Key Figures in Electrodeionization (EDI) Systems Business

7.1 Lenntech

7.1.1 Lenntech Production Sites and Area Served

7.1.2 Product Introduction, Application and Specification

7.1.3 Lenntech Production, Revenue, Price and Gross Margin (2014-2019)

7.1.4 Main Business and Markets Served

7.2 GE Water

7.2.1 GE Water Production Sites and Area Served

7.2.2 Product Introduction, Application and Specification

7.2.3 GE Water Production, Revenue, Price and Gross Margin (2014-2019)

7.2.4 Main Business and Markets Served

7.3 ELGA LabWater (Veolia Water Technologies)

7.3.1 ELGA LabWater (Veolia Water Technologies) Production Sites and Area Served

7.3.2 Electrodeionization (EDI) Systems Product Introduction, Application and Specification

7.3.3 ELGA LabWater (Veolia Water Technologies) Electrodeionization (EDI) Systems Production, Revenue, Price and Gross Margin (2014-2019)

7.3.4 Main Business and Markets Served

7.4 Applied Membranes

7.4.1 Applied Membranes Production Sites and Area Served

7.4.2 Product Introduction, Application and Specification

7.4.3 Applied Membranes Production, Revenue, Price and Gross Margin (2014-2019)

7.4.4 Main Business and Markets Served

7.5 AES Arabia

7.5.1 AES Arabia Electrodeionization (EDI) Systems Production Sites and Area Served

7.5.2 Electrodeionization (EDI) Systems Product Introduction, Application and Specification

7.5.3 AES Arabia Electrodeionization (EDI) Systems Production, Revenue, Price and Gross Margin (2014-2019)

7.5.4 Main Business and Markets Served

7.6 Pure Aqua

7.6.1 Pure Aqua Electrodeionization (EDI) Systems Production Sites and Area Served

7.6.2 Electrodeionization (EDI) Systems Product Introduction, Application and Specification

7.6.3 Pure Aqua Electrodeionization (EDI) Systems Production, Revenue, Price and Gross Margin (2014-2019)

7.6.4 Main Business and Markets Served

7.7 Dow Chemical

7.7.1 Dow Chemical Electrodeionization (EDI) Systems Production Sites and Area Served

7.7.2 Electrodeionization (EDI) Systems Product Introduction, Application and Specification

7.7.3 Dow Chemical Electrodeionization (EDI) Systems Production, Revenue, Price and Gross Margin (2014-2019)

7.7.4 Main Business and Markets Served

7.8 Aguapuro Equipments

7.8.1 Aguapuro Equipments Electrodeionization (EDI) Systems Production Sites and Area Served

7.8.2 Electrodeionization (EDI) Systems Product Introduction, Application and Specification

7.8.3 Aguapuro Equipments Production, Revenue, Price and Gross Margin (2014-2019)

7.8.4 Main Business and Markets Served

7.9 newterra ltd

7.9.1 newterra ltd Production Sites and Area Served

7.9.2 Product Introduction, Application and Specification

7.9.3 newterra ltd Production, Revenue, Price and Gross Margin (2014-2019)

7.9.4 Main Business and Markets Served

7.10 SnowPure

7.10.1 SnowPure Production Sites and Area Served

7.10.2 Product Introduction, Application and Specification

7.10.3 SnowPure Production, Revenue, Price and Gross Margin (2014-2019)

7.10.4 Main Business and Markets Served

7.11 Progressive Water Treatment

7.12 Tech Aid Systems

7.13 Aqua FilSep Inc.

8 Electrodeionization (EDI) Systems Manufacturing Cost Analysis

8.1 Electrodeionization (EDI) Systems Key Raw Materials Analysis

8.1.1 Key Raw Materials

8.1.2 Price Trend of Key Raw Materials

8.1.3 Key Suppliers of Raw Materials

8.2 Proportion of Manufacturing Cost Structure

8.3 Manufacturing Process Analysis of Electrodeionization (EDI) Systems

8.4 Electrodeionization (EDI) Systems Industrial Chain Analysis

9 Marketing Channel, Distributors and Customers

9.1 Marketing Channel

9.1.1 Direct Marketing

9.1.2 Indirect Marketing

9.2 Electrodeionization (EDI) Systems Distributors List

9.3 Electrodeionization (EDI) Systems Customers

10 Market Dynamics

10.1 Market Trends

10.2 Opportunities

10.3 Market Drivers

10.4 Challenges

10.5 Influence Factors

11 Global Electrodeionization (EDI) Systems Market Forecast

11.1 Global Production, Revenue Forecast

11.1.1 Global Production Growth Rate Forecast (2019-2025)

11.1.2 Global Revenue and Growth Rate Forecast (2019-2025)

11.1.3 Global Price and Trend Forecast (2019-2025)

11.2 Global Production Forecast by Regions (2019-2025)

11.2.1 North America Production, Revenue Forecast (2019-2025)

11.2.2 Europe Production, Revenue Forecast (2019-2025)

11.2.3 China Production, Revenue Forecast (2019-2025)

11.2.4 Japan Production, Revenue Forecast (2019-2025)

11.3 Global Consumption Forecast by Regions (2019-2025)

11.3.1 North America Consumption Forecast (2019-2025)

11.3.2 Europe Consumption Forecast (2019-2025)

11.3.3 China Consumption Forecast (2019-2025)

11.3.4 Japan Consumption Forecast (2019-2025)

11.4 Global Production, Revenue and Price Forecast by Type (2019-2025)

11.5 Global Consumption Forecast by Application (2019-2025)

12 Research Findings and Conclusion

13 Methodology and Data Source

13.1 Methodology/Research Approach

13.1.1 Research Programs/Design

13.1.2 Market Size Estimation

13.1.3 Market Breakdown and Data Triangulation

13.2 Data Source

13.2.1 Secondary Sources

13.2.2 Primary Sources

13.3 Author List

13.4 Disclaimer

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