超純水の世界市場規模、機会分析＆予測 2024-2031年

Report Overview

Global Ultrapure Water Market: Driven by Growing semiconductor industry, Forecast to Reach US$ 18.08 Billion by 2031 with a robust CAGR of 9.66% over the forecast period 2024–2031.

世界の超純水市場：成長する半導体産業によって牽引され、2024年から2031年の予測期間にわたって9.66％という堅調なCAGRで、2031年までに180億8000万米ドルに達すると予測されています。

Introduction

The Global Ultrapure Water Market is vital to the water treatment industry, driven by an increasing demand for high-purity water across several key sectors, including pharmaceuticals, biotechnology, semiconductor manufacturing, and power generation. Ultrapure water, characterized by extremely low levels of contaminants, is essential for maintaining the integrity and efficacy of products in these industries.

As technological advancements and health concerns continue to evolve, the demand for ultrapure water is also on the rise. In the pharmaceuticals and biotechnology sectors, ultrapure water is crucial for drug formulation and laboratory testing, where adherence to strict quality standards is imperative. Similarly, the semiconductor industry relies on ultrapure water to eliminate impurities during microchip production, ensuring optimal functionality and performance.

Moreover, the power generation sector is increasingly turning to ultrapure water to enhance operational efficiency and minimize environmental impact. Various technologies, including reverse osmosis, ultrafiltration, and electrodeionization, contribute to the production of ultrapure water. With its significant role in ensuring product quality and safety, the ultrapure water market is poised for substantial growth, reflecting its importance across multiple industries and applications.

Drivers of Growth

The pharmaceutical and biotechnology industries depend significantly on ultrapure water for crucial processes such as drug formulation, research, and laboratory testing. As these sectors grow, driven by factors like population growth, aging demographics, and technological advancements in medicine, the demand for ultrapure water is expected to increase substantially. This high-purity water is essential for drug formulations, diluting active pharmaceutical ingredients (APIs), and preparing sterile solutions, ensuring both the integrity and efficacy of pharmaceutical products while meeting strict quality and regulatory standards.

In contrast, standard potable water fails to meet the necessary specifications, with required dissolved solids levels at least 10,000 times lower than those found in regular drinking water. Furthermore, ultrapure water must be entirely free of organic materials and bacteria. Achieving such purity involves removing 98% of influent water salts through reverse osmosis, followed by advanced treatments like ion exchange or continuous deionization. The pharmaceutical industry implements stringent quality control measures, employing ultrapure water for cleaning equipment, rinsing containers, and conducting microbial and chemical tests, where its reliability is crucial due to a resistivity of 18.2 MΩ-cm at 25°C.

Segment Overview

The ultrapure water market encompasses various technologies, including Reverse Osmosis (RO), Ultrafiltration (UF), Nanofiltration, Microfiltration, Carbon Filtration, and Electrodeionization. In 2023, the Reverse Osmosis segment dominated the market, accounting for 48.85% of the share and projected to experience the highest CAGR during the forecast period. The increasing demand for ultrapure RO is attributed to its versatility in handling diverse flow requirements and salinity levels, along with flexible designs that enhance cost-effectiveness. RO systems employ membrane technology to eliminate over 99% of contaminants, rendering the treated water suitable for various high-purity applications.

Ultrafiltration utilizes a hollow fiber membrane to remove solid debris and microscopic contaminants down to 0.025 microns, effectively serving as a mechanical filter. In contrast, Nanofiltration operates with a pore size of approximately 0.001 microns, efficiently eliminating most organic molecules, viruses, and various salts, thus providing ultrapure water that meets stringent industrial standards.

In 2023, the semiconductor segment led the market, projected to grow at the highest CAGR due to the critical need for ultrapure water in microchip manufacturing for electronics. Additionally, ultrapure water is essential in the healthcare sector for sterilization processes, while the power generation industry depends on it for stable and efficient turbine operation, emphasizing reliability and consistency.

Regional Insights

In 2023, the Asia Pacific region led the ultrapure water market, securing over 39% of the revenue share, driven by robust demand from countries such as China, India, and Japan. China, as the foremost semiconductor manufacturer and the world’s second-largest pharmaceutical market, has a significant need for ultrapure water, which is propelled by a burgeoning middle class, an aging population, and increasing urbanization.

North America ranks as the second-largest market for ultrapure water, with rising demand stemming from the growth of smart devices, medical electronics, and the rollout of 5G technology, particularly within the electronics sector. Ultrapure water is crucial for the production of microelectronics, including flat panel displays, semiconductor wafers, and solar photovoltaic cells.

Companies like Ecolab have made substantial contributions to this market by implementing innovative solutions. For instance, they assisted a mobile phone manufacturer in saving approximately 300 million liters of water and nearly $2 million. Furthermore, Ecolab’s initiatives have led to the preservation of about 280 million liters of water annually at a single customer site, equivalent to the annual water consumption of over 255,000 people, resulting in savings of $1.7 million.

Competitive Landscape

The Global Ultrapure Water market features a dynamic competitive landscape with key players such as Veolia, Organo Corporation, Ecolab Inc., DuPont Water Solutions, and Ovivo collectively holding over 33% of the market share. Their competitive edge is driven by significant investments in research and development, alongside strategic partnerships to enhance market presence and diversify offerings. Key competitive factors include pricing, product quality, and technological innovation. As the ultrapure water industry grows, competition among these leaders is expected to intensify, leading to increased innovation and strategic growth initiatives that will further drive sector development and transformation.

Conclusion

The pharmaceutical and biotechnology industries depend on ultrapure water for essential processes such as drug formulation, research, and laboratory testing. As these sectors expand, driven by population growth, an aging population, and advancements in medical technology, the demand for ultrapure water continues to rise. This water is vital for drug formulation, active pharmaceutical ingredient (API) dilution, and sterile solutions, ensuring product integrity and compliance with rigorous quality standards. It must meet stringent purity levels, with dissolved solids significantly lower than those in standard potable water.

Reverse osmosis technology plays a crucial role by removing 98% of salts from influent water, followed by additional treatments like ion exchange or continuous deionization to achieve the required purity. Pharmaceutical companies also utilize ultrapure water for equipment cleaning, container rinsing, and quality control testing. In the semiconductor industry, ultrapure water is essential for maintaining chip integrity, while the healthcare and power generation sectors use it for sterilization and ensuring stable turbine operations. Reverse osmosis leads the market with a 48.85% share and is expected to grow at the highest CAGR.

Segmentation Overview

The various segments of the Global Ultrapure Water market are:

By Technology, the Global Ultrapure Water market is segmented into:

• Reverse Osmosis
• Ultrafiltration
• Nanofiltration
• Microfiltration
• Carbon Filtration
• Electrodeionization
• Others

By Industry, the Global Ultrapure Water market is segmented into:

• Healthcare

High Performance Liquid Chromatography (HPLC)

Liquid Chromatography – Mass Spectrometry (LC-MS)

Gas Chromatography – Mass Spectrometry (GC-MS)

Polymerase chain reaction (PCR)

Immunochemistry (ICC)

Mammalian cell culture

Clinical analysers

Others

• Semiconductor
• Electronics

Computers

Smartphones

Tablets

Televisions

Others

• Power Generation
• Solar & Photovoltaic
• Automotive
• Food and Beverage
• Oil and Gas
• Other

By Region, the Global Ultrapure Water market is segmented into:

• North America
• Europe
• Asia Pacific
• Middle East & Africa
• South America

Table of Contents

Chapter 1.              Research Framework

1.1.          Research Objective

1.2.          Product Overview

1.3.          Market Segmentation

Chapter 2.              Research Methodology

2.1.          Qualitative Research

2.1.1.       Primary & Secondary Sources

2.2.          Quantitative Research

2.2.1.       Primary & Secondary Sources

2.3.          Breakdown of Primary Research Respondents, By Region

2.4.          Assumption for the Study

2.5.          Market Size Estimation

2.6.          Data Triangulation

Chapter 3.              Executive Summary: Global Ultrapure Water Market

Chapter 4.              Global Ultrapure Water Market Overview

4.1.          Industry Value Chain Analysis

4.1.1.       Technology/Systems Provider

4.1.2.       Manufacturer

4.1.3.       End User

4.2.          Industry Outlook

4.2.1.       Recent Developments in the Ultrapure Water Market

4.2.2.       Application of Ultrapure Water in various industries

4.3.          PESTLE Analysis

4.4.          Porter’s Five Forces Analysis

4.4.1.       Bargaining Power of Suppliers

4.4.2.       Bargaining Power of Buyers

4.4.3.       Threat of Substitutes

4.4.4.       Threat of New Entrants

4.4.5.       Degree of Competition

4.5.          Market Dynamics and Trends

4.5.1.       Growth Drivers

4.5.2.       Restraints

4.5.3.       Challenges

4.5.4.       Key Trends

4.6.          Covid-19 Impact Assessment on Market Growth Trend

4.7.          Market Growth and Outlook

4.7.1.       Market Revenue Estimates and Forecast (US$ Mn), 2018-2031

4.7.2.       Market Volume Estimates and Forecast (Mn Liters), 2018-2031

4.7.3.       Price Trend Analysis, By Technology

4.8.          Competition Dashboard

4.8.1.       Market Concentration Rate

4.8.2.       Company Market Share Analysis (Value %), 2022

4.8.3.       Competitor Mapping

Chapter 5.              Global Ultrapure Water Market Analysis, By Technology

5.1.          Key Insights

5.2.          Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

5.2.1.       Reverse Osmosis

5.2.2.       Ultrafiltration

5.2.3.       Nanofiltration

5.2.4.       Microfiltration

5.2.5.       Carbon Filtration

5.2.6.       Electrodeionization

5.2.7.       Others

Chapter 6.              Global Ultrapure Water Market Analysis, By Industry

6.1.          Key Insights

6.2.          Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

6.2.1.       Healthcare

6.2.1.1.   High Performance Liquid Chromatography (HPLC)

6.2.1.2.   Liquid Chromatography – Mass Spectrometry (LC-MS)

6.2.1.3.   Gas Chromatography – Mass Spectrometry (GC-MS)

6.2.1.4.   Polymerase chain reaction (PCR)

6.2.1.5.   Immunochemistry (ICC)

6.2.1.6.   Mammalian cell culture

6.2.1.7.   Clinical analysers

6.2.1.8.   Others

6.2.2.       Semiconductor

6.2.3.       Electronics

6.2.3.1.   Computers

6.2.3.2.   Smartphones

6.2.3.3.   Tablets

6.2.3.4.   Televisions

6.2.3.5.   Others

6.2.4.       Power Generation

6.2.5.       Solar & Photovoltaic

6.2.6.       Automotive

6.2.7.       Food and Beverage

6.2.8.       Oil and Gas

6.2.9.       Others

Chapter 7.              Global Ultrapure Water Market Analysis, By Region

7.1.          Key Insights

7.2.          Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

7.2.1.       North America

7.2.1.1.   The U.S.

7.2.1.2.   Canada

7.2.1.3.   Mexico

7.2.2.       Europe

7.2.2.1.   Western Europe

7.2.2.1.1.                 The UK

7.2.2.1.2.                 Germany

7.2.2.1.3.                 France

7.2.2.1.4.                 Italy

7.2.2.1.5.                 Spain

7.2.2.1.6.                 Rest of Western Europe

7.2.2.2.   Eastern Europe

7.2.2.2.1.                 Poland

7.2.2.2.2.                 Russia

7.2.2.2.3.                 Rest of Eastern Europe

7.2.3.       Asia Pacific

7.2.3.1.   China

7.2.3.2.   India

7.2.3.3.   Japan

7.2.3.4.   South Korea

7.2.3.5.   Australia & New Zealand

7.2.3.6.   ASEAN

7.2.3.7.   Rest of Asia Pacific

7.2.4.       Middle East & Africa

7.2.4.1.   UAE

7.2.4.2.   Saudi Arabia

7.2.4.3.   South Africa

7.2.4.4.   Rest of MEA

7.2.5.       South America

7.2.5.1.   Argentina

7.2.5.2.   Brazil

7.2.5.3.   Rest of South America

Chapter 8.              North America Ultrapure Water Market Analysis

8.1.          Key Insights

8.2.          Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

8.2.1.       By Technology

8.2.2.       By Industry

8.2.3.       By Country

Chapter 9.              Europe Ultrapure Water Market Analysis

9.1.          Key Insights

9.2.          Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

9.2.1.       By Technology

9.2.2.       By Industry

9.2.3.       By Country

Chapter 10.            Asia Pacific Ultrapure Water Market Analysis

10.1.        Key Insights

10.2.        Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

10.2.1.    By Technology

10.2.2.    By Industry

10.2.3.    By Country

Chapter 11.            Middle East and Africa Ultrapure Water Market Analysis

11.1.        Key Insights

11.2.        Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

11.2.1.    By Technology

11.2.2.    By Industry

11.2.3.    By Country

Chapter 12.            South America Ultrapure Water Market Analysis

12.1.        Key Insights

12.2.        Market Size and Forecast, 2018-2031 (US$ Mn & Mn Liters)

12.2.1.    By Technology

12.2.2.    By Industry

12.2.3.    By Country

Chapter 13.           Company Profile (Company Overview, Financial Matrix, Key Product landscape, Key Personnel, Key Competitors, Contact Address, and Business Strategy Outlook)

13.1.        Asahi Kasei Corporation

13.2.        Calgon Carbon Corporation

13.3.        Canadian Clear

13.4.        DuPont Water Solutions

13.5.        Ecolab

13.6.        Evoqua Water Technologies

13.7.        Fluence Corporation Limited

13.8.        General Electric

13.9.        Gradiant

13.10.      Kurita Water Industries Ltd.

13.11.      MANN+HUMMEL

13.12.      MECO INCORPORATED

13.13.      Membrane Group

13.14.      Merck KGaA

13.15.      Organo Corporation

13.16.      Ovivo

13.17.      Pentair

13.18.      Pure Water Group

13.19.      Synder Filtration, Inc.

13.20.      Thermax Limited

13.21.      Veolia

13.22.      Other Prominent Players

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