オゾン生成: 技術、市場、プレーヤー

出版：BCC Research（BCCリサーチ）　出版年月：2023年5月

Ozone Generation: Technologies, Markets and Players
オゾン生成: 技術、市場、プレーヤー

レポート目次　　お問合せ・ご注文　　価格・納期について

Report Highlights

The global market for ozone generation is estimated to increase from $1.2 billion in 2022 to reach $1.7 billion by 2027, at a compound annual growth rate (CAGR) of 7.0% from 2022 through 2027.

Summary:

The ozone generation industry involves the production and distribution of ozone generators, which are devices that generate ozone gas. Ozone gas is a powerful oxidizing agent and is used for various applications, including waterapplications, air and gas purification, and medicinal purposes. The technology used in ozone generationvaries depending on the application. Some ozone generators use corona discharge technology, whichinvolves the use of high voltage electrical discharge to produce ozone gas. Others use ultraviolet light togenerate ozone gas.

Some of the key market trends in ozone generation include growing demand for water and wastewater treatment for disinfecting and purifying water, increasing awareness of indoor air quality, surging healthcare industry and environmental regulations and sustainability. Ozone generators are used in air purification applications, such as in HVAC systems and industrial ventilation. With growing concerns over air pollution, the demand for effective air purification methods is expected to increase in the coming years.

It is critical to safeguard the environment and water supply. Water pollution is getting progressively worse. This problem is being tracked by all nations. Industry is the foundation of many national economies. Water contamination is a big concern on a global scale. In metropolitan settings, sewage treatment technology can efficiently treat domestic and industrial wastewater to stop sewage and contaminants from entering waterways. Ozone generation technologies are crucial components of wastewater treatment machinery.

Given the current state of ecological consciousness, dangerous emissions from industrial processes or human activity point to negative effects on the environment. There is a considerable incentive for adopting energy efficient ozone generation, carrying out research on new kinds of technologies and materials due to new laws and changing markets. The ozone generation industry is expanding into new markets, particularly in developing countries where access to clean water and air is a major concern. This presents new opportunities for companies in the industry to develop and market ozone-based solutions for these markets.

Advancements in ozone generation technology, such as the development of more efficient and compact ozone generators, are further driving the growth of the market. These new technologies are improving the efficiency and effectiveness of ozone generation, making it more accessible and cost-effective for a wider range of applications. Moreover, ozone generators offer a more environmentally friendly and sustainable solution for water and air purification, as they do not use harmful chemicals or leave behind harmful byproducts. In the healthcare industry, ozone generators are widely used in applications such as sterilization and disinfection. With growing concerns over healthcare-associated infections, the demand for ozone generators in healthcare is expected to continue to increase in the coming years.

The ozone generation industry has been growing in recent years due to increasing concerns about environmental pollution and the need for more effective water and air treatment methods. The industry is also driven by advances in technology, which have led to more efficient and cost-effective ozone generators. However, the ozone generation industry also faces challenges related to safety and regulation. Ozone gas can be dangerous if not used properly, and there are regulations in place to ensure that ozone generators meet safety standards.

Report Scope:

This report will cover the ozone generation industry. Definitive and detailed estimates and forecasts of the global market are provided, followed by a detailed analysis of application types and regions. Ongoing market trends, growth drivers and challenges impeding the market are discussed. The scope of the market analyzed in this report includes OGT categories for water applications, air and gas treatment, and medicine on a global basis. Market segments for water applications include potable water (e.g., municipal, bottled, residential), wastewater (e.g., industrial, municipal), and process water and other water (e.g., pool and spa, aquaculture, remaining applications). The air and gas treatment category includes semiconductor manufacture and other air and gas treatment segments.

Using 2021 as the base year, the report provides estimated market data for the forecast period 2022-2027. The market size for different regions (regions by application) will also be covered. Sales value estimates are based on prices in the supply chain. Market-driving forces and industry structure are examined. International aspects are analyzed for all global regions.

This report considers the impact of COVID-19. In 2020, the growth rate of manufacturing industries worldwide was severely affected by the pandemic. The COVID-19 pandemic halted progress in every regional economy. Various governments around the globe took measures to contain the fallout from the economic slowdown.

Report Includes:

– 74 data tables and 50 additional tables
– An overview of the global market and technologies for ozone generation
– Estimation of the market size and analyses of global market trends, with data from 2021, 2022 and projections of compound annual growth rates (CAGRs) through 2027
– Highlights of the current and future market potential and quantification of ozone generation market based on type, application, and region
– Identification of trends that are affecting the use of ozone generation technologies and their major source markets
– Information on ozone generation methods, such as chemical reactions, electrical discharge, ultraviolet radiation, and photolysis of oxygen molecules
– Analysis of underlying technological, environmental, legal/regulatory, and political trends that may influence the size and nature of the market
– Coverage of advancements in ozone generation technology, and description of OGT categories for water applications, air and gas treatment, and medicine
– Market share analysis of the key companies of the industry and coverage of their proprietary technologies, strategic alliances, and other key market strategies and a relevant patent analysis
– Comprehensive company profiles of the leading players of the industry, including Evoqua Water Technologies Corp., MKS Instruments Inc., Toshiba Corp., Xylem Inc., Industrie De Nora, and Ebara Corp.

目次

Table of Contents
Chapter 1 Introduction
1.1 Overview
1.2 Study Goals and Objectives
1.3 Reasons for Doing This Study
1.4 What’s New in This Update?
1.5 Scope of Report
1.6 Information Sources
1.7 Methodology
1.8 Intended Audience
1.9 Geographic Breakdown
1.10 Analyst’s Credentials
1.11 BCC Custom Research
1.12 Related BCC Research Reports
Chapter 2 Summary and Highlights
2.1 Overview of the Ozone Generation Industry
2.1.1 Population Growth Increasing the Need for OGT
2.1.2 OGT Offers Green Alternative
2.1.3 Air Pollution Good for OGT business
2.1.4 Successfully Completed Projects Supporting OGT Market Growth
Chapter 3 Market Trends
3.1 Overview
3.2 Ozone Lifespan
3.3 Industry Landscape
3.4 History of Ozone Generation Technology
3.5 Megatrends and Innovations
3.6 Global Water Industry Trends
3.6.1 Consumer Health Awareness
3.6.2 Need for Water Management
3.7 Life Cycle Assessment of Ozone Generators
3.8 Regulatory Trends
Chapter 4 Market Dynamics
4.1 Major Market Growth Drivers
4.1.1 Increasing Awareness of Environmental Pollution
4.1.2 Stringent Regulations
4.1.3 Advancements in Technology
4.1.4 Increasing Adoption in Emerging Markets
4.1.5 Demand for Water is Soaring in Response to Global Population
4.1.6 Rapid Urbanization: The Growth and Challenges of Modern Cities
4.1.7 Rapid Growth in Industrialization
4.1.8 Growth in Water Treatment Industries
4.1.9 Climate Change, Extreme Weather Events and OGT
4.1.10 Greater Health Awareness
4.1.11 Higher Water Quality Standards
4.1.12 Population Shifts Guiding OGT Market
4.1.13 Increasing Global Water Consumption Raising OGT demand
4.1.14 Freshwater Depletion and the Need for Water Purification
4.1.15 Water Scarcity and Stress Increasing Water Purification Needs
4.1.16 Mass Migrations Weighing Heavily on Water Supplies
4.1.17 Air Pollution is Expanding Interest in Air Purification
4.1.18 Ozone Generation Technologies and Global Wealth
4.1.19 OGT Use in Natural Disaster Response Incidents
4.1.20 OGTs and Healthy Work Environments
4.1.21 OGT Used to Decrease Harsh Chemical Use
4.1.22 Bottled Water Market Growth and OGT
4.1.23 Economic Benefits of Ozone Use
4.1.24 Availability of Trained Staff
4.2 Market Challenges/Restraints
4.2.1 Higher Installation Cost of Ozone Generation Technology
4.2.2 Lack of Awareness
4.2.3 Limited Access to Financing
4.2.4 Limited Scalability of Ozone Generation Technology
4.2.5 Competing Technologies: Ozone Not Alone
4.2.6 Technical Challenges
4.2.7 Pricing Pressure
4.2.8 Shortage of Semiconductor Chips
4.3 Key Market Growth Opportunities
4.3.1 Market for Ozone Generation Growth in Healthcare Sector
4.3.2 Market for Ozone Generation Growth in Food and Beverage Industry
4.3.3 Market for Ozone Generation Growth in Agriculture Industry
4.4 Successfully Completed Projects Support OGT Market Growth
4.4.1 U.S.
4.4.2 Asia
4.4.3 Europe
4.6 Ozone Installations
4.5 Ozone Therapy to Combat Illness
4.5.1 Varying Regional Acceptance of Ozone Therapy
4.5.2 OGT’s Effect on Thriving Medical Markets
4.5.3 Media Safety Concerns Over Ozone
4.5.4 Ozone Safety Measures
4.6 New Technologies Combating High Costs Associated with OGT
4.7 OGT and Food Security and Safety Issues
4.8 Semiconductor Industry’s Volatility and Its Effects on the OGT Market
4.9 OGT and Endocrine Disrupting Compounds
4.10 Water Recycling and Reuse Market Spurring Growth of the OGT Market
Chapter 5 Ozone Generation Technology Background
5.1 Technology Overview
5.2 Ozone Generation Technology Methods
5.2.1 Corona Discharge
5.2.2 Ultraviolet
5.2.3 Electrolysis
5.2.4 Cold Plasma
5.2.5 Advanced Oxidation Processes
5.3 Ozone Generation Technology Applications
5.3.1 Ozone in Water Applications
5.3.2 Ozone in Air and Gas
5.3.3 Ozone in Medicine
5.4 Structure and Design of Ozone Generator
5.5 Ozone Generation Working Principle
5.5.1 Corona Discharge
5.5.2 Ultraviolet Radiation
5.5.3 Electrolysis
5.6 Benefits of Ozone Generation
5.7 Manufacturing Process of Ozone Generators
5.8 Ozone Production, Concentration and Solubility
5.9 Raw Material Trends
5.10 Environmental Concerns Regarding Atmospheric Ozone
5.11 Ozone as an Antioxidant and Disinfectant
Chapter 6 Ozone Generation Industry Value Chain
6.1 Value Chain Analysis
Chapter 7 Impact of COVID-19 and Russia/Ukraine War on the Market for Ozone Generation
7.1 Impact of COVID-19 on the Ozone Generation Industry
7.2 Impact of the Russia/Ukraine War on the Ozone Generation Industry
Chapter 8 Ozone GenerationTechnology: Methods and Applications
8.1 Overview
8.2 Water Applications
8.2.1 Potable Water
8.2.2 Wastewater
8.2.3 Process Water
8.2.4 Other Water Treatment
8.3 Air and Gas Treatment
8.3.1 Air and Gas Treatment Segments
8.3.2 Other Air and Gas Treatment Segments
8.3.3 Food Storage
8.4 Medicine
8.4.1 Generating Medical Ozone
8.4.2 Medical Ozone Applications
Chapter 9 Market Breakdown by Region
9.1 Global Market for Ozone Generation
9.2 Asia-Pacific
9.2.1 China
9.2.2 India
9.2.3 Japan
9.2.4 South Korea
9.3 North America
9.3.1 U.S.
9.3.2 Canada
9.4 Europe
9.4.1 Germany
9.4.2 U.K.
9.4.3 France
9.4.4 Other Countries
9.5 Middle East
9.6 Latin America and Caribbean
9.7 Africa
9.8 Australia and Oceania
Chapter 10 Patent Analysis
10.1 Patent Analysis
10.2 Primozone’s Improvement on Cold Plasma Ozone Generation
10.3 Ozone Nano-Bubbles of the Future
10.4 ROSE Technology and Remote-Control Operation
10.5 Household Ozone Spray
10.6 Ozone to Degrade Aflatoxin
10.7 Xylem’s Advanced Oxidation Process
10.8 Ecosphere Fracks with Ozone
10.9 Roving Blue MVP Proven in Military Demonstrations
10.10 Scent Crusher Ozone Gear Bag
10.11 Touch Screen Water Faucet Ozone Generator
10.12 Mobile Disinfection Carts
10.13 Ozone Direct’s Ozone Cabinet
10.14 Oxidation Technologies’ Ozone Remediation Trailers
10.15 Primozone’s Mobile and Containerized SM900
Chapter 11 Competitive Landscape
11.1 Overview
11.2 Company Market Share Analysis for Ozone Generation
11.3 Mergers, Acquisitions and New Product Developments
Chapter 12 Company Profiles
A2Z OZONE INC.
ABSOLUTE OZONE
AQUA-SUN OZONE INTERNATIONAL INC.
ARGENTOX OZONE TECHNOLOGY GMBH
BIOTEK ENVIRONMENTAL SCIENCE LTD.
BIOZONE MANUFACTURING SOLUTIONS
BWT HOLDING GMBH
CHEMTRONICS TECHNOLOGIES
CLEARWATER TECH LLC
CMP
DRAMM CORP.
EBARA CORP.
ECO SAFE SYSTEMS USA INC.
ELOZO OY
ENVRON ENVIRONMENTAL LTD.
ERWIN SANDER ELECKTROAPPARETEBAU GMBH
ESCO INTERNATIONAL
EVOQUA WATER TECHNOLOGIES CORP.
FARADAY OZONE PRODUCTS PRIVATE LIMITED
FIN-TEK OZONE WATER TREATMENT
GUARDIAN OZONE
HANGZHOU RONGXIN ELECTRONIC EQUIPMENT CO. LTD.
INDUSTRIE DE NORA S.P.A.
INTERNATIONAL OZONE TECHNOLOGIES GROUP INC.
JENESCO INC.
KAUFMANN UMWELTTECHNIK GMBH
LENNTECH B.V.
LIFETECH SRO
MAZZEI INJECTOR COMPANY LLC
MEDOZONS LTD.
MELLIFIQ
METAWATER USA INC.
MITSUBISHI ELECTRIC CORP.
MKS INSTRUMENTS INC.
NORLAND INTERNATIONAL INC.
NUTEK INTERNATIONAL INC.
OZOCAN CORP.
OZONE DIRECT UK LTD.
OZONE SAFE FOOD TECHNOLOGIES INC.
OZONE SOLUTIONS
OZONE WATER SYSTEMS INC.
OZONOLOGY INC.
PINNACLE OZONE SOLUTIONS LLC
PROMINENT GMBH
PROMOLIFE INC.
PRIMOZONE PRODUCTION AB
QINGDAO GUOLIN ENVIRONMENTAL TECHNOLOGY CO. LTD.
RES REMEDIATION SERVICES
RGF ENVIRONMENTAL GROUP INC.
SEWEC OZON GMBH
SUEZ S.A.
SPARTAN ENVIRONMENTAL TECHNOLOGIES LLC
TELEDYNE TECHNOLOGIES INC.
TOSHIBA CORP.
TRIWIN WATERTEC CO. LTD.
WASSERTEC OZONE SYSTEMS
XYLEM INC.
Chapter 13 Appendix: Abbreviations”

List of Tables
Summary Table : Global Market for Ozone Generation, by Region, Through 2027
Table 1 : Ozone Properties
Table 2 : Ozone Half-Life in Air, Based on Temperature
Table 3 : Ozone Half-Life in Water, Based on Temperature
Table 4 : Ozone Generation Regulations/Standards/Frameworks
Table 5 : Urban Population and Rate of Urbanization, by Country, 2020-2025
Table 6 : Water Use, by Country, 2021
Table 7 : Top 10 Countries with the Highest Water Stress Levels, 2021
Table 8 : Water Treatment Capital Costs, by Technology Type and Plant Size
Table 9 : Produce Washed with Ozone
Table 10 : Malodorous Substances and Odor Thresholds
Table 11 : Ozone Concentrations to Percentage Dissolved Ozone in Water
Table 12 : Global Market for Ozone Generation Technology, by Application, Through 2027
Table 13 : Global Market for Ozone Generation in Potable Water Applications, by Region, Through 2027
Table 14 : Global Market for Ozone Generation Technology in Potable Water Treatment, by Type, Through 2027
Table 15 : Global Market for Ozone Generation Technology in Municipal Potable Water Treatment, by Region, Through 2027
Table 16 : Global Market for Ozone Generation Technology in Bottled Potable Water Treatment, by Region, Through 2027
Table 17 : Global Market for Ozone Generation Technology in Residential Potable Water Treatment, by Region, Through 2027
Table 18 : Global Market for Ozone Generation in Wastewater Treatment Applications, by Region, Through 2027
Table 19 : Global Market for Ozone Generation Technology in Wastewater Treatment, by Segment, Through 2027
Table 20 : Global Market for Ozone Generation Technology in Industrial Wastewater Treatment, by Region, Through 2027
Table 21 : Infectious Agents Potentially Present in Domestic Wastewater
Table 22 : Global Market for Ozone Generation Technology in Municipal Wastewater Treatment, by Region, Through 2027
Table 23 : Ozone Applications in the Food Processing Industry
Table 24 : Produce Washed Commercially with Ozonated Water
Table 25 : Ozone Applications in the Wine Industry
Table 26 : Global Market for Ozone Generation Technology in Process Water Treatment Applications, by Region, Through 2027
Table 27 : Global Market for Ozone Generation Technology in Other Water Treatment Applications, by Region, Through 2027
Table 28 : Global Market for Ozone Technology in Other Water Treatment, by Segment, Through 2027
Table 29 : Global Market for Ozone Generation Technology in Pool and Spa, Applications, by Region, Through 2027
Table 30 : Global Market for Ozone Generation Technology in Aquaculture, by Region, Through 2027
Table 31 : Groundwater Contaminants Susceptible to Ozone
Table 32 : Global Market for Ozone Generation Technology in Remaining Water Applications, by Region, Through 2027
Table 33 : Global Market for Ozone Generation in Air and Gas Treatment Applications, by Region, Through 2027
Table 34 : Global Market for Ozone Generation Technology in Air and Gas Treatment, by Segment, Through 2027
Table 35 : Global Market for Ozone Generation Technology in Semiconductor Applications, by Region, Through 2027
Table 36 : Typical Industrial Odor Control Dosages
Table 37 : Global Market for Ozone Generation Technology in Other Air and Gas Treatments, by Region, Through 2027
Table 38 : Therapeutic Ozone Uses
Table 39 : Veterinary Ozone Therapy Applications
Table 40 : Global Market for Ozone Generation in Medicine Applications, by Region, Through 2027
Table 41 : Global Market for Ozone Generation, by Region, Through 2027
Table 42 : Asia-Pacific Market for Ozone Generation Technology, by Country, Through 2027
Table 43 : Asia-Pacific Market for Ozone Generation Technology, by Application, Through 2027
Table 44 : Asia-Pacific Market for Ozone Generation Technology, by Potable Water Type, Through 2027
Table 45 : Asia-Pacific Market for Ozone Generation Technology, by Wastewater Type, Through 2027
Table 46 : Asia-Pacific Market for Ozone Generation Technology, by Other Water Type, Through 2027
Table 47 : Asia-Pacific Market for Ozone Generation Technology, by Air and Gas Treatment Type, Through 2027
Table 48 : North American Market for Ozone Generation Technology, by Country, Through 2027
Table 49 : North American Market for Ozone Generation Technology, by Application, Through 2027
Table 50 : North American Market for Ozone Generation Technology, by Potable Water Type, Through 2027
Table 51 : North American Market for Ozone Generation Technology, by Wastewater Type, Through 2027
Table 52 : North American Market for Ozone Generation Technology, by Other Water Type, Through 2027
Table 53 : North American Market for Ozone Generation Technology, by Air and Gas Treatment Type, Through 2027
Table 54 : European Market for Ozone Generation Technology, by Country, Through 2027
Table 55 : European Market for Ozone Generation Technology, by Application, Through 2027
Table 56 : European Market for Ozone Generation Technology, by Potable Water Type, Through 2027
Table 57 : European Market for Ozone Generation Technology, by Wastewater Type, Through 2027
Table 58 : European Market for Ozone Generation Technology, by Other Water Type, Through 2027
Table 59 : European Market for Ozone Generation Technology, by Air and Gas Treatment Type, Through 2027
Table 60 : Middle Eastern Market for Ozone Generation Technology, by Application, Through 2027
Table 61 : Middle Eastern Market for Ozone Generation Technology, by Potable Water Type, Through 2027
Table 62 : Middle Eastern Market for Ozone Generation Technology, by Wastewater Type, Through 2027
Table 63 : Middle Eastern Market for Ozone Generation Technology, by Other Water Type, Through 2027
Table 64 : Middle Eastern Market for Ozone Generation Technology, by Air and Gas Treatment Type, Through 2027
Table 65 : Latin American and Caribbean Market for Ozone Generation Technology, by Application, Through 2027
Table 66 : Latin American and Caribbean Market for Ozone Generation Technology, by Potable Water Type, Through 2027
Table 67 : Latin American and Caribbean Market for Ozone Generation Technology, by Wastewater Type, Through 2027
Table 68 : Latin American and Caribbean Market for Ozone Generation Technology, by Other Water Type, Through 2027
Table 69 : Latin American and Caribbean Market for Ozone Generation Technology, by Air and Gas Treatment Type, Through 2027
Table 70 : African Market for Ozone Generation Technology, by Application, Through 2027
Table 71 : African Market for Ozone Generation Technology, by Potable Water Type, Through 2027
Table 72 : African Market for Ozone Generation Technology, by Wastewater Type, Through 2027
Table 73 : African Market for Ozone Generation Technology, by Other Water Type, Through 2027
Table 74 : African Market for Ozone Generation Technology, by Air and Gas Treatment Type, Through 2027
Table 75 : Australian and Oceania Market for Ozone Generation Technology, by Application, Through 2027
Table 76 : Australian and Oceania Market for Ozone Generation Technology, by Potable Water Type, Through 2027
Table 77 : Australian and Oceania Market for Ozone Generation Technology, by Wastewater Type, Through 2027
Table 78 : Australian and Oceania Market for Ozone Generation Technology, by Other Water Type, Through 2027
Table 79 : Australian and Oceania Market for Ozone Generation Technology, by Air and Gas Treatment Type, Through 2027
Table 80 : Patents on Ozone Generation Technologies, 2017-2022
Table 81 : U.S. Patents Containing the Term “Ozone Generation” in the Title or Abstract, 2016
Table 82 : European Patents Containing the Term “Ozone Generation” in the Title or Abstract, 2016-2017
Table 83 : Global Market Shares of Ozone Generators, by Leading Suppliers, 2021
Table 84 : Strategy Dashboard: Global Market for Ozone Generation, 2019-2022
Table 85 : A2Z Ozone Inc.: Product Portfolio
Table 86 : Absolute Ozone: Product Portfolio
Table 87 : Biotek Environmental Science Ltd.: Product Portfolio
Table 88 : BWT AG: Product Portfolio
Table 89 : Chemtronics Technologies: Product Portfolio
Table 90 : ClearWater Tech LLC: Product Portfolio
Table 91 : CMP: Product Portfolio
Table 92 : Ebara Corp.: Company Financial Highlights, 2019-2021
Table 93 : Ebara Corp.: Product Portfolio
Table 94 : Eco Safe Systems USA Inc.: Product Portfolio
Table 95 : Elozo Oy.: Product Portfolio
Table 96 : Evoqua Water Technologies Corp.: Company Financial Highlights, 2020-2022
Table 97 : Evoqua Water Technologies Corp.: Product Portfolio
Table 98 : Faraday Ozone: Product Portfolio
Table 99 : Guardian Ozone.: Product Portfolio
Table 100 : Industrie De Nora: Company Financial Highlights, 2019-2021
Table 101 : Industrie De Nora: Product Portfolio
Table 102 : Jenesco Inc.: Product Portfolio
Table 103 : Medozons Ltd.: Product Portfolio
Table 104 : Mellifiq (Ozonetech): Product Portfolio
Table 105 : Metawater USA Inc.: Product Portfolio
Table 106 : Mitsubishi Electric Corporation: Company Financial Highlights, 2020-2022
Table 107 : MKS Instruments Inc.: Company Financial Highlights, 2020-2022
Table 108 : MKS Instruments Inc.: Product Portfolio
Table 109 : Ozocan Corp.: Product Portfolio
Table 110 : Ozone Direct UK: Product Portfolio
Table 111 : Ozone Solutions Inc.: Product Portfolio
Table 112 : Ozonology Inc.: Product Portfolio
Table 113 : Pinnacle Ozone Solutions: Product Portfolio
Table 114 : ProMinent GmbH: Product Portfolio
Table 115 : Primozone Production: Product Portfolio
Table 116 : Qingdao Guolin Environmental Technology: Company Financial Highlights, 2019-2021
Table 117 : Spartan Environmental Technologies.: Product Portfolio
Table 118 : Toshiba Corp.: Company Financial Highlights, 2020-2022
Table 119 : Toshiba Corp.: Product Portfolio
Table 120 : Wassertec Ozone Systems: Product Portfolio
Table 121 : Xylem Inc.: Company Financial Highlights, 2020-2022
Table 122 : Xylem Inc.: Product Portfolio
Table 123 : Abbreviations Used in This Report

List of Figures
Summary Figure : Global Market Shares of Ozone Generation, by Region, 2021
Figure A : Data Source: Global Market for Ozone Generation
Figure B : Ozone Generation Segments
Figure 1 : Global Market for Ozone Generation Trends, 2021-2027
Figure 2 : Market Dynamics: Global Ozone Generation Industry
Figure 3 : Global Food Demand, by Region, 2020
Figure 4 : Freshwater Stress, 1995 and 2025
Figure 5 : Market for Ozone Generation Industry Value Chain
Figure 6 : Global Crude Oil Prices, Dec. 2021-March 2022
Figure 7 : Global Market Shares of Ozone Generation Technology, by Application, 2021
Figure 8 : Global Market Shares of Ozone Generation in Potable Water Applications, by Region, 2021
Figure 9 : Global Market Shares of Ozone Generation Technology in Potable Water Treatment, by Type, 2021
Figure 10 : Global Market Shares of Ozone Generation Technology in Municipal Potable Water Treatment, by Region, 2021
Figure 11 : Global Market Shares of Ozone Generation Technology in Bottled Potable Water Treatment, by Region, 2021
Figure 12 : Global Market Shares of Ozone Generation Technology in Residential Potable Water Treatment, by Region, 2021
Figure 13 : Global Market Shares of Ozone Generation in Wastewater Treatment Applications, by Region, 2021
Figure 14 : Global Market Shares of Ozone Generation Technology in Wastewater Treatment, by Segment, 2021
Figure 15 : Global Market Shares of Ozone Generation Technology in Industrial Wastewater Treatment, by Region, 2021
Figure 16 : Global Market Shares of Ozone Generation Technology in Municipal Wastewater Treatment, by Region, 2021
Figure 17 : Global Market Shares of Ozone Generation Technology in Process Water Treatment Applications, by Region, 2021
Figure 18 : Global Market Shares of Ozone Generation Technology in Other Water Treatment Applications, by Region, 2021
Figure 19 : Global Market Shares of Ozone Generation Technology in Other Water Treatment, by Segment, 2021
Figure 20 : Global Market Shares of Ozone Generation Technology in Pool and Spa, Applications, by Region, 2021
Figure 21 : Global Market Shares of Ozone Generation Technology in Aquaculture, by Region, 2021
Figure 22 : Global Market Shares of Ozone Generation Technology in Remaining Water Applications, by Region, 2021
Figure 23 : Global Market Shares of Ozone Generation in Air and Gas Treatment Applications, by Region, 2021
Figure 24 : Global Market Shares of Ozone Generation Technology in Air and Gas Treatment, by Segment, 2021
Figure 25 : Global Market Shares of Ozone Generation Technology in Semiconductor Applications, by Region, 2021
Figure 26 : Global Market Shares of Ozone Generation Technology in Other Air and Gas Treatments, by Region, 2021
Figure 27 : Global Market Shares of Ozone Generation in Medicine Applications, by Region, 2021
Figure 28 : Global Market Shares of Ozone Generation, by Region, 2021
Figure 29 : Asia-Pacific Market Shares of Ozone Generation Technology, by Country, 2021
Figure 30 : Asia-Pacific Market Shares of Ozone Generation Technology, by Application, 2021
Figure 31 : Asia-Pacific Market Shares of Ozone Generation Technology, by Potable Water Type, 2021
Figure 32 : Asia-Pacific Market Shares of Ozone Generation Technology, by Wastewater Type, 2021
Figure 33 : Asia-Pacific Market Shares of Ozone Generation Technology, by Other Water Type, 2021
Figure 34 : Asia-Pacific Market Shares of Ozone Generation Technology, by Air and Gas Treatment Type, 2021
Figure 35 : North American Market Shares of Ozone Generation Technology, by Country, 2021
Figure 36 : North American Market Shares of Ozone Generation Technology, by Application, 2021
Figure 37 : North American Market Shares of Ozone Generation Technology, by Potable Water Type, 2021
Figure 38 : North American Market Shares of Ozone Generation Technology, by Wastewater Type, 2021
Figure 39 : North American Market Shares of Ozone Generation Technology, by Other Water Type, 2021
Figure 40 : North American Market Shares of Ozone Generation Technology, by Air and Gas Treatment Type, 2021
Figure 41 : European Market Shares of Ozone Generation Technology, by Country, 2021
Figure 42 : European Market Shares of Ozone Generation Technology, by Application, 2021
Figure 43 : European Market Shares of Ozone Generation Technology, by Potable Water Type, 2021
Figure 44 : European Market Shares of Ozone Generation Technology, by Wastewater Type, 2021
Figure 45 : European Market Shares of Ozone Generation Technology, by Other Water Type, 2021
Figure 46 : European Market Shares of Ozone Generation Technology, by Air and Gas Treatment Type, 2021
Figure 47 : Middle Eastern Market Shares of Ozone Generation Technology, by Application, 2021
Figure 48 : Middle Eastern Market Shares of Ozone Generation Technology, by Potable Water Type, 2021
Figure 49 : Middle Eastern Market Shares of Ozone Generation Technology, by Wastewater Type, 2021
Figure 50 : Middle Eastern Market Shares of Ozone Generation Technology, by Other Water Type, 2021
Figure 51 : Middle Eastern Market Shares of Ozone Generation Technology, by Air and Gas Treatment Type, 2021
Figure 52 : Latin American and Caribbean Market Shares of Ozone Generation Technology, by Application, 2021
Figure 53 : Latin American and Caribbean Market Shares of Ozone Generation Technology, by Potable Water Type, 2021
Figure 54 : Latin American and Caribbean Market Shares of Ozone Generation Technology, by Wastewater Type, 2021
Figure 55 : Latin American and Caribbean Market Shares of Ozone Generation Technology, by Other Water Type, 2021
Figure 56 : Latin American and Caribbean Market Shares of Ozone Generation Technology, by Air and Gas Treatment Type, 2021
Figure 57 : African Market Shares of Ozone Generation Technology, by Application, 2021
Figure 58 : African Market Shares of Ozone Generation Technology, by Potable Water Type, 2021
Figure 59 : African Market Shares of Ozone Generation Technology, by Wastewater Type, 2021
Figure 60 : African Market Shares of Ozone Generation Technology, by Other Water Type, 2021
Figure 61 : African Market Shares of Ozone Generation Technology, by Air and Gas Treatment Type, 2021
Figure 62 : Australian and Oceania Market Shares of Ozone Generation Technology, by Application, 2021
Figure 63 : Australian and Oceania Market Shares of Ozone Generation Technology, by Potable Water Type, 2021
Figure 64 : Australian and Oceania Market Shares of Ozone Generation Technology, by Wastewater Type, 2021
Figure 65 : Australian and Oceania Market Shares of Ozone Generation Technology, by Other Water Type, 2021
Figure 66 : Australian and Oceania Market Shares of Ozone Generation Technology, by Air and Gas Treatment Type, 2021
Figure 67 : Ebara Corp.: Revenue Share, by Business Segment, 2021
Figure 68 : Ebara Corp.: Revenue Share, by Region, 2021
Figure 69 : Evoqua Water Technologies Corp.: Revenue Share, by Business Segment, 2022
Figure 70 : Evoqua Water Technologies Corp.: Revenue Share, by Region, 2022
Figure 71 : Industrie De Nora: Revenue Share, by Business Segment, 2021
Figure 72 : Industrie De Nora: Revenue Share, by Region, 2021
Figure 73 : Mitsubishi Electric Corporation: Revenue Share, by Business Segment, 2022
Figure 74 : Mitsubishi Electric Corporation: Revenue Share, by Region, 2022
Figure 75 : MKS Instruments Inc.: Revenue Share, by Business Segment, 2022
Figure 76 : MKS Instruments Inc.: Revenue Share, by Region, 2022
Figure 77 : Toshiba Corp.: Revenue Share, by Business Segment, 2022
Figure 78 : Toshiba Corp.: Revenue Share, by Region, 2022
Figure 79 : Xylem Inc.: Revenue Share, by Business Segment, 2022
Figure 80 : Xylem Inc.: Revenue Share, by Region, 2022