大気水生成装置（AWG）の世界市場規模、機会分析＆予測 2024-2031年

Market Introduction:

The Global Atmospheric Water Generator Market is experiencing robust expansion, valued at US$ 2.11 billion in 2022 and projected to grow at a CAGR of 15.60% from 2024 to 2031.

世界の大気水生成装置（AWG）市場は力強い拡大を経験しており、2022年には21億1,000万米ドルに達し、2024年から2031年まで15.60%のCAGRで成長すると予測されています。

Global Atmospheric Water Generators (AWGs) represent a groundbreaking solution in the quest for sustainable water sources by harnessing the moisture present in the air. These devices extract water from humidity through advanced technologies like condensation and dehumidification, making them a viable alternative in regions facing water scarcity or unreliable supply. As climate change, population growth, and environmental degradation exacerbate global water challenges, AWGs are emerging as a critical technology for addressing these issues.

The global market for Atmospheric Water Generators is witnessing significant growth due to increasing demand for clean, potable water in both urban and remote areas. AWGs offer distinct advantages over traditional water sourcing methods, including their ability to provide water in locations where conventional infrastructure is either insufficient or non-existent. This capability is particularly beneficial in disaster-stricken areas, arid regions, and communities with limited access to fresh water.
In addition to their use in residential and commercial settings, AWGs are being adopted in various industrial applications, ranging from agriculture to hospitality, where water purity and availability are crucial. The ongoing advancements in AWG technology are improving efficiency, reducing costs, and expanding their usability across different climates and conditions.
As global awareness of water sustainability grows, the role of Atmospheric Water Generators is becoming increasingly prominent. They are positioned to play a key role in the future of water management, offering a promising path toward achieving water security and resilience in the face of escalating environmental and demographic pressures.

Growth Influencers:
The escalating demand for Atmospheric Water Generators (AWGs) is a direct response to the intertwined challenges of dwindling water reserves and a rapidly growing global population. Water is a crucial resource for economic development and poverty alleviation, yet it is paradoxically strained by such development. The pressing issue is to balance water supply with demand. For instance, India’s rapid economic growth has led to increased use of mechanized wells and irrigation, putting immense pressure on water resources and resulting in water stress in regions like Rajasthan and Maharashtra. This problem is not isolated; globally, water resources are finite, and consumption continues to outpace replenishment, leading to overexploitation, as noted by UNESCO.
Compounding these challenges is the mismanagement of water resources, pollution from chemicals and pesticides, inadequate wastewater treatment, and excessive crop irrigation, which affects 90% of wastewater. The worsening water scarcity crisis has necessitated a shift toward innovative solutions like AWGs, which extract water from atmospheric humidity. AWGs offer a viable means to address water scarcity, providing clean, potable water directly from the air, especially in areas facing severe water shortages and growing populations.

The global water demand is set to increase significantly due to rising population needs, food production, and industrial expansion. By 2050, agriculture must produce 60% more food globally and 100% more in developing countries. The growing need for manufactured goods and electronics will further escalate water consumption. The combined impact of depleting water reserves and rising demand underscores the critical role of AWGs in ensuring a sustainable water supply.
Industrialization exacerbates water demand and environmental degradation, including deforestation, which disrupts the natural water cycle. Deforestation impairs forests’ ability to capture and release moisture, reducing the replenishment of freshwater reserves. This heightened strain on traditional water sources pushes industries and communities to seek sustainable alternatives. AWGs, which generate water from the air, provide a reliable solution independent of stressed conventional sources.
Climate change also exacerbates water scarcity through erratic weather patterns, prolonged droughts, and extreme weather events. These factors lead to unreliable traditional water sources, making AWGs an increasingly critical solution. Urbanization, too, has concentrated water demand in cities, straining existing infrastructure. AWGs offer a promising alternative, delivering water without relying on traditional systems and addressing the need for off-grid solutions.
Finally, heightened awareness about water quality and environmental impact has driven the demand for AWGs. Concerns over pollutants and contaminants in traditional water sources, along with the environmental toll of conventional water treatment systems, push individuals and communities towards more sustainable, eco-friendly options like AWGs. As the market for AWGs expands, it reflects a growing recognition of their potential to meet the global demand for clean, reliable water amidst ongoing environmental and infrastructural challenges.

Segment Overview:
The Global Atmospheric Water Generator market is categorized based on Technology, Power, Capacity, Installation, Application and Distribution Channel.
• By Technology
o Cooling Condensation
o Wet Desiccants
o Solid Desiccants

• By Power
o Solar
o Electric

• By Capacity
o Up to 80 litres
o 80-500 litres
o 500-1000 litres
o More than 1000 litres

• By Installation
o Indoor
o Outdoor

• By Application
o Residential
o Commercial
o Industrial
o Others

• By Distribution Channel
o Online
o Offline
 Direct
 Distributor
Cooling Condensation is the leading technology in the atmospheric water generators (AWGs) market, dominating due to its reliability and efficiency. Also known as refrigeration-based condensation, this method extracts moisture from the air by cooling it to form condensation, resulting in clean, potable water. Its prevalence can be attributed to its effectiveness across various environmental conditions and its ability to consistently provide a reliable water supply. This technology’s dominance is reinforced by its proven track record, making it a preferred choice for users seeking a dependable source of drinking water, especially in areas with water scarcity or contamination issues. The Cooling Condensation segment is expected to maintain the highest growth rate during the forecast period, reflecting ongoing confidence in its capability and performance.

In 2023, the Electric segment leads the atmospheric water generators (AWGs) market, owing to its widespread use and efficiency. Electric-powered AWGs operate using electricity to generate drinking water from air, favored for their reliable performance and ease of integration into various settings. Their consistent water output and independence from alternative power sources make them popular among households, businesses, and institutions. However, solar-powered AWGs are projected to experience the highest growth rate in the coming years. This surge is driven by increasing interest in sustainable, eco-friendly solutions. Solar-powered systems utilize solar energy to produce water, aligning with the global shift towards renewable energy sources and environmental sustainability, highlighting their growing appeal and potential.

In 2023, AWGs with a capacity of more than 1000 liters per day dominate the market. These high-capacity units are designed for industrial, commercial, and community applications, meeting substantial water demands. Their ability to produce large volumes of clean water makes them ideal for serving large-scale needs, such as in businesses, communities, and industrial facilities. The significant share held by this segment underscores the need for dependable and substantial water sources in various sectors. This trend is expected to continue, with high-capacity AWGs projected to exhibit the highest growth rate in the forecast period, driven by increasing demands for sustainable and reliable water solutions in areas with water scarcity or quality issues.

The Outdoor segment holds the leading position in the AWG market for 2023. This segment includes units installed in exterior settings like gardens, courtyards, and open spaces, benefiting from exposure to atmospheric conditions. The preference for outdoor installations reflects their effectiveness in regions with limited water sources, addressing water scarcity issues in arid or remote areas. By placing AWGs outdoors, users can access a self-sustaining source of potable water, reducing reliance on centralized water infrastructure and supporting sustainability. Additionally, the Outdoor segment is projected to show the highest growth rate during the forecast period, driven by increasing interest in outdoor solutions for water generation and the need for resilient water sources in various environments.
The Industrial segment leads the AWG market in 2023, reflecting its critical role in providing clean water for various industrial operations. AWGs are employed across diverse sectors, including manufacturing, agriculture, mining, and energy production, to ensure a consistent supply of water essential for processes, machinery, and workforce needs. This segment’s dominance highlights the significant advantages AWGs offer, such as enhancing water availability, reducing operational costs, and supporting sustainability goals. The Industrial segment is anticipated to experience the fastest growth in the coming years, driven by industries’ growing recognition of AWG technology’s benefits and its ability to meet evolving water requirements across different industrial applications.

In 2023, the Offline segment holds the leading position in the AWG market, encompassing physical stores, dealerships, and authorized retailers where customers can view products in person. This traditional method of distribution has historically dominated due to its direct customer interaction and tangible purchasing experience. However, the Online segment is expected to see robust growth in the forecast period, driven by increasing consumer preference for digital shopping. Online platforms, including e-commerce websites and marketplaces, offer convenient purchasing options and a broader reach. The shift towards online distribution underscores the need for AWG manufacturers and distributors to adapt to evolving consumer trends and capitalize on the expanding opportunities in digital sales channels.

Regional Overview:
Based on Region, the market is divided into North America, Europe, Asia Pacific, Middle East & Africa, and South America.
• North America
o The U.S.
o Canada
o Mexico
• Europe
o Western Europe
 The UK
 Germany
 France
 Italy
 Spain
 Rest of Western Europe
o Eastern Europe
 Poland
 Russia
 Rest of Eastern Europe
• Asia Pacific
o China
o India
o Japan
o Australia & New Zealand
o South Korea
o ASEAN
o Rest of Asia Pacific
• Middle East & Africa (MEA)
o Saudi Arabia
o South Africa
o UAE
o Rest of MEA
• South America
o Argentina
o Brazil
o Rest of South America

The Asia Pacific region has emerged as the leading player in the Atmospheric Water Generator (AWG) market, holding the highest market share in 2023. This region is also anticipated to experience the highest growth rate, with a projected to grow with the fastest CAGR during the forecast period. This robust growth is primarily driven by rapid industrialization across Asia Pacific countries. As these nations undergo extensive industrial development, the demand for reliable and sustainable sources of clean drinking water has intensified. The expanding industrial base, combined with escalating concerns over water scarcity and quality, is fueling the increasing adoption of AWGs.
Atmospheric Water Generators are becoming crucial in addressing these water-related challenges by providing an eco-friendly and energy-efficient method for producing potable water directly from the air. This technology offers a viable alternative to traditional water sources, aligning with the region’s growing need for sustainable water solutions. As industrial activities in Asia Pacific continue to expand, the demand for AWGs is expected to rise, reinforcing the region’s leading position and establishing it as a major driver of growth in the global AWG market.

Competitive Landscape:
The Global Atmospheric Water Generator market is characterized by a vigorous competitive landscape, with prominent entities like Water Technologies International Inc, Planets Water, Ray Agua, Water-Gen Ltd., Dew Point Manufacturing, Air2Water LLC, HENDRX and Others at the forefront, collectively accounting for approximately 35-40% of the overall market share. This competitive milieu is fueled by their intensive efforts in research and development as well as strategic partnerships and collaborations, underscoring their commitment to solidifying market presence and diversifying their offerings. The primary competitive factors include pricing, product caliber, and technological innovation. As the Global Atmospheric Water Generator industry continues to expand, the competitive fervor among these key players is anticipated to intensify. The impetus for ongoing innovation and alignment with evolving customer preferences and stringent regulations is high. The industry’s fluidity anticipates an uptick in novel innovations and strategic growth tactics from these leading corporations, which in turn propels the sector’s comprehensive growth and transformation.

Report Insights:

•  The global Atmospheric Water Generator market is projected to grow from US$ 2.11 billion in 2024 to US$ 6.31 billion by 2031, at a CAGR of 15.60%.
•  Cooling Condensation remains the dominant technology in the AWG market due to its reliability and efficiency in producing clean water from air moisture.
•  The Asia Pacific region holds the largest market share for AWGs and is set to experience the fastest growth, fueled by rapid industrialization and water scarcity concerns.
•  Key players such as Water Technologies International Inc and Planets Water are at the forefront of the AWG market, accounting for 35-40% of the market share through innovation and strategic partnerships.

Questions to be Answered:

•  What is the estimated growth rate of the Global Atmospheric Water Generator market?
•  What are the key drivers and potential restraints?
•  Which market segments are expected to witness significant growth?
•  Who are the leading players in the market?

Executive Summary:
The Global Atmospheric Water Generator (AWG) market is poised for substantial growth, expanding from US$ 2.11 billion in 2022 to an estimated US$ 6.31 billion by 2031, driven by a robust CAGR of 15.60%. AWGs, which extract water from atmospheric humidity through technologies like Cooling Condensation, Wet Desiccants, and Solid Desiccants, offer a sustainable solution to increasing water scarcity exacerbated by climate change and population growth. Cooling Condensation leads in technology preference due to its reliability, while Electric-powered units dominate, though Solar-powered systems are expected to grow rapidly. High-capacity units (>1000 liters/day) are prevalent, addressing significant water needs in industrial and commercial settings. The Outdoor installation segment is leading, reflecting the demand for off-grid water solutions. The Asia Pacific region is the largest market and is anticipated to grow the fastest, driven by industrialization and water scarcity concerns. Key players, including Water Technologies International Inc and Planets Water, hold 35-40% of the market share, with a competitive landscape marked by technological innovation and strategic partnerships.

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 Atmospheric Water Generator Market

Chapter 4.            Global Atmospheric Water Generator Market Overview

4.1.        Industry Value Chain Analysis

4.1.1.     Material Provider

4.1.2.     Manufacturer

4.1.3.     Distributor

4.1.4.     End User

4.2.        Industry Outlook

4.2.1.     Benefits of Atmospheric Water Generators

4.2.2.     The Importance of Atmospheric Water Technology in Water Scarcity

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.     Price Trend Analysis

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 Atmospheric Water Generator Market Analysis, By Technology

5.1.        Key Insights

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

5.2.1.     Cooling Condensation

5.2.2.     Wet Desiccants

5.2.3.     Solid Desiccants

Chapter 6.            Global Atmospheric Water Generator Market Analysis, By Power

6.1.        Key Insights

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

6.2.1.     Solar

6.2.2.     Electric

Chapter 7.            Global Atmospheric Water Generator Market Analysis, By Capacity

7.1.        Key Insights

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

7.2.1.     Up to 80 litres

7.2.2.     80-500 litres

7.2.3.     500-1000 litres

7.2.4.     More than 1000 litres

Chapter 8.            Global Atmospheric Water Generator Market Analysis, By Installation

8.1.        Key Insights

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

8.2.1.     Indoor

8.2.2.     Outdoor

Chapter 9.            Global Atmospheric Water Generator Market Analysis, By Application

9.1.        Key Insights

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

9.2.1.     Residential

9.2.2.     Commercial

9.2.3.     Industrial

9.2.4.     Others

Chapter 10.          Global Atmospheric Water Generator Market Analysis, By Distribution Channel

10.1.      Key Insights

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

10.2.1.   Online

10.2.2.   Offline

10.2.2.1. Direct

10.2.2.2. Distributor

Chapter 11.          Global Atmospheric Water Generator Market Analysis, By Region

11.1.      Key Insights

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

11.2.1.   North America

11.2.1.1. The U.S.

11.2.1.2. Canada

11.2.1.3. Mexico

11.2.2.   Europe

11.2.2.1. Western Europe

11.2.2.1.1.           The UK

11.2.2.1.2.           Germany

11.2.2.1.3.           France

11.2.2.1.4.           Italy

11.2.2.1.5.           Spain

11.2.2.1.6.           Rest of Western Europe

11.2.2.2. Eastern Europe

11.2.2.2.1.           Poland

11.2.2.2.2.           Russia

11.2.2.2.3.           Rest of Eastern Europe

11.2.3.   Asia Pacific

11.2.3.1. China

11.2.3.2. India

11.2.3.3. Japan

11.2.3.4. South Korea

11.2.3.5. Australia & New Zealand

11.2.3.6. ASEAN

11.2.3.7. Rest of Asia Pacific

11.2.4.   Middle East & Africa

11.2.4.1. UAE

11.2.4.2. Saudi Arabia

11.2.4.3. South Africa

11.2.4.4. Rest of MEA

11.2.5.   South America

11.2.5.1. Argentina

11.2.5.2. Brazil

11.2.5.3. Rest of South America

Chapter 12.          North America Atmospheric Water Generator Market Analysis

12.1.      Key Insights

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

12.2.1.   By Technology

12.2.2.   By Power

12.2.3.   By Capacity

12.2.4.   By Installation

12.2.5.   By Application

12.2.6.   By Distribution Channel

12.2.7.   By Country

Chapter 13.          Europe Atmospheric Water Generator Market Analysis

13.1.      Key Insights

13.2.      Market Size and Forecast, 2018-2031 (US$ Mn)

13.2.1.   By Technology

13.2.2.   By Power

13.2.3.   By Capacity

13.2.4.   By Installation

13.2.5.   By Application

13.2.6.   By Distribution Channel

13.2.7.   By Country

Chapter 14.          Asia Pacific Atmospheric Water Generator Market Analysis

14.1.      Key Insights

14.2.      Market Size and Forecast, 2018-2031 (US$ Mn)

14.2.1.   By Technology

14.2.2.   By Power

14.2.3.   By Capacity

14.2.4.   By Installation

14.2.5.   By Application

14.2.6.   By Distribution Channel

14.2.7.   By Country

Chapter 15.          Middle East and Africa Atmospheric Water Generator Market Analysis

15.1.      Key Insights

15.2.      Market Size and Forecast, 2018-2031 (US$ Mn)

15.2.1.   By Technology

15.2.2.   By Power

15.2.3.   By Capacity

15.2.4.   By Installation

15.2.5.   By Application

15.2.6.   By Distribution Channel

15.2.7.   By Country

Chapter 16.          South America Atmospheric Water Generator Market Analysis

16.1.      Key Insights

16.2.      Market Size and Forecast, 2018-2031 (US$ Mn)

16.2.1.   By Technology

16.2.2.   By Power

16.2.3.   By Capacity

16.2.4.   By Installation

16.2.5.   By Application

16.2.6.   By Distribution Channel

16.2.7.   By Country

Chapter 17.          Company Profile (Company Overview, Financial Matrix, Key Product landscape, Key Personnel, Key Competitors, Contact Address, and Business Strategy Outlook)

17.1.      Air 2 Water Solutions

17.2.      AirOWater

17.3.      Akvo Atmospheric Water Systems Pvt. Ltd.

17.4.      Atlantis Solar

17.5.      Clean Wave Products

17.6.      Dew Point Manufacturing

17.7.      Drinkable Air Technologies

17.8.      Genaq Technologies SL

17.9.      Island Sky Corporation

17.10.    Planets Water

17.11.    Ray Agua

17.12.    Water Technologies International Inc.

17.13.    Watergen Ltd.

17.14.    Zhongling Xinquan(Fujian) Air Drinking Water Technology Co., Ltd (HENDRX)

17.15.    Other Prominent Players

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