WIO News

Turning Air Into Water: Akvo’s Sustainable Answer to the Global Water Crisis

Access to clean drinking water remains a critical global issue — over 2.2 billion people lack it, according to the World Health Organization. As the world marked World Water Day on March 22, innovators like Navkaran Singh Bagga, founder and CEO of Akvo, are offering bold new solutions. His company is tackling the water crisis by literally turning air into safe, potable water.

Through Atmospheric Water Generation (AWG) technology, Akvo’s machines extract humidity from the air, condense it into water, and purify it to drinking standards. “AWG is cutting-edge technology that captures water from the air we breathe,” says Bagga. “Once the moisture is condensed, it’s filtered and sterilised, ensuring the water is clean, safe, and chemical-free.”

He likens the process to the condensation seen on a cold glass on a humid day — only industrialized and highly controlled. The water passes through carbon and sediment filters, UV treatment, and sometimes reverse osmosis to meet stringent quality standards.

Akvo’s innovation not only reduces dependence on groundwater and plastic-packaged water but also offers a sustainable, decentralized water solution for homes, businesses, and regions facing severe water scarcity.

As the climate crisis worsens, such renewable technologies are not just impressive –  they’re essential.

For the full article please visit here.

Telegraph India

How Akvo is Making Water Sustainable and Accessible

In an era where water scarcity is rapidly becoming one of the world’s most pressing environmental concerns, Kolkata-based Akvo Atmospheric Water Systems is offering a transformative solution. At the forefront of this innovation is Akvo’s new initiative — Water-on-Want (WoW) — which is reshaping the way businesses think about water access, sustainability, and cost-efficiency.

Rethinking the Water Supply Chain

Akvo’s WoW model is built on a simple yet powerful idea: access to clean drinking water shouldn’t require heavy capital investment. Traditionally, businesses have relied on expensive infrastructure or unsustainable bottled water solutions. Akvo’s solution changes that by turning water into a service — not a product.

“WoW was born from a simple question: Why must access to clean water be capital-intensive? Water becomes a service, not a product — transforming it from a logistical headache into a strategic sustainability win,” said Navkaran Singh Bagga, Founder and CEO of Akvo Atmospheric Water Systems.

Under an OPEX-based Build, Own, Operate, Transfer (BOOT) model, Akvo installs its atmospheric water generators (AWGs) on-site at client locations. The company maintains ownership and operation of the units, while clients are billed only for the volume of water they consume. This approach eliminates upfront costs, simplifies maintenance, and provides predictable, consumption-based pricing.

Adaptable Technology for a Diverse Climate

Currently deployed in water-stressed regions across Tamil Nadu, Karnataka, Maharashtra, and Gujarat, Akvo’s AWG units are engineered to function efficiently across a wide range of climatic conditions — from Chennai’s coastal humidity to Pune’s drier air.

“Our machines condense moisture from the air, filter and mineralise it, and deliver safe drinking water on demand. Thanks to IoT-enabled performance tracking, we ensure consistent output regardless of external climate conditions,” explained Navkaran Singh Bagga.

This adaptability allows Akvo to serve areas where municipal supply is unreliable and groundwater is rapidly depleting.

The Numbers Behind Sustainability

The environmental impact of Akvo’s model is significant. During an 18-month pilot, clients reported up to a 95% reduction in plastic water jar usage, which translates to eliminating over 200,000 litres of transported water per month. A Bengaluru IT park cut carbon emissions by 4.5 tonnes annually, while a Mumbai hotel reduced water procurement costs by 22% and earned green building credits.

“Each 500-litre-per-day unit can save nearly 365,000 plastic bottles annually. That’s the kind of impact that scales when businesses adopt water as a sustainable service rather than a commodity,” said Navkaran Singh Bagga.

A Win-Win for Business and the Planet

Akvo’s AWG units are compact — requiring just one square metre of space — and operate at just 0.26 kWh per litre under optimal conditions. With pricing as low as ₹1.25 per litre, the systems are already serving sectors like IT parks, hotels, and manufacturing hubs.

“By producing water locally, we eliminate transportation emissions, avoid municipal tariffs, and help businesses meet ESG targets without increasing costs,” added Navkaran Singh Bagga.

Akvo has now expanded into 15 countries, including Qatar and Dubai, generating over 100 million litres of clean water globally. The company is now focusing on fully solar-powered AWGs and mobile container units to serve remote locations and disaster zones.

Bridging Innovation and Accessibility

Despite the advanced technology, Akvo’s mission is rooted in making sustainability accessible. “WoW isn’t just an ESG move — it’s a practical hedge against water volatility. Sustainability is no longer a choice — it’s a license to operate. If you can save money, reduce plastic waste, and secure your water supply—all without capex — why wouldn’t you?” said Navkaran Singh Bagga.

For Akvo, the goal goes beyond business. It’s about changing how we think about water — not just as a resource, but as a sustainable service.

“We don’t want sustainability to be a buzzword or a checkbox. It should be as simple as turning on a tap — and knowing you’re doing right by the planet,” concluded Navkaran Singh Bagga.

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Times Tech

On National Technology Day 2025, Akvo CEO Navkaran Singh Bagga Champions Water Innovation

In a special feature by TimesTech, Navkaran Singh Bagga, CEO and founder of Akvo Atmospheric Water Systems, showcased how the company’s pioneering air-to-water technology is transforming global access to clean water. On the occasion of National Technology Day 2025, Bagga outlined Akvo’s mission to deliver decentralized, climate-resilient water solutions through innovations like modular Water Block units, IoT integration, and AI-powered efficiency.

“Our vision is simple yet ambitious,” Navkaran Singh Bagga said. “We want every community—from remote villages to megacities—to access clean drinking water directly from air, without depending on overburdened natural sources.”

With more than 100 million litres of water generated to date, Akvo’s smart systems are addressing critical water challenges across geographies—from coastal cities to arid interiors—while eliminating reliance on plastic bottles and tanker transport.

Reflecting on his own entrepreneurial journey from steel manufacturing to clean-tech, Bagga shared a message for young innovators:

“Dream big, but stay rooted in local realities. The best innovations come from deep empathy for the communities you serve. Focus on creating scalable, sustainable solutions, and don’t be afraid to challenge conventional thinking. Building technology is only half the journey—delivering impact is where true innovation shines. And remember, resilience matters as much as brilliance.”

Looking ahead, Bagga emphasized the role of AI and IoT in making Akvo’s systems more predictive, autonomous, and accessible to underserved populations — further advancing the company’s mission of sustainable, democratized water access.

To read the full article, please visit here.

The Print

Futuristic Water Tech: From Rain Energy to Atmospheric Water

As India faces intensifying water scarcity due to climate change, researchers and innovators are exploring futuristic solutions beyond traditional groundwater and surface water sources.

On World Water Day, experts spotlight breakthroughs like atmospheric water generation (AWG) and rain energy harvesting. One of the notable efforts comes from Akvo Atmospheric Water Systems Pvt. Ltd., led by CEO Navkaran Singh Bagga. The company recently launched its Water-on-Want (WoW) initiative for corporates in Tamil Nadu, Karnataka, Maharashtra, and Gujarat. The program operates on a zero-CAPEX, OPEX-based BOOT model, providing clean drinking water via AWGs with a minimum daily offtake of 500 litres.

“WoW removes financial barriers to sustainable water. We install, own, and operate the systems—clients only pay per litre used,” said Mr. Bagga.

Meanwhile, researchers like Dr. Visakh Vaikuntanathan at Shiv Nadar University are studying ways to harness rain energy, developing dual-use solar-rain cells that generate power from both sunlight and rainfall.

With climate change threatening Himalayan glaciers that feed India’s rivers, experts like Dr. Dipankar Saha warn that urgent tech-driven interventions are critical. Companies like Suhora are using satellite intelligence to monitor glacial changes and prevent disasters.

A 2018 NITI Aayog report projected that by 2030, India’s water demand may double its supply—making such innovations more vital than ever.

Dev Discourse

Harnessing Rain Energy and Atmosphere: The Future of Water Sustainability

As climate change threatens freshwater availability, experts are advancing innovative solutions like rain energy harvesting and atmospheric water generation.

Dr. Visakh Vaikuntanathan of Shiv Nadar University is developing ‘all-weather’ cells that harness energy from raindrops and sunlight, integrating seamlessly with rooftops and drainage systems.

Simultaneously, Navkaran Singh Bagga, CEO of Akvo Atmospheric Water Systems, leads the way in generating clean drinking water from air humidity. With operations in 15 countries, Akvo’s Water-on-Want (WoW) initiative, now live in multiple Indian states, offers sustainable, no-CAPEX water access through a BOOT model.

As Himalayan glaciers shrink, technology is also vital in monitoring melt patterns to manage future water flow. On World Water Day, these pioneering efforts shine as hope for water resilience in India.

India Today

Akvo, an Indian company, has developed innovative Atmospheric Water Generators (AWGs) that extract potable water from the humidity in the air. These machines simulate natural condensation to generate clean drinking water, providing an eco-friendly and sustainable alternative to groundwater extraction and desalination.

The AWG process involves pulling air through a three-layer filtration system to remove dust, cooling the air to condense moisture, and storing the collected water in a tank. The water undergoes multiple filtration stages before it is ready for consumption.

Ideal for warm, humid environments, the technology works best in coastal regions with temperatures between 21°C to 32°C and humidity over 40%. Akvo’s AWGs also function in moderate humidity, making them adaptable to various climates.

AWGs tap into the abundant resource of atmospheric water vapor, making them a renewable, low-impact solution for communities suffering from water scarcity, pollution, and inadequate infrastructure. The technology offers a sustainable future for water security, particularly as climate change exacerbates global water crises.

For more information, read the original blogpost here.

DT Next

As India battles rising water scarcity worsened by climate change and extreme weather, researchers and innovators are pushing beyond conventional methods to secure sustainable water sources.

On World Water Day, attention turns to ideas like rain energy harvesting, atmospheric water generation (AWG), and glacier monitoring.

Dr. Visakh Vaikuntanathan of Shiv Nadar University is working on converting the kinetic energy of rain—typically lost as sound—into usable energy through “all-weather” cells that act as both solar and rain-powered generators. His team uses IMD data to estimate rainfall energy and aims to create a rain energy map for India.

Meanwhile, atmospheric water is emerging as a dependable source. A study in Nature outlined a sorption-based atmospheric harvesting system that could revolutionize agriculture.

Navkaran Singh Bagga, CEO of Akvo Atmospheric Water Systems, highlights the company’s use of AWG technology in 15 countries. Akvo’s newly launched Water-on-Want (WoW) initiative in four Indian states (TN, KA, MH, GJ) offers water generation on an OPEX-based BOOT model, eliminating upfront CAPEX and ensuring a minimum of 500 LPD for corporates.

“The WoW model removes financial risk and promotes sustainable access to water,” said Mr. Bagga.

Technologies are also crucial for glacier monitoring, with experts like Dr. Dipankar Saha warning of the cascading effects of glacial melt on India’s rivers and groundwater. Companies like Suhora are applying satellite data and predictive analytics to monitor glacial changes and prepare communities.

India’s looming water crisis—projected to worsen by 2030 with demand outpacing supply—calls for urgent adoption of such innovative solutions.

To read the full article visit: DT Next

MSN

Futuristic Water Solutions Tackle India’s Growing Crisis

As climate change intensifies water scarcity, researchers and tech innovators in India are turning to forward-looking solutions like atmospheric water generation, rain energy harvesting, and glacier monitoring.

Marking UN World Water Day, experts highlight how India—home to 18% of the world’s population but just 4% of its water—must adopt disruptive approaches. Innovations include satellite-based glacier analysis by Suhora, early warning systems for disaster mitigation, and predictive tools to manage shrinking Himalayan resources.

The 2018 NITI Aayog report warned that India could face a 6% GDP loss by 2030 due to water shortages. As pressures mount, these technologies represent a critical shift toward sustainable and secure water futures.

To read the full article visit here.

Techgraph

This is a major problem worldwide; it affects billions of people in homes, villages, and towns. Population increases, climate change and limited water resources make the situation worse and thus require innovative approaches.

In the current world, technology is still rising as the key driver and is changing the way that water is harvested, treated, and transported to communities across the world.

This has been one of the most important developments in the last few years with the development of atmospheric water generation technology. These systems pull the moisture from the air and produce clean drinking water that can be taken to areas with limited infrastructure. Air water generators can work in almost all kinds of climate conditions and provide water solutions to people in arid areas and areas that have been affected by disasters. This technology is further improved by the developments in the design of solar-powered and energy-saving systems, which make this technology a better option than conventional water sources.

In addition to management, new technologies are available that are creating a change in the way that water is gathered and stored by the communities. The application of IoT sensors, data analysis, and cloud computing enable the real-time monitoring of water quality, distribution systems, and consumption trends. Local authorities and utilities can save time and cost on repairs and prevent losses and pollution by identifying leaks, tolerances, or overuse of water. This degree of data granularity also assists policymakers in making better decisions on water control and management and the utilization of resources.

Other filtration and purification technologies also enhance the community’s water resilience. Graphene-based filters and other new-age materials can filter out pollutants and microbes and provide safe drinking water even in highly industrialized waters. Along with these technologies, portable purification devices also help people during personal requirements and during calamities, thus protecting the health of people in vulnerable populations.

This is because water tech solutions are not applied in isolation. New technologies cannot work effectively on their own; they need to be integrated into wider strategies that include education, infrastructure development, and community participation for the sustainability of the interventions. One of the other ways is training the local people on how to use and maintain the new technology so that they own it. Private public partnerships and social enterprises also have a significant role to play. These partnerships help economically disadvantaged communities access clean water by investing in reusable and scalable systems, subsidizing distribution costs, and providing microfinance solutions.

In conclusion, the integration of innovation, policy, and the power of community is the way forward to closing the water divide. From atmospheric water generation to the latest filtration systems and IoT-based monitoring, each new technology is helping to create stronger, more independent communities. If all the stakeholders and donors remain committed to their efforts, we may one day be able to provide safe water to people no matter where they are in the world.

With the help of technology and people’s cooperation, water can be transformed to be the source of improvement, health, and the future we desire for everyone, anywhere.

Written by
Navkaran Singh Bagga,
CEO & Founder, AKVO

The CSR Journal

Smart Water for Smart Cities: Building the Water Systems of Tomorrow

By Navkaran Singh Bagga, Founder & CEO, AKVO

Water is a fundamental resource shaping economies, societies, and environments. With rapid urbanization and climate change affecting water availability, cities must adopt Smart Water Management to ensure a sustainable and efficient future.

The Need for Smart Water
Traditional water infrastructure struggles to meet modern urban demands. Smart Water integrates IoT, AI, and predictive analytics to optimize distribution, detect leaks, and improve quality.

Technology & Innovation in Water Management
Smart meters track real-time consumption, AI detects inefficiencies, and Atmospheric Water Generators (AWG) extract water from air, reducing dependence on traditional sources. Water quality sensors further ensure safe drinking water supply.

Policy & Public-Private Collaboration
Governments must implement regulatory frameworks that encourage water conservation and technological innovation. Public-private partnerships are key to developing sustainable water systems.

CSR & Sustainable Urbanism
Corporate Social Responsibility (CSR) is no longer just an obligation—it is a commitment to long-term water sustainability. Businesses can contribute by adopting smart water strategies, implementing rainwater harvesting, and promoting circular water economies.

The Future of Water in Smart Cities
The transition to smart water solutions is not just an engineering challenge but a moral and environmental imperative. By embracing innovation, collaboration, and sustainability, we can create resilient urban water systems for present and future generations.

Read the full article here