Fuente: StartUs Insights
Are you curious about which water management trends & startups will soon impact your business? Explore our in-depth industry research on 3 700+ water management startups & scaleups and get data-driven insights into technology-based solutions in our Water Management Innovation Map!
In recent years, owing to climate change and the growing population, responsible water management has become a top priority worldwide. Technological transformations are digitalizing conventional processes in water utilities, thereby bringing data-driven intelligence for better-informed policies. To tackle water scarcity, water management startups are advancing technology trends for desalination, wastewater processing, and water-saving technologies. Furthermore, advanced filtration and innovative materials turn existing methods for water recovery and reuse into sustainable and cost-effective solutions. Decentralized water infrastructure is improving access to drinking water in remote areas. Finally, novel technologies go beyond mere water conservation. For example, water management solutions combine flood prevention with water safety and reuse.
Innovation Map outlines the Top 8 Water Management Trends & 16 Promising Startups
For this in-depth research on the Top Water Management Trends & Startups, we analyzed a sample of 3 771 global startups and scaleups. The result of this research is data-driven innovation intelligence that improves strategic decision-making by giving you an overview of emerging technologies & startups in the water management industry. These insights are derived by working with our Big Data & Artificial Intelligence-powered StartUs Insights Discovery Platform, covering 2 500 000+ startups & scaleups globally. As the world’s largest resource for data on emerging companies, the SaaS platform enables you to identify relevant startups, emerging technologies & future industry trends quickly & exhaustively.
In the Innovation Map below, you get an overview of the Top 8 Water Management Trends & Innovations that impact water management companies worldwide. Moreover, the Water Management Innovation Map reveals 16 hand-picked startups, all working on emerging technologies that advance their field.
Top 8 Water Management Trends
- Digital Water Management
- Wastewater Processing
- Advanced Filtration
- Flood Prevention
- Water-saving Technology
- Decentralized Infrastructure
- Innovative Materials
1. Digital Water Management
Increasing global water demand and the need to maintain aging infrastructure necessitate the growth in digital water management. Technologies such as AI, IoT sensors, and advanced meters enable water quality and quantity control as well as remote asset management and responsible water use. Also, geographical information systems (GIS), digital twins, and augmented and virtual reality (AR/VR) technologies visualize and model situational scenarios to identify anomalies and prevent potential damage. 5G, blockchain and cloud technologies ensure speed and data security for water management solutions. This way, digital technologies improve the decision-making and efficiency of water utilities.
PipePredict delivers Digital Leakage Detection
PipePredict is a German startup that delivers digital leakage detection using AI, sensors, and digital twins. The startup employs existing sensors and signal transmissions to monitor the current status of different pipe materials. This reduces investment costs and leads to faster deployments. Additionally, a digital twin virtualizes the piping networks to execute condition assessments and optimizes the asset performance. Further, machine learning analyzes the collected data to predict potential bursts in the system. This way PipePredict saves valuable water and prevents repair losses, improving resource efficiency in water networks.
SPHERAG provides Agricultural Water Management
Spanish startup SPHERAG develops an intelligent agricultural water management solution that combines IoT and cloud services. Its ATLAS devices provide wireless connectivity based on 5G, LTE, and GPRS that allows real-time monitoring. The built-in solar panel also enhances battery durability. This approach helps farmers to install sensors regardless of geographical location and type of communication network. Besides that, the startup’s cloud platform manages information from satellites and weather stations in real-time. By doing this, SPHERAG adapts farms to the current needs of crops, downsizing energy and hydraulic consumption.
2. Wastewater Processing
Large amounts of wastewater are discharged without prior adequate treatment. Lack of control over water wastage in industrial and residential activities causes pollution of freshwater reserves. Emerging innovations in wastewater processing are trying to effectively recover spent water in different industries. Technologies such as advanced oxidation processes, adsorption/biosorption, and biological and anaerobic remedies demonstrate promising results. In combination with solar irradiation, they effectively absorb pollutants from wastewater and reduce the amount of produced sludge via microbial decomposition. This way, wastewater processing solutions mitigate contaminants to meet water demands.
Oxyle makes a Nanocatalyst Treatment Reactor
Swiss startup Oxyle builds a nanocatalyst reactor that eliminates toxic micropollutants from wastewater. The startup’s patented technology utilizes a sustainable cleaning material that accurately targets contaminants until full degradation. The nanocatalyst absorbs energy from surrounding water bubbles and vibrations to activate the chemical process for disinfection. This way, the technology avoids multiple filtration steps, leading to a more cost-effective approach with lower energy use.
Algaesys enables Algae-based Wastewater Treatment
Italian startup Algaesys enables algae-based wastewater treatment. Its patented technology uses naturally occurring algae and other phototrophic organisms that derive solar energy through photosynthesis. The Algaesys system removes nitrogen, microplastics, and heavy metals in a safe and carbon-negative way. Moreover, the biomass product from algae substitutes for chemical-sources fertilizers. As a result, Algaesys reuses cleaned wastewater for irrigation and sustains horticulture, aquaculture, as well as industrial activities.
3. Advanced Filtration
Due to the pressing water scarcity problem, startups are paying more attention to fresh and creative methods of water filtration. Nanotechnology advances are enabling the development of filtration membranes that remove hard-to-capture micropollutants. Since nanocomposite membranes have improved chemical properties, they provide higher flux, permeability, and selectivity than conventional solutions. Another important technology is biological filtration which uses bacteria to purify water while converting energy from oxidation into electricity. Together with natural and self-cleaning filters, new advancements contribute to energy-saving and cost-effective water filtration.
Warranium manufactures a Membrane Bioreactor
Indian startup Warranium manufactures WarraniumMBR, a membrane bioreactor for efficient ultra- and microfiltration. WarraniumMBR also acts as a disinfector for bacteria, coliform, cryptosporidium, and viruses. By additionally applying reverse osmosis, it makes water quality suitable not for both irrigation and drinking. This way, the startup achieves better effluent quality, reduces footprint requirements, and automates processes in water utilities.
Nanoseen creates Filtration Nanomembranes
Polish startup Nanoseen creates filtration nanomembranes that function without energy or pressure supply. To achieve that, the startup’s NanoseenX technology captures impurities in pores that are placed in cascading order inside of a cylindrical device. The process includes more than 20 types of nanomembranes of various pore sizes that remove pollutants ranging from large physical pollutants to small salt ions. This way, Nanoseen turns any polluted water into drinking one in 2-5 minutes using only gravity as the source power.
4. Flood Prevention
Global warming increases the likelihood of extreme droughts and floods. Recent advances involve not only improved device designs but also include solutions that facilitate monitoring, forecasting, and catastrophe modeling. Enhanced water gates, property protectors, dams, and flood blocks guarantee rapid response to the disaster. Further, drone and satellite-based systems capture vital data through clouds and other obstacles. In combination with LiDAR mapping and weather radars startups measure wind directions to predict rainfalls. Apart from these, advanced catastrophe modeling provides potential financial consequences for a more holistic picture. Overall, these technologies rethink traditional flood measures to deliver better risk management.
vorteX.io offers a Flood Monitoring System
French startup vorteX.io offers a flood monitoring system based on an in situ sensor network and a digital hydrology platform. It remotely measures water depth and velocity using drones and LED LiDAR sensors. These micro-stations are autonomous, energy self-sufficient, compact, and easy to install. Additionally, they are embedded with 3G/4G and IoT for fast connectivity. Further, with the MAELSTROM platform, customers receive real-time hydrological data and notifications in case of emergency. This way, vorteX.io provides a tech-driven solution to secure people from potential disasters.
Tollson develops Mobile Stormwater Remediation System
Danish startup Tollson develops a mobile stormwater remediation system to prevent future flood damage. The CylinderPress technology offers energy-efficient dewatering by optimizing the use of waste streams from industrial activities. It filters liquid-solid waste from various sources of dangerous micropollutants. Further, CylinderPress analyses the quality of effluent to repurpose the water for other needs. As a compact onsite solution for sludge and sediment treatment, it facilitates rapid, continuous, and large-scale stormwater management.
5. Water-saving Technology
Facing growing challenges with freshwater availability, there is a growing global demand for water-saving technologies. This trend is impacted by water reuse, recycling, intelligent irrigation, and home conservation. To achieve circularity, startups design water-saving toilets, taps, and shower heads. They control water flow, limit the quantity of water used, and redirect it for other purposes. Besides, new recycling technologies extract valuable resources and nutrients for practical repurposing. Efficient irrigation techniques are another important direction that advances precision farming by measuring and minimizing overwatering. This way, startups are using a range of approaches to save water in different settings.
LeapFrog offers Modular Water Reuse Systems
US-based startup LeapFrog offers modular water reuse systems for homes and gardens. Its technology is based on purifying properties of volcanic soils powered by real-time monitoring. Existing off-site centralized solutions for wastewater treatment require massive investments. On the contrary, the startup’s onsite reuse of non-potable greywater from laundry and garden irrigation drastically reduces the household’s expenses. The decentralized recycling of greywater decreases the costs of installing new water infrastructure and contributes to drought resilience.
Samhitha offers a Precision Farming Platform
Indian startup Samhitha builds a precision farming platform for responsible water irrigation conservation. The platform utilizes wireless devices including drones and weather sensors to monitor irrigation water quality and soil moisture. It analyses collected samples to intelligently schedule crop irrigation. This way, Samhitha conserves moisture in soils and prevents water wastage, which is essential for regions with rain and groundwater scarcity.
6. Decentralized Infrastructure
The interest in decentralized water infrastructure is growing as a measure that improves the resilience of communities. Modular and mobile electrocoagulation treatment makes users independent of centralized systems that are unavailable in remote regions. Further, personalized water systems include off-grid supply, facilitated by real-time digital technologies and tracking apps. Meanwhile, in-home water solutions offer alternative hydration methods by converting air into water. In this way, the distributed practice reduces rising costs and risks associated with old infrastructure, which ultimately improves general resilience.
Remote Waters enables Off-grid Water Supply
Remote Waters is a Chilean startup that provides mobile purification systems for off-grid water supply. These systems filter water using reverse osmosis membranes. Besides, they integrate solar technology and predictive AI to allow autonomous operation and remote control. This way, it ensures low-maintenance, decentralized access to potable water for remote communities.
AirOWater develops Atmospheric Water Generators
Indian startup AirOWater builds atmospheric water generators. The startup utilizes a patented 4-step filtration approach that removes dust, bad odors, and physical contaminants using advanced carbon-based filters. The system generates water by condensing the purified air. This way, compact generators allow drinking clean water at any place being independent of centralized water infrastructure.
7. Innovative Materials
Recent progress in material science provides new opportunities to overcome water supply challenges. Innovative materials such as modular adsorbents, electrode-based reactors, photocatalysts, and nanoparticles are key technologies that are advancing this trend. Their beneficial chemical and mechanical properties offer a smaller footprint while improving selectivity, efficiency, and reliability. By integrating materials with various properties, startups are developing multifunctional systems that achieve multiple functions in water management.
ColFerroX develops Water Remediation Colloids
German startup ColFerroX develops groundwater and wastewater remediation colloids. The startup’s solution includes two types of particles based on iron oxide and silicon. Iron oxide particles have a large surface area that makes them efficient adsorbents of heavy metals. Another silica-based product is a multifunctional solution that extracts any type of contaminants from groundwater. This way, ColFerrox’s colloidal particles advance ecological water sanitation in different settings.
WaHa creates Water Harvesting Materials
US-based startup WaHa offers a solar-powered, water harvesting technology using metal-organic frameworks (MOFs). MOFs allow water extraction from the air even under very arid conditions. Also, due to the high porosity of MOFs, they adsorb a wide range of chemicals. As a result, the startup’s technology harvests drinkable water from low humidity air tackling urgent water scarcity issues.
Water desalination is an industrial process that requires huge amounts of chemicals and energy to proceed. Therefore, startups are focused on developing innovative and eco-friendly solutions that reduce costs. New desalination approaches use renewable energy such as solar power to reduce carbon emissions. Other methods employ biomimicry by which plants and fish extract seawater with minimal energy. Additionally, innovative aquaporin-based technology targets and blocks salt out of water. This way, novel seawater desalination shifts beyond traditionally expensive and fossil-based methods.
Grino delivers Battery-free Desalination
German startup Grino delivers a solar battery-free water desalination system. Grino filters any kind of water source using reverse osmosis purification. The embedded irradiation sensors fully automate the system by consistently measuring available solar energy. This way, Grino’s desalination system operates decentrally, with the lowest maintenance and in a sustainable way to produce clean water.
Ocen Oasis builds a Wave-powered Desalination Plant
Norwegian startup Ocean Oasis build a floating, wave-powered desalination plant. Its patent-pending solution transforms energy from fluctuating waves to sustain a stable flow of pressurized water. Further, it uses the energy to deliver fresh water through pipes. This way, the application of wave-powered plants sustainably produces desalinated water, minimizing the environmental impact.