# OXYDUS Creating drinkable water from air ## Elevator pitch Oxydus is dedicated to providing water to everyone globally through the development of TEVA7, their patented water production technology. Teva7 harnesses innovative methods to generate water from the atmosphere, offering a sustainable solution to water scarcity worldwide. By leveraging this cutting-edge technology, Oxydus aims to make clean, accessible water available to all, addressing one of the most critical needs of our time. - Canonical URL: https://wefunder.com/oxydus - Entity ID: wefunder:company:100492 - Last updated: 2026-06-04T05:02:37Z - Generated at: 2026-06-04T19:34:29Z ## Quick facts - Large and Growing Opportunity: AWE currently $770B with annual growth ~ 22.3% - Strong Competitive IP Advantage: 2 patents (Method & System) & 1 International PCT - Volume and Efficiency in Water Delivery: TEVA7 produces at least 20K liters of clean water daily - Market Advantage: Lower per liter cost that can create massive disruptive adoption. - Prototype Proves the Science: TEVA7 is ready for full scale commercialization with a growing pipelin - AI-Powered TEVA7: Continuous testing enhances water quality to meet all regulatory standards - Remote Monitoring: Reduces operational expense & provides for continuous autonomous water extraction - Top Notch Team: Internationally recognized industry leaders & microbiologists on team ## Active fundraises - wefunder:fundraise:53314: 4(a)(6) successful (USD) - wefunder:fundraise:53315: 4(a)(6) successful (USD) ## Story The future of the global water crisis can be solved with TEVA7. Join our mission.Click here to see full pitch deck.Click here to watch our video.OVERVIEWEver wondered about a world without water?By 2071, nearly half of the 204 fresh water basins in the United States may not be able to meet the monthly water demand. The latest U.S. Drought Monitor report shows drought conditions across 99% of the Western United States, up from 63% a year ago, with an estimated 59.2 million Americans living in drought-stricken areas. In a first, the US federal government declared a water shortage at Lake Mead, one of the main reservoirs for the Colorado River in 2021. This decision impacts more than 40 million people in the West who rely on the river for at least part of their water supply. Even with the trigger cuts in place that followed the declaration, Lake Mead has declined to its lowest level since the reservoir was filled in the 1930s. The United States faces a water crisis as critical as the energy crisis that once dominated headlines. If present trends continue there could be a 40 percent gap between water supply and demand by 2030.With only under 0.5% of fresh water available on our planet, the demand for potable water will soon outrun the supply. The future of decentralized water and its distribution is in your handsMeet Teva7, the only patented, remotely managed, water production system, soon to hit the market. Traditional AWGs (atmospheric water generation) aren't practical enough to solve water shortagesAWG machines depend on accurate and consistent water quality, humidity, and dew point measurements, which means that manual supervision is necessary to maintain production levels. Because traditional machines require manual intervention, production times are slow, and the water output needed isn't there. So, existing machines are inadequate in highly water-dependent commercial markets like agriculture and sanitation.It is notoriously difficult to reposition or transport older large AWG units for repairs, making them unusable in residential settings. Units with smaller outputs have been developed, but they are usually not enough to meet their intended needs. Its inadequate filtration system is perhaps the biggest problem, making it challenging to meet safe drinking water standards.Older units use about 310 watts of energy to make a liter of water, plus additional energy for making the water drinkable and distributing it — this is highly unsustainable, and the need for improvement is evident.Teva7 solves all traditional impracticalities, while blowing competitors out of the waterOxydus uses a three-pronged approach that makes its patented AI technology ahead of its time. First, our patented method utilizes AI technology to monitor weather patterns and atmospheric conditions. This innovation remotely automates the process so that it won't require in-person staff for constant climate control.Secondly, sensors within the system communicate with cloud management controls to optimize condensation temperature for maximum output, regardless of whether it's humid or dry outside. This cloud connection is crucial for producing water in arid regions, turning Teva7 into a human-made oasis in the desert. It also sets it apart in the industry by boosting water production during optimal conditions. An AI-driven vacuum purifies the input air from chemical, physical and biological contaminants through multiple filters before condensation occurs.Thirdly, we employ a multi-stage filtration system to ensure water quality. After water vapor goes through condensation, it undergoes additional filtration, mineral addition, and UV light exposure. The end results? Instantly drinkable water that not only tastes great but also meets EPA standards. Despite this advanced filtration setup, Teva7 manages to maintain a lower cost per unit compared to its competitors – as low as $0.02 per liter. This affordability opens up realworld applications in commercial and residential settings alike. Teva7 efficiently transfers power between connected units using solar-powered nanobatteries. Our AI software automatically switches between AC and solar power as needed, minimizing carbon emissions. With its out-of-the-box drinkable water production, Teva7 outpaces its competitors in terms of output. Coupled with infrequent filter changes, minimal engine maintenance, various storage capacities, and tamper-proof technology, Teva7 emerges as a practical choice for deployment worldwide.Patent documentation and Technology Valuation Report available on request.To view the feasibility study, click here.MARKET OPPORTUNITYWe're positioned to take advantage of this HUGE market opportunityWhy should you listen? Because what we aim at is also disrupting how we access and utilize water. The total addressable market for this opportunity is as massive as $770 Billion. The applications for this product range from the military and government, agriculture and livestock, auto manufacturing, emergency and natural disasters, to of course, our homes. With our versatile product line and patented water system, we're uniquely positioned to service these markets. We want to make water an accessible commodity. And which is why we turn to you instead of Venture Capitalists to launch our company into the market. We want to take back control from the big corporations and give it back to any and everybody who wants to join our mission and that is why we turn to you. Patent documentation and Technology Valuation Report available on request.A chance to impact every single life on this planet Remember, today nearly 89% of the American population get their water from one of more than 148,000 public water systems which serves 290 million people annually. The remainder rely on water from domestic wells or privately owned utilities.However, with Oxydus’ low price, it is about to open up the market to the 89% of American households. The potential market for the application of our technology does not restrict to the borders of America. The global market opportunity for this stands at an outstanding $770 billion.After initial funding we will target private households as we commercialize our models and seek additional funding to pursue opportunities in the following target markets. Go green, drink clean: an opportunity to impact 750 million lives 750 million people, which is double the population of the USA, do not have access to safe and clean drinking water. As the climate changes, the world’s population grows and economies expand, pressures on the world’s finite water resources will intensify. Climate change impacts the quantity and quality of available water, and with growing populations more water is both consumed and polluted. Another pandemic fueled problem, this number is as huge as 2 billion people globally and estimates show that by 2030, nearly 50 percent of the world's population will live in severe water stress. The demand for economical drinking water is at an all-time high.The point is that a global problem needs a simple and straightforward solution with a worldwide applicability. A single Teva7 machine can produce a minimum of 20,000 liters of clean, fresh drinking water each day. But more importantly, it can offer it at a competitive price of $0.02 per liter. Since cost is arguably the biggest obstacle to AWE adoption in the world.Our (sustainable) future is in our own handsGlobal temperatures are rising and this change in climate is already impacting water access for people around the world. The uptick in climate-related disasters is increasing in pace and severity, showing us that it’s never been more important to find real, sustainable energy solutions.The unpredictability in the patterns to determine the availability of water in the near future is too huge a risk to be taken. Teva7 is an investment in our planet’s future. Lastly, we power our Teva7 machines with solar-powered nano batteries. This innovation makes the product uniquely sustainable because it only requires minimal maintenance for use. Any community would be able to benefit from this solution regardless of their location or access to electricity. Not only can it function in any climatic conditions but it leaves virtually zero carbon footprint on our mother Earth.The need for water with livestock farming: $160 Billion+ (US)About one-third of the world’s water consumption is for producing animal products. It is responsible for 20 to 33 percent of all freshwater consumption in the world. Thanks to the rapidly growing global population and as a result the demand for food, global production for food produced from animal sources has more than tripled over the last 50 years. Not only that but the change in trend toward meat and dairy intensive diets coupled with this population explosion has put enormous pressure on the food systems. The result? Rapid increase in water scarcity. According to the WHO, the annual meat production is projected to increase from 218.0 million metric tons in 1997-1999 to 376.0 million metric tons by 2030. This presents a market opportunity for the commercial application of our product. Not only that, but at the same time it sets us up for scaling our product to the global market.Agricultural farming: $351 BillionWater is one of the most basic resources needed in agricultural production, and agriculture is the single largest water user accounting for 70% of global freshwater withdrawals. The global general crop farming market size is expected to grow from $314.51bn in 2021 to $351.37bn in 2022 at a compound annual growth rate (CAGR) of 11.7%. The global general crop farming market size is expected to grow to $546.92 billion in 2026 at a CAGR of 11.7%. The freshwater available for agricultural activities is limited in nature and so are the ways that we can access it. The mobile and the all-climatic nature of the Teva7 will help generate water at a scale which can match the needs for this market.Food and Beverage Production: $6 BillionThe food and beverage sector is a multi-billion dollar market for innovative water technologies with the largest companies consuming as much water per year as small companies.The sheer diversity of the products, processing steps, water and wastewater treatment needs of food and drink companies opens up many ways to access the market. Emerging market growth and water scarcity will ensure that capex on water technologies by F&B companies will reach $6bn in 2020. The stage is set for every player in the market to increase their revenue in this sector. Oxydus recognizes this gap and is here to close it. Automotive manufacturing: $2.8 trillionProducing a car uses over 4000 liters of water, and whether tire production is included varies by estimate.The global automotive industry is a major consumer of water for various production processes. Major water uses in the automotive manufacturing industry includes surface treatment and coating, paint spray booths, washing, rinsing, hosing, cooling, air-conditioning systems and boilers. The component manufacturing segment has its own list of water-intensive processes.Water is used in nearly every stage of the auto manufacturing but the heaviest users are the metal finishing, boiler feed, paint/coatings shops and cooling tower makeup processes.The market size, measured by revenue, of the Global Car & Automobile Manufacturing industry is $2.8tr in 2022. The rapid increase in demand for water will fall short on supply. The Teva7, with its large storage capacity and remotely controlled AI systems can ensure that we don’t run into this situation. No water = no paper: a market size of $269 billion The pulp and paper (P&P) industry is one of the heaviest users of water. Without water—and lots of it—manufacturing pulp and paper would be all but impossible. Water usage in the pulp and paper industry is needed in almost every part of the process, whether the facility is digesting wood chips, making fiber slurries, or washing the machinery and rollers.Leading FMCG companies have now turned to paper packaging for their goods in a move to make their packaging and shipping more sustainable. The global pulp market was valued at US$ 269bn in 2021. It is estimated to expand at a CAGR of 4.3% from 2022 to 2027. As the buying behavior of consumers becomes more conscious and they make the move to opt for biodegradable options, the demand for it is going to expand rapidly. And you can probably guess by now that the need for producing these biodegradable solutions is going to require more and more use and dependence on water. Oxydus’ mission to generate water out of the moisture in the air will cater to this growing demand and provide this industry with a permanent solution. OUR PRODUCTSWe have designed a family of products to address the different needs of the market place and offer our competitive positioning for overall technology and functionality.Learn More about our Products and TechCOMPETITIONHow do we compare to others? Here’s how Oxydus stacks up.We have been working on developing a solution to the global water crisis for 7 years now. We have invested our time in research and developing to get the right fit for the product.We’ve been successfully issued two U.S. Patents & awarded international PCT Patent application recognition for developing a system to generate water using Atmospheric Water Extraction (AWE). Teva7, when compared to the other systems, is highly efficient in extracting water. The outcome is fresh drinking water by using low electricity.We are disrupting the traditional AWE market by using renewable sources of energy. Teva7 is built for tough terrain and climatic conditions Using durable material and state of the art durable air and water filtration systemTeva 7 is completely self-dependent, using artificial intelligence and cloud management to manage the systems from a far distance.CONCLUSIONInvestor ConsiderationFull financial proformas are confidential and available upon request.So here is what you need to know to invest todayOxydus is looking to raise $1M to market and produce the Teva7. In the first 12 months after closing, we will focus our energy on finalizing the prototype design and getting it operational. We will also use this time to build our founding team further to help us operate at scale when the time comes. In this phase we will begin (but not stopping there) with aggressively focusing on marketing the Teva7 to each American household. Next, we will open it up to the international market and focus on commercializing the scale because the potential of the product does not stop at the American borders. The Teva7 can be sold to individual farmers, automotive manufacturers, offices and industries. Finally, our innovative Teva7 water technology will be constantly updated as our portfolio of inventions expands.If you want to be a part of changing the future where water is available to anyone who needs it, go ahead and click the red button to invest. Forward looking projections cannot be guaranteed.We've been featured in...Have any questions?Get in touch with us at: josephaoun@oxydus.com ## FAQ 1. **Can you elaborate on 'Advanced Solar' and 'Nano Batteries'?** - Hi Nicholas,TEVA7’s third-generation green solar cells will produce the energy required that will then be managed through the wireless energy cloud management system. The energy will be distributed through the wireless nano-grid control system, which will spread the power to the water unit(s) and to the nano-storage battery. Vice Versa energy operation — if the unit faces solar power failure, the energy control system will utilize the stored energy from the nano power-storage battery. TEVA7 p... 2. **What is the proposed Retail Price when units are available?** - Hi Richard, The proposed price will be between $40K to $60K per unit. We are conducting Nationwide feasibility study. Our Oxydus Teva7 machine can generate a minimum of 20,000 liters of fresh drinking water daily at only $0.02/liter — that's enough for about 32 dairy cows a day. Regards, 3. **I'm new to this crowfunding. Can you explain further how will my monetary contribution work?** - Hi Carlomagno, The terms will be published on WeFunder soon. Regards, 4. **When will you have a working prototype running?** - Hi Scott, My team and I worked and are working very hard in R&Ds in water development from space (clouds, humidity, air evaporation, dew point) We developed a patented method to extract water from space and we developed a patented system to process the water for human consumption and for farms. We are right now conducting a CF campaign to raise $1M. My team is a combination of engineers and scientists. Our aim is to build the patented prototype in the Death Valley or nearby. It will take ... 5. **How functional could that model be in a location with very little moisture in the air? How cost-effective is the maintenance and what does it consist of? What is the ideal locations for these units and how will they be protected?** - Hi Mark, Nice e-meeting you. You have excellent questions below are the answers: 1- How functional could that model be in a location with very little moisture in the air? TEVA7’s patented artificial intelligence (software and hardware) will control and optimize meteorological conditions to produce water in any environment by balancing the relative humidity (% moisture saturation at a given temperature) and dew point (temperature at which the air is saturated (100 percent relative humidity)) d... ## Team - Joseph Aoun (CEO & Founder) - Bob Hidell (Head Geologist/Hydrogeolist) - Joseph Danho (Chief Biotechnology Officer) - Oren Saar (Business Development Director) - Andrew Morabito (Intellectual Property Attorney) ## Q&A - Q: It is clear your team is far smarter than me when it comes to technology, and I love anything that tries to confront the biggest problem facing us humans, but I can't seem to wrap my head around the basic science and logistics. First, how the heck are you extracting water in a cost-effective manner from the air in a desert environment where on most days none exists in the atmosphere, otherwise it wouldn't be a desert? It seems like the more obvious place for your machine is high humidity locations, which don't suffer from a water shortage but often suffer from a "clean-water" shortage. But that is more of an infrastructure problem where simple storage and filtration could easily solve with money that local governments in the areas that need it most often don't have. Can you explain how your machine and method would be more economical than just conventional water filtration methods for the majority of the world that has access to water (or could have access to water with $) and just needs it to be clean and drinkable? My last question kind of combines these issues, but what happens to all this water your machine makes? Doesn't it need the same storage and delivery infrastructure as any other method, which, again, is what many places already don't have the money in the first place for otherwise they would have solved their water problems already? Thank you and good luck. - A: Hi John, Our methodology studies Our Strategy studies Our statistics and data analysis studies Our actuary and finance studies Our risk studies Our Feasibility studies Our 3D printing Our Integrated Software and Hardware including and not limited to meteorological software & hardware and Quantum Computing. Our application developments Our data architects and developers Our system architects Our meteorological studies including agriculture meteorology Our information technology Our Solution Architects Our creative directors Our design architects Our information system Our climate studies and Atmospheric physics Our environmental engineering Regards, - A: Happy to announce that we have completed a Feasibility study conducted by a 3rd party business and technology advisory review firm. You can review it here: drive.google.com/fil…view?usp=share_link - Q: How will you keep the system secure from thieves if it is remotely controlled? - A: Hi David, Oxydus’s unit will have advanced security technology to protect from intrusions of unauthorized personnel and Cybersecurity. Regards, - Q: What is the proposed Retail Price when units are available? - A: Hi Richard, The proposed price will be between $40K to $60K per unit. We are conducting Nationwide feasibility study. Our Oxydus Teva7 machine can generate a minimum of 20,000 liters of fresh drinking water daily at only $0.02/liter — that's enough for about 32 dairy cows a day. Regards, - A: Hi Richard, The proposed price will be between $40K to $60K per unit. We are conducting Nationwide feasibility study Our Oxydus Teva7 machine can generate a minimum of 20,000 liters of fresh drinking water daily at only $0.02/liter — that's enough for about 32 dairy cows a day. Regards, - Q: Your original target was to raise $5.5M to achieve the milestones outlined. What will you be able to achieve with ~$250K? - A: Hi Hemdeep, With $250K I’m hiring https://synectic.net/ To do the initial prototype they are asking for $130K to do the initial study of 90 hours. The rest of the money keep Oxydus going. Regards, - Q: hi! This invention looks fascinating and I have a lot of questions. What are the environmental impacts of pulling enough water vapor out of the air to produce 20,000 plus liters or water per day? Pulling water out of the air is just another way of pulling water out of our environment. There will be an impact on plants and animals. Has this been researched? Will the model suggest a level of water production that will be low impact to the environment or even better, halt the production if a general humidity level is affected to a geographic area? A quick chatgpt search suggested these changes in decreased humidity environments: 1. Plant Health: Water Stress: Lower humidity levels can lead to increased water stress in plants. When the air is dry, plants lose water through transpiration more rapidly. Prolonged exposure to low humidity can result in wilting, reduced growth, and even death in some plant species, especially those adapted to humid conditions. Reduced Seed Germination: Low humidity can hinder seed germination and establishment, particularly in species that rely on moist conditions for successful seedling growth. 2. Wildlife and Animal Health: Dehydration: Low humidity can lead to increased water loss through respiration and evaporation for animals. Species that are not well adapted to arid conditions can suffer from dehydration, which can be especially problematic for animals without easy access to water sources. Habitat Changes: Decreasing humidity can alter habitat suitability for certain wildlife species. For example, reptiles, which are ectothermic (rely on external heat sources), may be affected by changes in humidity, as it can impact their ability to thermoregulate. 3. Behavior and Migration: Behavioral Changes: Animals may adjust their behavior in response to changes in humidity. For example, some species may become more nocturnal to avoid the heat and low humidity of the day. Migration: In some cases, animals may migrate to areas with more suitable humidity conditions if they have the ability to do so. However, this is not always an option for all species. 4. Ecosystem Effects: Altered Ecosystem Dynamics: Changes in humidity can impact the entire ecosystem, including plant community composition, wildlife distribution, and nutrient cycling. This can have cascading effects on predator-prey relationships and the overall structure and function of ecosystems. 5. Vulnerable Species: Species that are already on the brink of extinction or are highly specialized to specific humidity conditions may be particularly vulnerable to changes in humidity. They may face increased risks of habitat loss or population decline. The air that is leaving the unit, will it be cool because of the condensation process? Or will the entire unit be hot and create heat? Will the air be filtered so that the unit is releasing good quality air back into the environment and not air that is low quality and has a high concentration of contaminants? How big and heavy is the basic small model? Will it be financially accessible for a small family? Will a renter be able to buy one, put it on a rental balcony and move it with them from place to place or is the idea to put one on the roof of a building like a central air conditioner and supply water for the entire building. Will a small unit be able to be set to a certain amount of production per day so that households are not pulling more water out of the air than is needed?   - A: Hi Kelly, There is no environmental impact. We are extracting water from the air and its part of the cycle ecosystem. Actually we are resolving the drought and the lack of fresh water. In other words, we are improving the ecosystem. Our Concept: 1- Oxydus's inventions arts 2-methodology studies 3-Strategy studies 4-statistics and data analysis studies 5- actuary and finance studies 6- risk studies 7- Feasibility studies 8- 3D printing 9- Integrated Software and Hardware including and not limited to meteorological software & hardware and Quantum Computing. 10- application developments 11-data architects and developers 12- system architects 13- meteorological studies including agriculture meteorology 14- information technology 15- Solution Architects 16- creative directors 17- design architects 18- information system 19-climate studies and Atmospheric physics 20- environmental engineering 21- Identifying the Prototype companies and identifying the area where the prototype will be built their such as The death Valley area. Key Project Strategy and Targets for Prototype 20,000 to 40,000 liters per day (Per 24 hours production of 5,284 US Gallons 220 gallons per hour) to (Per 24 hours production of 10,568 US Gallons-440 gallons per hour) O carbon footprint $0.02 or less per liter cost of water Biodegradable plastic sheeting for bagging operation Unit should be designed to have the broadest range of mobility possible Adequate Water storage to service 5284 to10,568 US Gallons of water produced per day in compressed air gas cylinder Unit modular design will allow flexibility in application Unit components will be standard, off the shelf systems to assure ease of maintenance and expediency of accessing parts. Prototype will use wireless remote operations, monitoring for water quality, and controlling the entire unit from distance Meteorological Software and Hardware systems controlling the humidity and the dew point and the entire unit in and out and in between with controlled environment. Final water product will comply with USEPA Safe Drinking Water Standards Unit will have advanced security technology to protect from intrusions of unauthorized personnel Unit will be running on advance solar cells and nano cells with advice solar storage system. Feasibility studies are the core of the project the water unit can be deployed everywhere and anywhere inexpensively when we have emergency, national disasters, manmade deserters, fires, in areas with lack of water, etc… 16- To solve the world’s water crises the machine’s cost to build MUST be inexpensive to allow anybody to buy TUAFI’s technology! Feasibility study and economic analysis is TUAFI’s priority. 17-Complete cost analyses. 18- UL certification. 19-USEPA certifications using the water for human consumption. 20- Our Tech is absolute green machine from A-Z with Zero Emissions. 21- AWE will work in all climates. 22- Quiet machine not noisy. 23-Eco-Friendly-easy to operate-no oil changes-no filter changes-easy maintenance, zero engine maintenance. 24- Designing and building Teva7’ humidity vacuums. 25- Designing and building Oxydus’ Cybersecurity. 26- And more.. Regards, - A: Kelly, happy to share we have a completed the Feasibility Study. You can view it here: https://drive.google.com/file/d/13D67_ziQdxdy6XqebNfT93cjnvPwfrTM/view?usp=share_link - Q: How functional could that model be in a location with very little moisture in the air? How cost-effective is the maintenance and what does it consist of? What is the ideal locations for these units and how will they be protected? - A: Hi Mark, Nice e-meeting you. You have excellent questions below are the answers: 1- How functional could that model be in a location with very little moisture in the air? TEVA7’s patented artificial intelligence (software and hardware) will control and optimize meteorological conditions to produce water in any environment by balancing the relative humidity (% moisture saturation at a given temperature) and dew point (temperature at which the air is saturated (100 percent relative humidity)) dependent on only the amount of moisture in the air. Additionally the TEVA7 will be able to control humidity, dew point, temperature, air pressure, water capacity production and will alert the system administrator of any problems that may occur which will then be able to be addressed remotely through the cloud. 2- How cost-effective is the maintenance and what does it consist of? TEVA7 mobile units to incorporate nano power-storage batteries for backup. Nano Battery will be used for wireless power distribution through the Information Technology Cloud, controlled by TEVA7s software and hardware. TEVA7’s third-generation green solar cells will produce the energy required that will then be managed through the wireless energy cloud management system. The energy will be distributed through the wireless nano-grid control system, which will spread the power to the water unit(s) and to the nano-storage battery. Vice Versa energy operation — if the unit faces solar power failure, the energy control system will utilize the stored energy from the nano power-storage battery. TEVA7 patented technology connects all TEVA7 units so that power can be transferred between the units efficiently. The DC power grid with third-generation of photovoltaic solar cells will allow for conversion to and from AC power as needed, using high-resolution measurement. TEVA7’s nano-grid will thus aim to cut the energy cost to “zero” and maintain energy reserves that can be used for other purposes. 3- What is the ideal locations for these units and how will they be protected? The Death Valley a desert valley the hottest place on planet earth. Death Valley’s cities such as Death Valley Junction, Chloride City, Ballarat and others, need desperately fresh drinking water. The pilot project will be deployed in the desert’s valley and as soon as Teva7 version1 proof its concept it will be easy to deploy Oxydus and Teva7 in the costal regains and the world. I founded Oxydus to tackle the most significant challenges to freshwater sustainability by bringing scaleable drinking water to places where there is little or none. Our Oxydus Teva7 machine can generate a minimum of 20,000 liters of fresh drinking water daily at only $0.02/liter — that's enough for about 32 dairy cows a day.  By investing in Oxydus, you're not only investing in disruptive smart water technology, but it's a way to be part of something larger. We're solving water issues in a wide range of industries, from farming to municipal supply. If you can think of someone who shares this concern, I would greatly appreciate it if you can forward our Wefunder.com/oxydus  to them as well. Please let's work together to make an impact. - Q: Hi Joseph or Oren, Is this an example of successful biomimicry? I know the problem you're addressing is huge. My crowdfund club has 29k members and I know many will also be passionate about a solution. Please choose a time to discuss announcing your offering to the club. Calendly.com/mark-perlmutter Thanks, Mark www.PlanetPositiveInvesting.com - A: Hi Mark, Happy New year and great to connect. Yes this is an example of successful biomimicry!. I went to your Calendly.com/mark-perlmutter to book a date and time but , you have a note: Please note that legally we can only earn a flat fee up front for announcing your Crowdfund to members. Just to let you know that I can’t afford to pay the upfront fee. But I canopy a flat fee upon successful closing (at the end and not upfront.  Please let me know if you agree or not before booking a date and time to talk. My email: josephaoun@oxydus.com Regards, Joseph Aoun  Founder / CEO  JosephAoun@Oxydus.com Oxydus.com - Q: How big are the solar panels that will be required to run this system? And are they an extra cost and installation? - A: Hi Ronald, The solar cells will be built in the machine itself. There is no solar panels on the side. Also attached the feasibility study: https://drive.google.com/file/d/162JlJWO9Ndz1vmC4ykN5uo9XYKB0TX_u/view My email: josephaoun@oxydus.com Regards, Joseph Aoun  Founder / CEO  JosephAoun@Oxydus.com Oxydus.com - Q: could you please explain which document investor will have after investment? certificate for holding shares? it will be registered? will you have open official list with names of investors? Thank you for response in advance. Im new here, so i want to understand how it works - A: Hi Miednikova,, My offering is on: https://wefunder.com/oxydus campaign all the offerings and the legal terms are here. You can also reach out directly to WeFunder’s team they will explain everything to you and to protect your investments. Yes you can sell your shares but go directly to WeFunder. Happy New year and great to connect. My email: josephaoun@oxydus.com Regards, Joseph Aoun  Founder / CEO  JosephAoun@Oxydus.com Oxydus.com - Q: After initial purchase and installation, what would be the ongoing operational costs, and who will service the machines? - A: Hi Demetrios, The solar cells will be built in the machine itself. There is no solar panels on the side. Attached the feasibility study: https://drive.google.com/file/d/162JlJWO9Ndz1vmC4ykN5uo9XYKB0TX_u/view We will teach people to become technicians and more... My email: josephaoun@oxydus.com Regards, Joseph Aoun  Founder / CEO  JosephAoun@Oxydus.com Oxydus.com - Q: Would this work with an app? - A: Yes, absolutely! An app can be integrated to monitor water production, track filter status, control settings remotely, and provide usage insights in real time. It enhances user convenience and makes the system even smarter and more efficient. - Q: What is the current price per share? - A: Hi Pete, It’s $2 per share please read the Form C. Regards, - Q: form c - A: Hi Eric, Oxydus' Form C: https://www.sec.gov/edgar/browse/?CIK=1989089 - Q: Who are your key partners if you have any? - A: Hi Lily, My key partners are my engineers and my scientists. Regards, - Q: I was researching online and found that to create 1 liter of drinkable water using a desalination machine costs around 0.0005$ to 0.0003$ compared to 0.02$/liter. Why should people buy your TEVA 7 when they can invest in desalination machines? - A: Daniel, Desalination machines and plants produce waste and toxic chemicals that are harmful to wildlife and the planet. The process can also raise salt levels in seawater, which affects fish. Desalination plants that use diesel also produce greenhouse gas emissions and they kill fish. Teva7 version1 contributes to the environment. We will be developing Teva7 version 2,3 and so on.. To reach the cost is around 0.0005$ to 0.0003$ compared to 0.02$/liter. Why should people buy your TEVA 7 when they can invest in desalination machines? And It’s up to you to make changes to this world before leaving it!. Regards,