We have created
proven results, worldwide

The EVOagri has been the subject of many commercial applications
and field tests and studies across the globe. Explore our library of
case studies below to see how the benefits of the EVOagri have
been realised across many different industries, situations and
countries throughout the world.

Water Quality and Treatment Solutions

Focusing on the improvement of water quality and its impact on agriculture.

Water Quality and Treatment Solutions

Focusing on the improvement of water quality and its impact on agriculture.

  • The study aimed to analyse the impact of EVOagri Silver Nanoparticle on specific bacteria, including Escherichia coli, Enterococci, and Coliforms, in water samples.

    • Significant decrease of harmful bacteria

    • Safer water for the environment and people

    • Superior Hygienic Water Quality, ideal for the medical sector

    • Proven more powerful than UV light, chlorine, ozone, and more

  • To analyse the nano and microbiological effects of EVOagri Silver and Copper Nanoparticles on water quality, specifically focusing on their impact on bacteria such as Escherichia coli, Enterococci, and Coliforms.

    • Significant reduction in Bacteria

    • Potent Disinfection Capability

    • 99.8% Superior Water Treatment Efficacy

  • Investigating the antimicrobial effect of colloidal nanosilver (AgNPs) at a concentration of 24 ppm against various microorganisms.

    • Shows potential use as a disinfectant and antiseptic for treating infections involving microbial species in the study.

  • This study explores the impact of EVOargi turbine technology on water treatment, highlighting physical alterations in water structure and its potential health benefits.

    • Water Structure Altered

    • Positive impacts on nerve health and anti-inflammatory responses

    • Sustainable, Power-Free Operation

  • The study conducted by the Agricultural Department in Ghana focused on using EVOagri technology to treat and utilize saline groundwater for irrigation.

    • 4,800 ppm saline treatment

    • Enhanced plant growth

    • Nutrient-rich water

  • Authored by Prof. Ignat Ignatov and developed by Eng. Fabio Huether, the document highlights EVOagri Water technology and how it brings the revitalising benefits of mountain and glacier water into homes.

    • Mimics natural water

    • Enhanced molecular structure

    • Scientific superiority

  • The challenge was irrigating crops using water with high salt content (4200 PPM), which can adversely affect both soil health and plant growth.

    • 24% less water usage

    • 30% reduction in pesticides

    • 37% increase in lettuce weight yield

Urban and Non-Traditional Agriculture

Including agriculture in non-traditional settings such as urban areas or unique environments.

  • Hamburg's water, rich in heavy metals like iron and manganese, brought significant challenges for golf courses, including discoloured grass, sand, and frequent maintenance of signs and sprinklers.

    • 17% use of water for irrigation

    • 100% algae and bacteria problem solved

    • 100% heavy metal and manganese problem solved

  • A Ugandan poultry farm battled a severe mould and fungus infestation, threatening bird health and egg production.

    • +5% improved feed conversion

    • 89% reduced mortality

    • 100% reduction in use of antibiotics

  • FIFA/UEFA grade turfs, like St Gallen's, are pest-prone due to their rapid growth. The stadium struggled with a damaging mould and fungus infestation.

    • 100% use of fungicide and pesticide sprays

    • 6% germination rate

    • 13% use of water for irrigation

Innovative Agricultural Technologies

Highlighting unique technologies or methods applied to improve agriculture.

  • The Freakfarm, a permaculture farm in Donzhausen, Switzerland, faced issues with fungal infestations and vegetable quality, compounded by loamy, humus-poor soil and a TDS of 300 ppm in their water.

    • 17% water savings

    • 100% elimination of fungicides and pesticides

    • 6% increase in production yield

  • In Rüschlikon, Switzerland, medical cannabis (CBD) plantations faced issues with fungal and mould infestations, compounded by incoming water with a TDS concentration of 420 ppm.

    • 11% increase in production yield

    • 100% elimination of fungicides and pesticides

    • 200% increase in the durability of the soil substrate

  • Makerere University conducted tests using EVO Agri equipment to evaluate its effectiveness in treating salts in irrigation water for enhanced crop cultivation.

    • 27% reduction in fertiliser use

    • 23% water savings

    • Improved soil permeability


  • The Department of Soil Science and Agricultural Engineering at the Agriculture and Forestry University in Chitwan, Nepal, conducted studies on the application of EVOagri technology.

    • 26%+ Seed germination

    • 50% Reduction in irrigation needs

    • 30% Decrease in fertilizer use

  • The Mbagara Farmers Cooperative in Kenya undertook a significant project using EVOagri technology to address the challenges of saline groundwater and improve crop cultivation.

    • 3,000 ppm saline treatment

    • No environmental pollution

    • Stronger plant growth

  • SACE in Uganda, cultivating crops like cassava, maize, and sweet potatoes, began using EVOagri in 2019, significantly enhancing their irrigation.

    • Saline water treatment

    • Higher crop yields

    • Reduced resource use

  • Bugisu Cooperative Union's five-month study in Uganda investigated EVOagri's molecular hydrogen on soybeans, focusing on its benefits in boosting crop resistance, growth, and production.

    • Increased disease resistance

    • Higher crop yield

    • Significant water savings

  • The Egyptian Ministry of Agriculture faced a significant saline issue. Their primary irrigation source had a salt concentration of 4,200 ppm. For perspective, even 400 ppm can harm crop yield and quality.

    • Improved soil quality

    • Reduced salt accumulation

    • Enhanced crop growth

Unique Methods Applied
To Improve Agriculture

  • The Freakfarm, a permaculture farm in Donzhausen, Switzerland, faced issues with fungal infestations and vegetable quality, compounded by loamy, humus-poor soil and a TDS of 300 ppm in their water.

    17% water savings

    100% elimination of fungicides and pesticides

    6% increase in production yield

  • In Rüschlikon, Switzerland, medical cannabis (CBD) plantations faced issues with fungal and mould infestations, compounded by incoming water with a TDS concentration of 420 ppm.

    11% increase in production yield

    100% elimination of fungicides and pesticides

    200% increase in the durability of the soil substrate

  • Makerere University conducted tests using EVO Agri equipment to evaluate its effectiveness in treating salts in irrigation water for enhanced crop cultivation.

    27% reduction in fertiliser use

    23% water savings

    Improved soil permeability

  • The Department of Soil Science and Agricultural Engineering at the Agriculture and Forestry University in Chitwan, Nepal, conducted studies on the application of EVOagri technology.

    26%+ Seed germination

    50% Reduction in irrigation needs

    30% Decrease in fertilizer use

  • The Mbagara Farmers Cooperative in Kenya undertook a significant project using EVOagri technology to address the challenges of saline groundwater and improve crop cultivation.

    3,000 ppm saline treatment

    No environmental pollution

    Stronger plant growth

  • SACE in Uganda, cultivating crops like cassava, maize, and sweet potatoes, began using EVOagri in 2019, significantly enhancing their irrigation.

    Saline water treatment

    Higher crop yields

    Reduced resource use

  • Bugisu Cooperative Union's five-month study in Uganda investigated EVOagri's molecular hydrogen on soybeans, focusing on its benefits in boosting crop resistance, growth, and production.

    Increased disease resistance

    Higher crop yield

    Significant water savings

  • The Egyptian Ministry of Agriculture faced a significant saline issue. Their primary irrigation source had a salt concentration of 4,200 ppm. For perspective, even 400 ppm can harm crop yield and quality.

    Improved soil quality

    Reduced salt accumulation

    Enhanced crop growth

Specialised Agricultural Challenges

Encompassing studies that dealt with specific agricultural challenges.

  • In Rampur, Chitwan, Nepal, mustard farmers faced issues due to poor water quality for irrigation, with a saline concentration of 1,800 ppm.

    • 14% increase in seed germination

    • 20% water savings

    • 30% reduction in fertiliser usage

  • The Congo study assessed copper and silver nanoparticles in agriculture, effectively reducing crop losses from pathogens and pests.

    • Crop loss reduction

    • Enhanced efficiency

    • Safe, effective application

  • Islamic University in Uganda's study, spanning May 2019 to January 2020, evaluated the impact of treated water on onions and tomatoes, using well water and enhanced saline groundwater.

    • Yield increase in vegetables

    • Enhanced water efficiency

    • Soil health improvement

  • Busoga University in Uganda conducted research on the benefits of EVOagri Nanoparticles in poultry farming focusing on growth and health improvements.

    • Improved poultry health

    • Enhanced egg production

    • Stronger immune system

  • This study, led by Dr. Blaise Funenge, delves into the effectiveness of the EVOagri device in improving agricultural irrigation, particularly with saline water.

    • Nano-level water absorption

    • Boosted photosynthesis

    • Faster germination

    • Increased crop yields

Crop-Specific Transformations

Focus on individual crops where specific challenges were addressed.

  • Harare's salad farmers battled snail infestations and rust fungus, worsened by irrigation water with a high saline content of 4,200 ppm.

    • 27% crop weight increase

    • 30% less fertiliser

    • 24% water savings

  • Tomato farmers in Rampur, Chitwan, Nepal, struggled with poor water quality for irrigation, marked by a high saline content of 1,800 ppm.

    • 14% increase in seed germination

    • 20% water savings

    • 30% reduction in fertiliser usage

  • Sunflower plantations in Busia, Uganda, were suffering from saline water erosion, with a high saline concentration of 5,500 ppm in their irrigation water.

    • 25% increase in root development

    • 11% yield improvement

    • 33% reduction in fertiliser use

  • Olive farmers in Sicily, Italy, faced challenges in maintaining organic farming due to water with a high saline content of 1,100 ppm.

    • 21% water savings

    • 100% elimination of fungicides and pesticides

    • 6% increase in olive yield

  • Maize plantations in Mulanda, Uganda, were contending with low Brix levels and saline irrigation water, measured at 4,400 ppm.

    • 80% increase in the Brix value from 5-6 to 10-12

    • Enhancing water penetration

    • Reducing salinity

  • Shiitake mushroom cultivators in Rampur, Chitwan, Nepal, were struggling with poor water quality for irrigation, marked by a saline level of 1,800 ppm.

    • 20% water savings

    • 75% increase in mushroom production

    • Improved crop yield

  • Banana plantations in Busia, Uganda, were grappling with soil erosion due to saline irrigation water, which had a high saline concentration of 5,500 ppm.

    • 14% increase in production yield (from an average of 9.6 kg to 10.9 kg per bundle)

    • 29% reduction in fertilizer usage

The EVOagri is exclusively available in Australia from We Are Water.

Find out how the EVOagri could transform your business today.