Our Mission

A copy of this publication is available for download as a Adobe pdf file. 

In today's global water environment, careful observation and investigation of water consumption plays an ever increasing role.
With innovative technologies paving the way to commercial progress, fundamental knowledge and scientific competence become critically important factors of successful business-development.
Historically, the former Soviet military industrial complex incorporated hundreds of institutes and laboratories. Thousands of top scientists and researchers in physics, chemistry, biology, mathematics, information technologies, etc., were engaged in research and development of the world's most advanced and sophisticated water treatment technologies developed at the Russian defense physics centre.

Our mission.

We aim to deliver technologies, which are environmentally sustainable, socially responsible and ethically sound, for the benefit of the community and the environment!
Omni's scientific team left to right; Professor Yuri Tkachenko, Dr. Anatoli and Dr. Alexander.

Important to note:

Professor Yuri Tkachenko Author and co- author of more than 500 scientific research works in field of magneto logy.
His work led to the Enactment by the Government of the Russian Federation, the highest state document obliging the country to implement the instructions stated in it. The Enactment No. 1058 dated October 14th 1993 was issued on the bases of research finding by Professor Yuri Tkachenko on the influence of specific magnetic inductions and their application of magnetic energies in different branches of economy.
With more than thirty years experience in magnatology (dubbed the new science of the 21st Century) he is also a corresponding member of the Russian Academy of Science, current chairman of his Russian organisation known as Rossyskaya Korona and Technical director of Omni Environmental Group where hundreds researchers are engaged in design and development of products which are employed in all state run branches of the economy.
In 1992 he was recorded in the Guinness Books Of records as the "Magnet Man" abstracts from his research finding in medical application of magnetic fields can be found in his book known as the "mysteries of magnetic energies".

Water For Life

Water is an open, dynamic, structurally complicated, and self-organizing system, in which the stationary status is easily infringed in case of any external effect. As a result, there is a transient state characterized, first of all, by a modification of the structural-information property of water. Owing to the processes of self-organization, water can further return to its initial state or transform into a new stationary state.
Omni's magnetic resonators, owing to their ability to structure their own broadband electromagnetic field of water, change its structural-information status. Due to resonance phenomena, re-structurizing of water occurs on certain frequencies. The change of the structural-information status of water is accompanied by the change of its spectral characteristics in the infrared range, also by the change of its physical and chemical parameters, such as electrical conductivity. The interaction with certain resonators changes рН also, reducing the size of molecule clusters which is a new scientific fact..
Australia is the world's driest continent and water has been recognised as one of the scarce resources. Moreover, frequent and continuous droughts have become a common feature of the Australian environment.
Irrigated agriculture is the most dominant water use in the Australian economy. The Australian horticultural industry consumes quite a significant proportion of water and the demand for water is expected to increase with further expansion of the industry in the future.

Irrigation accounts for over 70% of total water use in Australia (Meyer 1993; Raine and Shannon 1996). Furthermore up to 30% of total potable water use in our cities is used for irrigation of home gardens, sporting fields, parks, nurseries and small vegetable farms (Maheshwari,2006)

It is fair to expect that a growing population puts pressure on our major cities and more use of water through irrigation and other uses, coupled with the changing climate scenarios, will put enormous pressure on water supplies for both urban and rural areas.
The horticulture industry often competes with urban, industrial, environmental and other agriculture users of water.

Water For Life - 2

Current drought and competing water demands in most parts of Australia have put enormous pressure on water resources, and consequently all major cities and most towns are now under severe water restrictions and the availability of water for irrigation has been significantly impacted.

Growing concerns among community groups, researchers and policy makers to use water more efficiently and effectively have lead to considerable work done to reduce the application losses through better design and selection of appropriate irrigation methods.
Costly irrigation systems and laser land levelling to improve control and distribution of water within the farm boundaries and beyond. Future policies are designed to increase reuse of effluent, develop ways to use lower quality water and improve the overall productivity of water use for irrigation to cope with future water scarcity.

In the past there was limited research on reducing the losses due to evaporation and transpiration- although over 90% of the water stored within the root zone is consumed by these processes.

Opportunities for Water Savings

Basically there are two ways by which we can reduce water for irrigation use:

1. Reduce water application losses-due to surface runoff and deep percolation below root zone.
2. Reduce losses-due to evaporation and transpiration during growing season.

Surface runoff: If the amount of water falling on the ground is greater than the infiltration rate of the surface, runoff or overland flow will occur

Transpiration is the evaporation of water from plants. It occurs chiefly at the leaves while their stomata are open for the passage of CO₂ and O₂ during photosynthesis. It also occurs at stems, flowers and roots.

Research confirms, that, by using magnetic water treatment systems (developed by Omni Environmental Group, for irrigating pea plants with magnetically treated water) significantly , reduced the water used in transpiration of pea plants. There was 32%, 18% and 13% reduction in transpiration by irrigating pea plant with magnetically treatment of tap water, 1500ppm salt water and 3000ppm salt water respectively compared with non-magnetic treatment of water.
Results of the studies confirms our Magnetic water treatment systems significantly increased in fresh weight 12.5% , dry weight by 22%. Similarly water productivity (produce/KL of water used) increased by 11% and 28% using potable water, saline water of 3000ppm, 1500ppm, 1000ppm and recycled water. For detailed information visit: www.waterforlife.net.au

 

Technology and Significance

Since the beginning of time, water has been critical in sustaining all life. Important, also is the electromagnetic field surrounding the earth's atmosphere, which has influenced how all life form functions and maintains the earth's balance.

As geomagnetism holds the earth and all life in balance, so is its influence necessary to water's functioning, because our own electrochemical nature is dependent on its force.

The water's stability is regulated by its own steady magnetic waveform. This waveform is affected by stress and chemical imbalance, which drastically lowers water's productivity in our body as well as plants and soils.

Reduced productivity of water:

Poor quality water

Cluster of molecules in municipal treated drinking water. Above: regular water molecule cluster without magnetisation (TOXIN / WASTE PRODUCT BUILD-UP) causing cluster of molecules to be much larger in size, increasing surface tension, increasing viscosity, limiting the dissolvability and permeability of water. This results in poor water productivity as only a small percentage of water and nutrients applied are dissolved and made available for plant to up-take at fine root zones.

Technology and Significance

After Magnetization the molecules take place in one sequence "+ - + -" only then the water becomes alive, resulting in reduced surface tension, reduced in viscosity, increased in dissolvability, permeability and increased in oxygen content. Hence, it makes nutrient more readily available to our body, Plants and soils.

Biologically active "alive water" has extreme health benefits. Visit: www.waterforlife.net.au for more information on domestic application and health.

Every drop of magnetically treated water re-groups molecules immediately into a orderly row and brings life-giving potential into our organism and to any living creature and to earth.

Above: Cluster s of molecules in magnetically treated water are restructured and much smaller, by applying controlled magnetic energy to align molecules.

Simple Experiments- You Can Try For Yourself

To appreciate the power of magnetically treated water, plant two flowers and water one of them with water through the magnetic funnel and the other one with normal water.
You will see how this fragile and tender product of nature will respond to the superiority of magnetized water.
Cooking with magnetised water will improve the taste of food and see how magnetic treatment of all beverages will improve the taste dramatically.

Facts and Benefits

Facts and Benefits of University Researched Magnetic Water treatment through a phenomenon called "Magnetic-Hydromagnetic resonance" under the action of Lorentz's force. The key parameters that influence the magnetic treatment are the velocity of water flow in the pipe and the intensity of magnetic induction.

• Reduce water usage by minimum 10% and up to 30%
• Reduce fertiliser usage
• Reduce pesticide and herbicide usage
• Increase yields by at least 10%
• Improve taste of produce
• Increase shelf life of produce
• Improve soil pH and remove/dissolve impurities from soils year after year
• Increase nutrient content in produce
• Increase seed germination percentage and speed of seedling emergence
• Increase fine root growth
• Drastically reduce heat stress
• Increase water flow
• Saving energy and resource
• Prevent and remove scaling from irrigation pipes
• Makes traditionally unusable saline water usable and increases water productivity
• Soil desalinisation takes effect in the first year 1/1.5 meters
• Increase productivity and reduce disease in live stock and general animal breeding
• Increase weight and reduce disease in aquaculture industry
• For a copy of research paper please visit: www.waterforlife.net.au

WITH MAGNETIC WATER TREATMENT	WITHOUT MAGNETIC WATER TREATMENT

TECHNOLOGY AND NATIONAL BENEFITS

The sustainable use of water resources is probably the most critical issue being faced by the irrigation sector in Australia.  The implementation of this technology by the irrigation sector will be of significant national benefit.

The continued long-term sustainable water use is of great importance to further the socio-economic development of Australia.   It is imperative  that we continue to adapt innovative technologies and irrigation practices that save water, improve water productivity and protect and improve our environment.

The main efficiency gain must come from dominant user, irrigation, accounting for over 70% of the total water use in Australia.  Furthermore, up to 30% of the total potable water  use in our cities accounts for irrigation of home gardens, sporting fields, parks, nurseries and small vegetable farms.

Undoubtedly, the sustainability of irrigation is quite important for the economic growth of the country.  As water scarcity has been recognised as one of the most critical issues for sustainable economic development of Australia. 

It is a scientific fact that the use of our magnetic water devices for treatment of irrigation water will improve water productivity  and will lead to significant water saving for irrigation industry.  In the context of current and future water scarcity, even a small saving in irrigation water (conservatively say 5%) through magnetic treatment will mean huge saving nationally.

Therefore it is an important step to keep irrigation sustainable and profitable.  The research carried out in this project has provided a technology that can be put in practice by farmers to improve water productivity, save water, minimise the salinity effect and sustain the health of the environment.

The technology has proven to make use of lower quality waters (effluent and saline water) more sustainable and overall will augment water supplies for horticulture purposes.  In general, the use of our technology will help in improved long-term viability of horticulture industry and sustainable economic development in both urban and rural areas.

International Research

 

Description	Growth per day		Difference	% Increase	% Increase per Plant
	With Magnetic devices	Without Magnetic devices
Corn plant
Plant height (cm)	4.32	2.46	1.75 times	75	40%
Total Leaves (sheet)	0.42	0.38	1.11 times	11
Length of Leaves (cm)	3.00	2.07	1.45 times	45
Diameter of Stalk (mm)	0.11	0.08	1.30 times	30
Onion Plant
Plant height (cm)	0.58	0.46	1.25 times	25	74%
Total Leaves (sheet)	0.75	0.33	2.25 times	125
Length of Leaves (cm)	0.53	0.30	1.75 times	75
Diameter of Stalk (mm)	0.09	0.05	1.69 times	69
Rice Plant
Plant height (cm)	0.34	0.23	1.45 times	45	72%
Total Leaves (sheet)	2.75	1.71	1.61 times	61
Length of Leaves (cm)	0.23	0.09	2.67 times	167
Diameter of Stalk (mm)	0.03	0.34	1.14 times	14
Pumpkin Plant
Plant height (cm)	1.18	0.31	1.45 times	45	91%
Total Leaves (sheet)	1.00	0.50	2.00 times	100
Length of Leaves (cm)	0.29	0.18	1.14 times	79
Diameter of Stalk (mm)	0.05	0.02	1.45 times	140
Cucumber Plant
Plant height (cm)	0.49	0.42	1.17 times	17	3%
Total Leaves (sheet)	0.25	0.21	1.20 times	20
Length of Leaves (cm)	0.14	0.16	0.85 times	-15
Diameter of Stalk (mm)	0.05	0.05	0.92 times	-8
Broccoli
Plant height (cm)	0.63	0.26	2.45 times	145	100%
Total Leaves (sheet)	0.33	0.25	1.33 times	33
Length of Leaves (cm)	0.44	0.26	1.71 times	71
Diameter of Stalk (mm)