Responsibility
How we with our users and the main ones solve significant problems
Teslar Scintific and Industrial Association -
is a non-profit association of participants who conduct research and development in the field of convergent sciences and nature-like technologies, along with their development in the production and release of high-tech products and sustainable life support systems.
Since 2008, the TESLAR SIA has been actively exploring the possibilities and methods of using environmentally friendly nanomaterials to improve the quality of life, preserve human health and cleanse the environment. For example: since 2008, graphene has been used in lighting systems (biologically adequate light for humans and phyto-efficient for plants), water purification and climate control systems, power supply and thermal insulation of engineering and technical complexes.
Since 2010, the engineers and scientists of the Association begin to independently develop methods for the production of atomic-molecular design. Nanomaterials with programmable properties created atom by atom acquire qualities that are fantastic for classical physics, and these unique materials replace obsolete materials, or are used in the form of heat-removing substrates and campaigns, pastes, glue, etc.
The produced graphene and graphene-containing materials are used in our own production of sustainable life support systems. The created nanomaterials acquire qualities that are fantastic for classical physics.
Continuous research and the search for solutions in the field of waste management allowed in 2018 a fundamentally new technology for waste management was born. The use of quantum technologies made it possible to master the technology of nature itself: the transformation of elements.
"Green" graphene is a nature-like technology for recycling renewable raw materials: processing waste of all types (including toxic ones) into environmentally friendly nanomaterials with desired properties (graphene and nanomaterials based on it). Waste no longer exists as everything is a valuable resource, just like in nature.
More details on the pages: Green graphene
In 2018 and on the basis of long-term developments, significant breakthroughs were achieved in biologically adequate lighting technologies, and a significant contribution was made to the development of sanitary and hygienic safety and hygiene of vision. This has contributed to the development of health-saving technologies and improved the quality of life for people.
More details on the pages: Teslar Lighting Technologies
2019 Teslar SIA presented the results of an 8-year research and the latest developments in high-precision agricultural technologies.
This time, a significant contribution was made to the development of agricultural technologies (city farming), food security and epidemiological well-being of the population. More details on the pages: Teslar Biotechnology
Teslar SIA is not only a researcher, but also a manufacturer of graphene and graphene-containing products, invites all interested parties to cooperate in the implementation of environmentally friendly graphene technologies and joint research in search of possible environmental applications of nanomaterials.
Sustainable science, technology and production policies and commitment to environmental and human protection builds trust as an eco-friendly manufacturer and innovator in various areas of livelihoods. This allows us to offer the best available solutions and the latest developments with an emphasis on environmental friendliness, resource conservation and quality.
We intend to broaden our science agenda and step up our efforts with our initiatives to greenly transform cities, transportation systems, agricultural and industrial enterprises into energy-efficient, green systems that can meet the needs of all people, for the essentials, without jeopardizing the lives of future generations.
is a non-profit association of participants who conduct research and development in the field of convergent sciences and nature-like technologies, along with their development in the production and release of high-tech products and sustainable life support systems.
Since 2008, the TESLAR SIA has been actively exploring the possibilities and methods of using environmentally friendly nanomaterials to improve the quality of life, preserve human health and cleanse the environment. For example: since 2008, graphene has been used in lighting systems (biologically adequate light for humans and phyto-efficient for plants), water purification and climate control systems, power supply and thermal insulation of engineering and technical complexes.
Since 2010, the engineers and scientists of the Association begin to independently develop methods for the production of atomic-molecular design. Nanomaterials with programmable properties created atom by atom acquire qualities that are fantastic for classical physics, and these unique materials replace obsolete materials, or are used in the form of heat-removing substrates and campaigns, pastes, glue, etc.
The produced graphene and graphene-containing materials are used in our own production of sustainable life support systems. The created nanomaterials acquire qualities that are fantastic for classical physics.
Continuous research and the search for solutions in the field of waste management allowed in 2018 a fundamentally new technology for waste management was born. The use of quantum technologies made it possible to master the technology of nature itself: the transformation of elements.
"Green" graphene is a nature-like technology for recycling renewable raw materials: processing waste of all types (including toxic ones) into environmentally friendly nanomaterials with desired properties (graphene and nanomaterials based on it). Waste no longer exists as everything is a valuable resource, just like in nature.
More details on the pages: Green graphene
In 2018 and on the basis of long-term developments, significant breakthroughs were achieved in biologically adequate lighting technologies, and a significant contribution was made to the development of sanitary and hygienic safety and hygiene of vision. This has contributed to the development of health-saving technologies and improved the quality of life for people.
More details on the pages: Teslar Lighting Technologies
2019 Teslar SIA presented the results of an 8-year research and the latest developments in high-precision agricultural technologies.
This time, a significant contribution was made to the development of agricultural technologies (city farming), food security and epidemiological well-being of the population. More details on the pages: Teslar Biotechnology
Teslar SIA is not only a researcher, but also a manufacturer of graphene and graphene-containing products, invites all interested parties to cooperate in the implementation of environmentally friendly graphene technologies and joint research in search of possible environmental applications of nanomaterials.
Sustainable science, technology and production policies and commitment to environmental and human protection builds trust as an eco-friendly manufacturer and innovator in various areas of livelihoods. This allows us to offer the best available solutions and the latest developments with an emphasis on environmental friendliness, resource conservation and quality.
We intend to broaden our science agenda and step up our efforts with our initiatives to greenly transform cities, transportation systems, agricultural and industrial enterprises into energy-efficient, green systems that can meet the needs of all people, for the essentials, without jeopardizing the lives of future generations.
The pollution of the planet, the destruction of biodiversity and the destruction of the planet's ecosystems is one of the most pressing problems facing our world today.
That's why we work every day to provide everyone with an affordable alternative for better choices.
To provide the most needed resources while minimizing energy consumption and the generation of emissions and waste. Protect health and the environment.
That's why we work every day to provide everyone with an affordable alternative for better choices.
To provide the most needed resources while minimizing energy consumption and the generation of emissions and waste. Protect health and the environment.
What benefits our activities bring to the planet,
society and future generations?
Examples of the implementation of our developments
A new level of energy efficiency and resource saving using nanomaterials.
Rejection of the concept of planned obsolescence. Design and manufacture of sustainable products with maximum service life and only the highest quality.
Rejection of the concept of planned obsolescence. Design and manufacture of sustainable products with maximum service life and only the highest quality.
A new word in resource management: the technology of processing all types of waste into graphene and nanomaterials with predetermined basic properties, which are in demand in all spheres of human life and are of great importance for the ecology of the planet.
Quantum and nanotechnology in lighting. Safe environment, vision hygiene and sanitary and epidemiological well-being of the population. Health-preserving technologies can prevent the development of disabilities, maintain health and improve well-being.
Nanobiotechnology.
Food security. Naturpathy. Technologies for obtaining high-quality food products-oncoprotectors that can effectively resist diabetes, oncology, heart disease and three dozen more dangerous killer diseases of our century.
RESOURCE EFFICIENCY
RESOURCE EFFICIENCY
The new level of energy and resource saving helps to reduce electricity costs, reduce emissions into the atmosphere, and slow down the rate of waste generation. Avoiding the concept of planned obsolescence and making only the highest quality products for all people
Scientists have come to the conclusion that urgent measures must be taken to reduce waste generation
Landfills represent a great environmental hazard that will last for tens and hundreds, and in some cases - thousands of years.
720 billion tons of production and consumption waste is generated in the world annually. For each inhabitant of the Russian Federation, on average, about 15 tons of municipal solid waste is generated per year, and the total area of Russian landfills, according to Greenpeace, is more than 4 million hectares. This is approximately equal to the territory of Switzerland. And every year an additional 10,000 hectares of land continue to go to landfills.
Most of the products already leave the production line are rubbish!
99% of all manufactured items last no more than six months, after which they are sent to the landfill.
40% of all food produced is wasted because it has gone bad.
Most of the products already leave the production line are rubbish!
99% of all manufactured items last no more than six months, after which they are sent to the landfill.
40% of all food produced is wasted because it has gone bad.
"Osram", "Philips", "General Electric" - they don't care!
Toxic light.
Toxic light.
A conspiracy of lighting equipment manufacturers has led to the fact that for 96 years they have been plundering the planet, siphoning resources, littering the earth with toxic waste around the world, ruining human health and destroying ecosystems. It occurred to the shareholders of the companies that it is possible to produce goods that do not last so long, the costs of replacing them should be borne by the consumer, and the smoking landfills instead of clean fields and rivers should be left to the next generations.
Problem: 19% of all the energy generated on Earth is spent on artificial lighting. Most of this energy is produced by fuel power plants of thermal power plants - power plants that convert natural energy into electricity. For these purposes, natural fuels are used. And there is a lot of toxic waste that has a detrimental effect on the ecology of the planet.
Problem: The short lifespan of lighting products results in a high waste rate and a waste of resources. Landfills pose a great environmental hazard
Problem: From 25 to 40% of the budgets of municipalities and retail and office complexes are spent on paying electricity bills.
Solution: Energy efficient artificial lighting with radically extended product life.
Problem: The short lifespan of lighting products results in a high waste rate and a waste of resources. Landfills pose a great environmental hazard
Problem: From 25 to 40% of the budgets of municipalities and retail and office complexes are spent on paying electricity bills.
Solution: Energy efficient artificial lighting with radically extended product life.
This strategy has proven itself to be successful and strengthens our credibility as a responsible technology company every year. A researcher and developer looking for solutions to problems and technologies that root out causes. Not the treatment of diseases, but their prevention and the development of health-saving technologies, and the restoration of the environment.
Since 2008, graphene and unique developments have been used in our own production of lamps to increase heat removal from power drivers and in LEDs. Materials are manufactured in the form of heat-conducting substrates, compounds, pastes, glue.
Over the past 12 years, graphene-containing lamps manufactured by Teslar SIA have been installed all over the world and do not fail - they continue to work daily without loss of luminous flux power and with minimal energy consumption. The history of observations and test results have allowed us to establish new standards in the lighting industry for durability and energy efficiency. The use of nanomaterials and proprietary developments allowed a record-breaking extension of the service life of products - up to 200,000 hours of continuous operation.
This allowed us to bring the energy efficiency of facilities to a new level. Reduce the cost of electricity and lighting maintenance. Reduce emissions into the atmosphere, reduce the rate of waste generation. The cost of operating the products has become ten times cheaper, as the product has a record-breaking durability and energy efficiency in the industry.
Since 2008, graphene and unique developments have been used in our own production of lamps to increase heat removal from power drivers and in LEDs. Materials are manufactured in the form of heat-conducting substrates, compounds, pastes, glue.
Over the past 12 years, graphene-containing lamps manufactured by Teslar SIA have been installed all over the world and do not fail - they continue to work daily without loss of luminous flux power and with minimal energy consumption. The history of observations and test results have allowed us to establish new standards in the lighting industry for durability and energy efficiency. The use of nanomaterials and proprietary developments allowed a record-breaking extension of the service life of products - up to 200,000 hours of continuous operation.
This allowed us to bring the energy efficiency of facilities to a new level. Reduce the cost of electricity and lighting maintenance. Reduce emissions into the atmosphere, reduce the rate of waste generation. The cost of operating the products has become ten times cheaper, as the product has a record-breaking durability and energy efficiency in the industry.
"In the rare case when a thing is not designed to wear out and break, it saves a lot of time and effort for the whole world!"
- Jacques Fresco
Founder of the Venus project. Advocated for the global implementation of a socio-economic system, which he called a "resource-based economy."
- Jacques Fresco
Founder of the Venus project. Advocated for the global implementation of a socio-economic system, which he called a "resource-based economy."
NOTHING DISAPPEARS, BUT EVERYTHING IS TRANSFORMED - TESLAR SIA
A revolution in resource management and a new word in the resource-based economy
RESOURCE MANAGEMENT
"Green" graphene
Transformation of elements by atomic-molecular design methods. A new word in resource management: the technology of processing all types of waste into nanomaterials with predetermined basic properties, which are in demand in all spheres of human activity and are of great importance for the ecology of the planet.
The only sane way to deal with waste is to recycle it into useful, modern materials. A new word in waste management: recycling has become a process of industrial production of high-quality innovative material - graphene, which is in demand in all spheres of human life and is of great importance for the ecology of the planet.
100%
Waste of all types can be neutralized and processed into environmentally friendly nanomaterials
67%
All technologies and materials used by humans can be greatly improved with graphene
Problem: Waste disposal. Rising consumption standards, the spread of urban lifestyles, the acceleration of the cycle of replacement of household appliances and electronics have a downside - an increase in the volume of solid domestic waste (MSW), which negatively affects human health and the state of ecosystems. Huge areas of land, potentially suitable for agriculture and recreation, are alienated for waste storage. The appearance of landfills, the pollution they spread, frequent cases of spontaneous combustion with the release of poisonous smoke make their surroundings uninhabitable and aesthetically unattractive. They are trying to minimize the negative impact of solid waste by means of their more efficient disposal, reduction of landfill areas, production of energy from garbage, and prevention of toxic emissions.
Problem: The situation is aggravated by planned obsolescence and short product life, resulting in high waste rates and wasted resources. Landfills pose a great environmental hazard
Solution: 10-year development by Teslar SIA of technologies related to waste disposal made it possible to master the nature-like technology of the cycle of renewable raw materials: this included a whole range of technologies such as: technologies for automatic waste sorting, technologies for transformation of elements and production of nanomaterials with programmed basic qualities by methods and methods of atomic -molecular design.
Problem: The situation is aggravated by planned obsolescence and short product life, resulting in high waste rates and wasted resources. Landfills pose a great environmental hazard
Solution: 10-year development by Teslar SIA of technologies related to waste disposal made it possible to master the nature-like technology of the cycle of renewable raw materials: this included a whole range of technologies such as: technologies for automatic waste sorting, technologies for transformation of elements and production of nanomaterials with programmed basic qualities by methods and methods of atomic -molecular design.
Since 2008, the TESLAR Research and Production Association has been actively exploring the possibilities and methods of using environmentally friendly nanomaterials to improve the quality of life, preserve human health and cleanse the environment. For example: since 2008, graphene has been used in lighting systems (biologically adequate light for humans and phyto-efficient for plants), water purification and climate control systems, power supply and thermal insulation of engineering and technical complexes.
Since 2010, the engineers and scientists of the Association begin to independently develop methods for the production of atomic-molecular design. Nanomaterials with programmable properties created atom by atom acquire qualities that are fantastic for classical physics, and these unique materials replace obsolete materials, or are used in the form of heat-removing substrates and campaigns, pastes, glue, etc.
The produced graphene and graphene-containing materials are used in our own production of sustainable life support systems. The created nanomaterials acquire qualities that are fantastic for classical physics.
Continuous research and the search for solutions in the field of waste management allowed in 2018 to emerge a fundamentally new technology that opens up the widest possibilities in resource management. "Green" graphene is a nature-like technology for processing waste of all types (including toxic ones) into environmentally friendly nanomaterials with desired properties (graphene and nanomaterials based on it).
This is a new round in the development of a resource-based economy - a cycle of renewable raw materials. The use of quantum technologies made it possible to master the technology of nature itself: the transformation of elements. Everything is valuable resources and waste no longer exists, as in nature.
Since 2010, the engineers and scientists of the Association begin to independently develop methods for the production of atomic-molecular design. Nanomaterials with programmable properties created atom by atom acquire qualities that are fantastic for classical physics, and these unique materials replace obsolete materials, or are used in the form of heat-removing substrates and campaigns, pastes, glue, etc.
The produced graphene and graphene-containing materials are used in our own production of sustainable life support systems. The created nanomaterials acquire qualities that are fantastic for classical physics.
Continuous research and the search for solutions in the field of waste management allowed in 2018 to emerge a fundamentally new technology that opens up the widest possibilities in resource management. "Green" graphene is a nature-like technology for processing waste of all types (including toxic ones) into environmentally friendly nanomaterials with desired properties (graphene and nanomaterials based on it).
This is a new round in the development of a resource-based economy - a cycle of renewable raw materials. The use of quantum technologies made it possible to master the technology of nature itself: the transformation of elements. Everything is valuable resources and waste no longer exists, as in nature.
The starting material can be anything: any waste. Polyethylene, glass, food waste, oil products, coal, wood. Sawdust, a plastic bag, any packaging or old tire can become the skin of a spaceship or an unsinkable ship, an unbreakable device or garment with unique properties and a 100-year warranty. Even toxic waste will be rendered harmless and transformed into nanomaterials with magical properties.
Nanotechnology
The Revolution in Light Spectrum Control
Nanomedicine
Quantum and nanotechnology in lighting
Technologies for controlling the spectral composition of light have made it possible to create biologically adequate and phyto-efficient lighting. Safe environment, vision hygiene and sanitary and epidemiological well-being of the population. Health-preserving technologies can prevent the development of disabilities, maintain health and improve well-being.
Problem: a modern person spends up to 90% of daylight hours under artificial lighting. The effect of the toxic effects of unsafe lighting on a person is already felt after 20 minutes of being in these conditions. All lighting solutions on the international market have toxic effects (UV, IR, ripple, inadequate spectrum with peaks and dips, etc.). This causes disruption of the organs of vision, disorders of the nervous, endocrine and immune systems of a person. Irreversible for children under 14 years of age. Consequences - disability up to 96%.
Solution: Biologically adequate artificial lighting. Hygiene of light and safe video environment.
Solution: Biologically adequate artificial lighting. Hygiene of light and safe video environment.
Since 2018, the line of graphene-containing lamps began to possess a biologically adequate solar spectrum - these are the own developments of the Association, and the first photobiologically safe lighting solutions of any level of complexity.
Biologically adequate artificial illumination without toxic effects for the human body: UV and IR radiation, pulsation, "peaks" and "dips" of the spectrum are eliminated. Engineers manage the spectrum and create the required one for the intended purpose. Polymeric coatings for LEDs have been developed and are being introduced, allowing to obtain a real full solar spectrum, which is extremely important for the quality development and life of a person.
The development was carried out for 11 years with reputable international scientific institutions. Samples of products for research were provided to agrophysical, agricultural and biomedical research institutes in Russia and Europe. Improved health indicators in living organisms have been proven. The technology has made it possible to obtain biologically adequate light for humans and animals, as well as super-efficient photosynthesis for plants.
Biologically adequate artificial illumination without toxic effects for the human body: UV and IR radiation, pulsation, "peaks" and "dips" of the spectrum are eliminated. Engineers manage the spectrum and create the required one for the intended purpose. Polymeric coatings for LEDs have been developed and are being introduced, allowing to obtain a real full solar spectrum, which is extremely important for the quality development and life of a person.
The development was carried out for 11 years with reputable international scientific institutions. Samples of products for research were provided to agrophysical, agricultural and biomedical research institutes in Russia and Europe. Improved health indicators in living organisms have been proven. The technology has made it possible to obtain biologically adequate light for humans and animals, as well as super-efficient photosynthesis for plants.
Nanotechnology allows you to control the spectrum and create any spectrum you need.
In this case, for example, ultraviolet (UV) and infrared (IR ) have been cut down on the advice of specialists in biomedical problems. A series of bio-adequate light for humans and phyto-efficient for plants have been launched into production.
In this case, for example, ultraviolet (UV) and infrared (IR ) have been cut down on the advice of specialists in biomedical problems. A series of bio-adequate light for humans and phyto-efficient for plants have been launched into production.
Close to the solar spectrum, without "peaks" and "dips", it avoids disturbances in the functioning of the nervous, endocrine and immune systems of a person. This is especially critical for the health of children under 14 years of age, in order to avoid developmental pathologies. Myopia pandemic: from 40 (Russia) to 90 (South Korea, Japan, USA) percent of pre-graduation children with visual impairments and "school" pathologies.
The most efficient, durable and environmentally friendly lighting solutions. The innovation was highly appreciated by authoritative research medical, biological and agricultural institutes in Russia and Europe
The most efficient, durable and environmentally friendly lighting solutions. The innovation was highly appreciated by authoritative research medical, biological and agricultural institutes in Russia and Europe
To date, municipalities in different countries and hundreds of companies on different continents have re-equipped their lighting facilities with graphene-containing lamps as part of energy saving programs, reducing emissions into the atmosphere, eliminating non-production costs, improving the sanitary and hygienic conditions of work and rest of their employees and citizens.
Lighting technology with a real solar spectrum has improved the quality of life for people and has found application in the lighting of administrative and office buildings and premises, institutions of cultural, domestic and social purposes, streets, parks, industrial zones, factories and special places with requirements for moisture and explosion protection.
Lighting technology with a real solar spectrum has improved the quality of life for people and has found application in the lighting of administrative and office buildings and premises, institutions of cultural, domestic and social purposes, streets, parks, industrial zones, factories and special places with requirements for moisture and explosion protection.
The introduction of modern, energy efficient and safe technologies in all areas of human activity continues, within the framework of energy conservation programs, ensuring a safe environment and lighting hygiene, ensuring epidemiological well-being, implementing the Minamata Convention on Mercury and the Paris Agreement on Climate.
On the page of the special offer Energy Efficiency Improvement, an example of the implementation of the Energy Saving program is given.
On the page of the special offer Energy Efficiency Improvement, an example of the implementation of the Energy Saving program is given.
Nanomaterials
in lighting technology
The application of the scientific method and nano-matherals with unique properties has made it possible to achieve a high degree of environmental friendliness and light quality and to establish, on the basis of these developments:
New Safe Video Environment Standard (Biologically Adequate Light without UV and IR)
High Quality Color Transfer (98 Ra)
Improvement of quality of life, development of healthy technologies
High Quality Color Transfer (98 Ra)
Improvement of quality of life, development of healthy technologies
Longest service record (200,000 uninterrupted, over 23 years)
Record Energy Efficiency (Luminous Efficiency 170-200 LM/W)
Environmental Performance of Materials, Waste Reduction and Anthropogenic Air Emissions
Record Energy Efficiency (Luminous Efficiency 170-200 LM/W)
Environmental Performance of Materials, Waste Reduction and Anthropogenic Air Emissions
Record phyto-efficiency (high yields and new sitiforms)
Record low operating costs (lowest energy and maintenance costs)
Development of quantum and nanomedics (new applications in medicine)
Record low operating costs (lowest energy and maintenance costs)
Development of quantum and nanomedics (new applications in medicine)
NANOBIOTECHNOLOGIES
Biotechnology and food security
Efficient and environmentally friendly technologies and methods of industrial production of high quality plant products.
Problem: From 70% to 90% of modern human diseases stem from nutrition. According to bio and food safety experts, grocery stores are the most dangerous place in modern cities and towns. A plant-based diet is recognized as the healthiest nutritional strategy in existence. Its benefits are scientifically based and can prevent a large number of diseases and deaths.
Problem: Industrial agriculture of the 20th century is one of the dirtiest and most toxic areas of human activity. With a lot of waste and a carbon footprint.
Problem: Growing food in the required quantities becomes unsafe and impossible in the face of climate change, outdoor contamination and the annually increasing destructiveness of disasters.
Problem: The human carbon footprint, climate change and dietary strategies are directly linked. Science magazine believes that the most effective thing everyone can do to improve the situation on the planet is to switch to a plant-based diet.
Solution: High-tech and biologically adequate LED lighting that fully simulates sunlight. The radiation wavelengths, the density of the photosynthetic photon flux are selected in an optimal ratio for plants. Industry-record product life without sacrificing light output.
Phytoeffective biologically adequate lighting for photoculture.
Solution: High-tech and biologically adequate LED lighting that fully simulates sunlight. The radiation wavelengths, the density of the photosynthetic photon flux are selected in an optimal ratio for plants. Industry-record product life without sacrificing light output.
Phytoeffective biologically adequate lighting for photoculture.
Solution: An efficient and environmentally friendly technology for year-round intensive resource-saving production of high quality plant products in any premises and structures. According to experts, operating costs have been halved, with a significant increase in yield. Industrial production of food - cancer protectors that can prevent a pandemic of cancer, diabetes, cardiovascular diseases and three dozen more of the most dangerous killer diseases of our century.
Problem: Industrial agriculture of the 20th century is one of the dirtiest and most toxic areas of human activity. With a lot of waste and a carbon footprint.
Problem: Growing food in the required quantities becomes unsafe and impossible in the face of climate change, outdoor contamination and the annually increasing destructiveness of disasters.
Problem: The human carbon footprint, climate change and dietary strategies are directly linked. Science magazine believes that the most effective thing everyone can do to improve the situation on the planet is to switch to a plant-based diet.
Solution: High-tech and biologically adequate LED lighting that fully simulates sunlight. The radiation wavelengths, the density of the photosynthetic photon flux are selected in an optimal ratio for plants. Industry-record product life without sacrificing light output.
Phytoeffective biologically adequate lighting for photoculture.
Solution: High-tech and biologically adequate LED lighting that fully simulates sunlight. The radiation wavelengths, the density of the photosynthetic photon flux are selected in an optimal ratio for plants. Industry-record product life without sacrificing light output.
Phytoeffective biologically adequate lighting for photoculture.
Solution: An efficient and environmentally friendly technology for year-round intensive resource-saving production of high quality plant products in any premises and structures. According to experts, operating costs have been halved, with a significant increase in yield. Industrial production of food - cancer protectors that can prevent a pandemic of cancer, diabetes, cardiovascular diseases and three dozen more of the most dangerous killer diseases of our century.
In the Russian Federation, our technologies were highly appreciated by the Institute of Biomedical Problems and the Institute of the Arctic and Antarctic. Specialists of the Department of Plant Light Physiology and Bioproductivity of Agroecosystems of the Agrophysical Research Institute of the Russian Academy of Agricultural Sciences were directly involved in research and development of application technologies. The work was carried out for 8 years also at European institutions.
The development of these technologies was carried out for several decades by researchers from all over the world - 30 years ago it became obvious to farmers and farmers that growing food in the open field is more unsafe and not efficient enough. We managed to make a significant contribution to the development of greenhouse technology and food production. We continue to work every day to make our technologies even more efficient and accessible for people of all kinds of income and without it at all. So that in every kindergarten and in every home and office people receive wholesome food. Because plant-based nutrition is the basis of a healthy life and it has been experimentally established that it can stop the cancer epidemic.
A significant result in the development of food cultivation technologies was achieved by applying in practice an integrated approach to plant cultivation, and a number of revolutionary developments that became possible thanks to long-term cooperation with research institutions. So, in order to ensure a timely harvest, our greenhouses use an optimized light and special nutrient medium. And for light irradiation, a unique and extremely phyto-efficient light is used.
Instead of the sun - the most technologically advanced and biologically adequate LED lighting, which completely imitates sunlight. The radiation wavelengths, the density of the photosynthetic photon flux are selected in an optimal ratio for plants. In fact, the technology allows to increase the yield within 25-48%, reducing energy costs and reducing the energy footprint.
A healthy crop can be grown all year round, with much lower energy costs and no negative impact on the environment.
The basis for the creation of science-intensive and highly efficient phytotech complexes is the methodology for the formation of the light environment of plants in a regulated agroecosystem, developed jointly with Russian and foreign research institutes, and automated vegetation-irradiation equipment of various types with technological support for research purposes and for year-round continuous production of high-quality plant products. This is the result of accumulated knowledge and experience over many years of research with our scientific partners.
The development of these technologies was carried out for several decades by researchers from all over the world - 30 years ago it became obvious to farmers and farmers that growing food in the open field is more unsafe and not efficient enough. We managed to make a significant contribution to the development of greenhouse technology and food production. We continue to work every day to make our technologies even more efficient and accessible for people of all kinds of income and without it at all. So that in every kindergarten and in every home and office people receive wholesome food. Because plant-based nutrition is the basis of a healthy life and it has been experimentally established that it can stop the cancer epidemic.
A significant result in the development of food cultivation technologies was achieved by applying in practice an integrated approach to plant cultivation, and a number of revolutionary developments that became possible thanks to long-term cooperation with research institutions. So, in order to ensure a timely harvest, our greenhouses use an optimized light and special nutrient medium. And for light irradiation, a unique and extremely phyto-efficient light is used.
Instead of the sun - the most technologically advanced and biologically adequate LED lighting, which completely imitates sunlight. The radiation wavelengths, the density of the photosynthetic photon flux are selected in an optimal ratio for plants. In fact, the technology allows to increase the yield within 25-48%, reducing energy costs and reducing the energy footprint.
A healthy crop can be grown all year round, with much lower energy costs and no negative impact on the environment.
The basis for the creation of science-intensive and highly efficient phytotech complexes is the methodology for the formation of the light environment of plants in a regulated agroecosystem, developed jointly with Russian and foreign research institutes, and automated vegetation-irradiation equipment of various types with technological support for research purposes and for year-round continuous production of high-quality plant products. This is the result of accumulated knowledge and experience over many years of research with our scientific partners.
In the Russian Federation, our technologies were highly appreciated by the Institute of Biomedical Problems and the Institute of the Arctic and Antarctic. Specialists of the Department of Plant Light Physiology and Bioproductivity of Agroecosystems of the Agrophysical Research Institute of the Russian Academy of Agricultural Sciences were directly involved in research and development of application technologies. Work was also carried out at European Institutions.
In 2019, the results of 8-year research and testing with the Agrophysical Research Institute RASN, (St. Petersburg) of technologies for year-round intensive resource-saving production of high-quality plant products were published,
demonstrating record yields and high quality, with the most stringent environmental requirements.
demonstrating record yields and high quality, with the most stringent environmental requirements.
By 2020, a number of significant engineering complexes have been completed - autonomous programmable green plant factories for a wide variety of, including extreme climatic conditions and hard-to-reach places of residence of people.
Technology has incorporated the achievements of a range of scientific disciplines and is a new, environmentally friendly way of food production.
In international practice, these are the most effective technologies that exclude the ingestion of mutagens, carcinogens, pesticides and herbicides into food.
In international practice, these are the most effective technologies that exclude the ingestion of mutagens, carcinogens, pesticides and herbicides into food.
The methods of light irradiation, as well as the control of the state of organic compounds and plant productivity, developed on the basis of these studies, showed the most impressive ecological, quantitative and qualitative results, with the widest field of practical application. and highly appreciated by international colleagues of scientists, governments of different countries, industrial associations and individuals.
"Death of a person before 150 years is a violent death"
- Ivan Pavlov (1849 -1936) - an outstanding physiologist
- Ivan Pavlov (1849 -1936) - an outstanding physiologist
We made sustainable food production possible with the highest level of programmability and automation because we want everyone to be able to be part of the solution, not part of the problem.
This is not only an opportunity to prolong your active and healthy life, but also to really influence the situation on the entire planet.
Because a nutrition strategy is an opportunity for each person to significantly reduce their carbon footprint, which means to slow down the rate of destruction of the planet's ecosystems, or even stop the global extinction of species on our planet.
"Going vegan - a plant-based diet - is the most effective thing anyone can do to prevent climate catastrophe or slow climate change."
- Science magazine
- Science magazine
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