Endangered health - opportunity with efficient innovations

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Jan 20, 2020 the WHO predicts, that the mankind’s health will be dramatically impacted, especially by environment and climate problems, food and drinking water as well as by political and social conflicts. [1]. Medical prevention, research and healing will face major challenges. Cancer, viral and bacterial infections, fungal dis- eases and diabetes will continue to increase worldwide. Medicine is already reaching the limits of all-round effective therapies and the still rapidly increasing costs. All of this will have a negative impact on the respective national and global economies. WHO and EU are therefore looking urgently for defining of new ways to escape from this upcoming crisis, especially by prevention and research. A possible new approach was opened by Albert Einstein, al- ready around 100 years ago, with the predicti and fi discovery of the photoelectric effect. But this phenomenon is not really ap- plied ti today, neither in the fi of industrial technologies nor for medical therapies. However, the targeted use of the photon physics can make many physical, chemical and biological processes much more effi t compared to the traditi convecti or chemistry in form of pharmaceuti al products, which have reached their lim- its in many areas of healing. A typical current example is the mas- sive chemical and biological fi t against multi esistant germs. Thanks to Rustam Rakhimov’s in-depth research on photon- ics over many years, many valuable and practically solutions for energy efficient technologies as well as for medical therapies were explored and are selectively applied today. He developed special functional ceramics for targeted absorption of light and its transformation into other spectral ranges transmitted as IR.X radiation with high impulse energy to objects such as humans, animals, plants, microorganisms, solids, liquids or gases. image image KONVECTION IR.X PHOTONES Objects Solids, Materials, Liquids, Gases, Microorganisms, Plants, Animals, Humans Some of these IR.X solutions are already applied in various markets with high effectiveness. However some of them are still in the early stages of research and development though they of- fer highest potentials for energy saving or healing. In the following we focus on four directions impacting our health and demonstrate their positive potential by using IR.X photons. CLIMATE According to the most reliable forecasts, the emission of CO2 will increase from 34 to 40 Gt/a by 2040. The additional increase of fine dust in the air, a resulting global and ocean warming, the drastic reduction of agricultural areas and thus reduced harvest yields, less availability of drinking water are factors with a massive impact on our health, but also on that of animals and plants. IR.X photonics open a great opportunity and enable a pos- itive impact on the climate. Success factors are here the much more intensive use of solar energies in a big spectral range and the production and use of hydrogen. So the use of fossil energy sources can be reduced. image GtCO2/a image 44 42 40 38 36 35 34 32 Current trend 43 41 37 36 35 34 Real chance with IR.X 30 30 2020 2030 2040 2050 Yers NUTRITION In this area the following IR.X Photonic offer solutions as fol- lows. Concentrated photosynthesis, especially with solar energy influencing an increased growth of: Seeds for cereals, rice, corn, soybeans and similar plants; Production of high quality sprouts and germs - one of the high- est quality products in plant nutrition; Generation of fruits, vegetables, herbs and other high quality plant products in IR.X greenhouses, with increased air enrich- ment of CO2 in combination with lowered need for water, en- ergy and pesticides; Production of micro algae in large-scaled IR.X bioreactors - one of the most important food sources of the future, with high hectare yield potential. Thus the yield can be increased up to 5 times and the quality of the plant products will be no- ticeable improved in parallel; Drying and sterilising of agricultural products, especially with solar energy. The losses in the agriculture and food industry due to a lack of moisture and resulting fungal infection for roughly one third of the global production can be reduced to almost zero; Hygienic of the indoor air in animal houses for intensive live- stock farming using IR.X will suppress most viruses and bac- teria will contribute to reduce the application of antibiotics significantly. The animals feel better and become more pro- ductive. The animals’ products will be of a higher quality with a positive effect of the entire food chain; High quality cooking, baking, roasting, pasteurising, drying, frying etc. of food by IR.X. Vitamins etc. will stay stable contrib- uting to significantly improved food qualities leading to posi- tive effects on health. 12 Computational nanotechnology Vol. VII. № 1. 2020 ISSN 2313-223X Print ISSN 2587-9693 Online ENDANGERED HEALTH - OPPORTUNITY WITH EFFICIENT INNOVATIONS Hubert Jä., Rakhimov R.Kh., Peter J., Yermakov V.P. image Opportuniti s for efficiency improvement through IR.X under glass or plasti 2…3 × higher yield in kg/m2 × a 2…3 × higher use of Co2 2…3 × less energy 2…3 × less water Minimize pesti ides High product quality Analogously applicable to the producti n of microalgae and their drying State-of-the-art standard greenhouse 15 ha for tomatoes in Witt enberg (Germany) with 45 kg tomato per m2 INFECTION AND AIR CONDITIONING IN ROOMS Rooms in buildings and mobile living spaces increasingly become dangerous breeding places for fungi, bacteria and vi- ruses due to inadequate air conditioning and subsequently less infrared components contribution in the lighting based on en- ergy saving measures. Negative effects are more infections and allergies. For heating, cooling and ventilation based on convection about one third of all energy generated worldwide is needed; with a current CO2 quantity of 11 Gt/a. Heating systems with IR.X using photonic bring the following advantages: the reduced consumption of about 25% energy will contribute to reduce the CO2emissions by around 8,25 Gt/a. An addition- al impact on the development of fine dust is given; significant improvement of air quality in rooms for humans and animals, by reducing the viruses and germs in the air, com- bined with a significantly lower risk of infection, a stabilisation of the immune system and less diseases. This is accompanied by a reduced need of antibiotics. image IR.X heating and sanitation of rooms - opportunities: Reduction of energy consumpti n of 7.7 MWh/person × year Reduction of CO2 by 6.5 Gt/a worldwide Reduction of fungi, bacteria and viruses - significantly fewer infections image Considerable chances with photo resonance therapy (PRT) based on IR.X if successful Prevention Physiotherapy Therapy Sports medicine Anti-aging Behandlung eines infizierten Pati nten in Wuhan. Quelle: Xiong Qi/XinHua/dpa ISSN 2313-223X Print ISSN 2587-9693 Online Т. VII. № 1. 2020 Computational nanotechnology 13 ENERGY UNITS BASED ON RENEWABLE KINDS OF ENERGY ENERGY UNITS BASED ON RENEWABLE KINDS OF ENERGY 05.14.08 4. MEDICINE Since more than 25 years, mature resonance therapy solu- tions using IR.X based on photonics are available for the suc- cessful treatment of several diseases being caused in particular by various types of viruses, bacteria (including multi resistant germs) and fungi. In addition the supporting treatment of can- cer, diabetes, arthrosis, muscular injuries, open wound treat- ment and a variety of other fields of application opens further good chances of successful healing processes [2-5]. The current form of treatment is an efficient physiothera- py, being prophylactic or accompanying a regular healing. This already today results in successful effects without negative side impacts. By further intensifying this research and development area, the promising therapy should be brought into the status of a certified curative treatment. SUMMARY Together with global partners, the authors are going to con- vert these innovative photonic results, researched by Rakhimov, into industrial solutions, to market them worldwide and to make them available to everybody. Especially the areas of climate, nu- trition, indoor climate and medicine could be impacted positively.

About the authors

Jäger Hubert

Institute of Lightweight Engineering and Polymer Technology (ILK); Technische Universität Dresden

Email: p.john@rpe-infratherm.de
PhD, professor; Institute of Lightweight Engineering and Polymer Technology (ILK), Technische Universität Dresden, President and Chief Executive Officer Carbon Composites. Dresden, Germany

Rustam Kh. Rakhimov

SPA “Physics-Sun” Academy of Science of Uzbekistan

Email: rustam-shsul@yandex.com
Doctor of Engineering; head of laboratory № 1 Tashkent, Republic of Uzbekistan

John Peter

RPE InfraTherm GmbH

Email: p.john@rpe-infratherm.de
Doctor of Engineering, Doctor of Economics; Head of the RPE InfraTherm GmbH. Lichtenberg, Germany

Vladimir P. Yermakov

SPA “Physics-Sun” Academy of Science of Uzbekistan

Email: labimanod@uzsci.net
senior research associate of laboratory № 1. Tashkent, Republic of Uzbekistan

References

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