ultrasound

1. ultrasound algae killer

2. Agenda: Benefits of DUMO Algacleaner. Applications. Cases. Ultrasound technology. The problem with algae. Algae and biofilm. Research agreements. Algae destruction and inhibition. Research: Labs and field tests. DUMO Algacleaner.

3. 1. Benefits of DUMO Algacleaner • Controls and prevents the emergence and growth of algae and biofilm. • Avoid chemical biocides • Low power consumption. Available solar energy. • Application of several ultrasonic frequencies for different algae species. • Easy installation and maintenance. • Safe for humans, animals and plants.

4. 2. Applications • Ponds • Friendly for fish andwaterplants. • Easy to install and maintain. • Irrigation • Prevents clogging of filters. • No chemicals are necessary.

5. 2. Applications • Lakes and reservoirs • Solar system available. • Optimum installation of multiple devices covers efficiently large surfaces. • Fish-farms • Safe for animals. • Controls algae, biofilm and pathogens.

6. 2. Applications • Swimming-pools • Reduces chlorine doses. • Eliminates biofilm. • Cooling towers • Prevents biofilm and pathogens. • Reduces chemical treatments.

7. 3. Cases: Irrigation The water that fills the irrigation pond comes from a channel that adds a lot of slime and nutrients, which increase aggressive algae bloom in summer. "We continually had the filters clogged by algae, and this was a real problem for drip irrigation that we tried to avoid it even with chemical biocides. This was finally resolved with the installation of DUMO Algacleaner “. Christophe Bouchet Production Manager Primor Fruit S.A., San José Farm Seville, Spain

8. 3. Cases: Irrigation “After six months, the water is still clean and without algae. I am very happy with this device that avoid any chemical addition as copper sulphate. It is more economical and, of course, ecological.” AlexandreAdnot Owner, Los Algodonales Farm Alcalá del Río, Spain

9. 3. Cases: Ornamental lake "... The lake water has remained in perfect condition, without algal blooms, loss of transparency or odor formation, demonstrating a good performance of the installed equipment and the effectiveness of ultrasound treatment.“ Luis Piñana Area Manager, Acciona Agua Madrid, Spain

10. 4. Cases: Singular place “The eight ultrasonic units installed in the ornamental channel -horseshoe shaped- of the emblematic Plaza de España in Seville, have succeeded in eradicating the problem of algae and odors.” Antonio Díaz Operations Manager, EMASESA Seville, Spain

11. 4. Cases: Water treatment “The equipment Algacleaner has prevented the formation of a higher type of algae (Lemna) that floats on the surface of the ponds when the water has good quality.“ Site: Ulldecona WWTP Pedro Polo Commercial Director, Acciona Agua Barcelona, Spain Before and after

12. 4. Ultrasound technology • Sound is a wave where excited magnitude is pressure. • Ultrasounds are a kind of sonic waves which frequencies are over 20 kHz (maximum limit detectable by the humans). • As sound, ultrasounds need a medium for propagation. In the case of DUMO Algacleaner it is the water. • Sound waves are 5.5 times faster in water than in air. 20 kHz 20 Hz Ultrasound Infrasound Acoustic

13. 4. Ultrasound technology • Ultrasound is a pressure wave that propagates through a medium. • Successive pressures, (+) and (-), mean that the particles move and propagate the wave. • The amplitudeof the wave(A)determines the power (P), (P = E/t, E = mω2A2/2) and especially the intensity I(P/S), measured in W/cm2. Sound or sonic pressure Sound is a wave of positive and negative pressures

14. 5. Ultrasound technology: DUMO • DUMO Algacleaner offers a great output power, resulting in microcavitation in small closed areas (as an aquarium). • However, thanks to its design, cavitation in open areas disappears and this great power wave passes to get coupled and adapted, penetrating the water, reducing losses and increasing its reaching distance and destructive power. • Ultrasound can eliminate algae without cavitation but only if there is a powerful ultrasonic pressure source. • Additionally to power, other parameters such as frequency, shape and timing of the pulses are necessary.

15. 4. Ultrasound technology: DUMO • The appropriate ultrasonic wave propagation affects only algae, not higher plants or vertebrates. • Algae spores and their germination are dramatically reduced. • Bacteria show similar behaviour to algae (disintegration and / or inhibition). • All those water surfaces under the sonication area, will be environmentally controlled, and the problem caused by algae and other microorganisms, resolved.

16. 4. Ultrasound technology: Effects • Source of pressure which may act on a gas vesicle inside a protasyotic cell: • (a) atmospheric pressure; • (h) hydrostatic pressure due to depth; • (t) cell turgor pressure; • (c) pressure from surface tension at the cell wall, and over-pressure caused by ultrasonic pulses; • (s) pressure from surface tension at the gas vesicle wall and over-stress due to intracellular over pressure; • (g) pressure of the vacuole gas. Diagram based on reference 108 of The Royal Society (London), completed with our own research.

17. 5. The problem with algae • There are algae in all aquatic environments, and even humid terrestrial ones. • Microscopic algae are common in coasts, reservoirs, irrigation ponds and channels, ponds, swimming-pools, water tanks and cooling towers. • If algal concentration grows rapidly (bloom), water color turns to green, yellow or red. • These blooms are usually the result of an excess of nutrients in the water (eutrophication). Filamentous green algae Diatom algae

18. 5. The problem with algae • Adverse effects • Many facilities are severely compromised (pumps, pipes, sprinklers, etc). • Odors occur because of bacteria. • The resulting decrease in dissolved oxygen in water increases the mortality of fish and insects. • Some types of algae produce neurotoxins, a very harmful biological impact on the environment. • Health problems in swimming-pools, contaminated cooling towers, etc. Algal bloom

19. 6. Algae and biofilm • The algae are susceptible to get damaged when it is vibrated at a critical frequency. • The easiest species to remove are the blue-green bacteria types, generally known as cyanobacteria. • The gas vacuole contains many small cylindrical vesicles 75 x 300 nm in size, often in groups. • The wall of the gas vacuole, which is permeable to gases but water, is about 2 nm thick. • These vacuoles are found primarily in plankton cyanobacteria, and their main purpose is to float or sink to get the optimum amount of nutrients and solar energy. • Some fungi and archaea bacteria have gas vesicles and are also affected by ultrasound.

20. 6. Algae and biofilm • Transverse section of a dividing cell of the cyanobacteriumMicrocystis sp., showing hexagonal stacking of the cylindrical gas vesicles. Micrograph by H. S. Pankratz). Magnification x31,500

21. 7. Research agreements • Cooperation agreements with European and local universities. • New DUMO Algacleaner has been developed, supported and verified by different Physics and Biological authorities.

22. 8. Algae destruction • Phytoplankton chlorophyll, which allows it to capture solar energy, is a basic parameter to determine the active biomass. • The application of ultrasounds reduces the density of filaments and increases the cell disruption.

23. 8. Algae destruction • The destruction of the cells causes the release of chlorophyll to the medium. • The analysis shows a decrease in mg of chlorophyll A, and in the number of cells.

24. 8. Algae inhibition • Algae, fungi, protozoa and other eukaryotic, aquatic microorganisms reproduces by a mitosis process. • Chromosomes, the carriers of the DNA, settle in the centre of the cell and then splits and moves to opposite sides. The cell membrane then constricts and separates the mother cell into two daughter cells. • This phase, called anaphase, is mediated by fibres known as microtubules, which assemble from the sides to the centre of the chromosomes. • Any disturbance whatsoever destabilize the microtubule chain, will prevent cells from multiplying. • This is how the ultrasonic pulses disrupt the polymerization of the microtubules, thereby stemming cellular growth. Dr. Liang Gao, Howard Hughes Medical Institute, Janelia Farm Research Campus, Ashburn, Virginia, USA Dr. Martin Huss, Department of Biological Sciences, Arkansas State University, USA

25. 8. Algae inhibition • Chlorophyll A naturally increases without the application of US. • When DUMO Algacleaner is applied to, chlorophyll A density not only maintains but reduces in medium volume.

26. 9. Research: Labs • The Biotechnology Department of Toscano Medioambiente, after several years of rigorous experiments, has developed the technology behind DUMO Algacleaner. • This technology, thanks to the optimal production of ultrasonic waves, has come to be an innovative technique for efficient control of algae blooms.

27. 9. Research: Labs Tests show, according to the reports from Bioindication Group of the University of Seville, the breaking of filaments and the destruction of algae cells. Withouth sonication 2 min. sonication 5 min. sonication

28. 9. Research: Labs

29. 9. Research: Labs

30. 9. Research: Field tests Moret Park - Huelva, Spain Mobile device for field tests

31. 10. DUMO Algacleaner: Certified production The manufacturing process of DUMO Algacleaner is performed under environmental and quality standards (ISO14001 and ISO9001), certified by Bureau Veritas.

32. 10. DUMO Algacleaner: Installation

33. 10. DUMO Algacleaner: Specifications • Float • User manual • Control box • Transducer and cable • Stainless steel anchorage • Fixing clamps

34. 10. DUMO Algacleaner: Video 

35. 10. DUMO Algacleaner: Highlights • Effectiveness against algae • Our equipments emit different frequencies, harmonic among them, creating waves of different length. This effect generates effective wavefronts against algae. • Water coupling (matching) • Our transducer incorporates a special elastomer that adapts the transmitter to the water density, resulting in a more effective penetration of ultrasonic waves (reaches longer distance and more powerful). • Power released to the medium (acoustic pressure). • Power is important because not only the pulses go further, but because they come strongly enough to damage and inhibit algae growth. • A proof of our effectiveness is microcavitation on the precise threshold, that pulses achieve to penetrate the water. • Electric power • Mean maximal peak. Because it is a system emitter of pulses, the effective average power is four times smaller. • DUMO Algacleaner • This is the system with the best balance among these parameters (Signal / Coupling / Pressure / Power) in the market.

36. DUMO Ultrasonic Technology More solutions for water and biosolids A full range of OEM products references

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