top of page

HIGH FREQUENCY ULTRASOUND

Our patented ultrasound technology revolutionizes well regeneration and water treatment and sets new standards in water management.

Ultrasonic probe for well regeneration
100%Eco
UNIQUE IN THE WORLD
Made in Germany
Technologie

SAVING THE WORLD WITH NEW TECHNOLOGY

With our technologies, we want to make a positive contribution to tackling global challenges such as water scarcity, pollution and health risks. Join us on our journey to change the world through clean water. After more than 5 years of intensive development work by our German engineering team, we present groundbreaking & unique water solutions that are intended to help save our environment in the field of water.

German engineering for a better world

Wasseraufbereitung

Brunnenregenerierung

&

100% UMWELTFREUNDLICH

UNSERE REVOLUTIONÄRE & PATENTIERTE TECHNOLOGIE BASIERT AUF

  • HOCHFREQUENZ-ULTRASCHALL

  • OZON-ANLAGEN

  • MODIFIZIERTE UV-EINHEITEN

Eine Technologie -
                  Viele Vorteile 
      

  • Günstiger als herkömmliche Verfahren

  • 100 % umweltfreundlich

  • Spart signifikant Energiekosten

  • für alle Brunnen und Wasseranschlüsse

  • Inaktivierung bedenklicher Inhaltsstoffe

  • Schont die Brunnenstruktur und Leitungen

Years of research and development result in groundbreaking ultrasound probe

Today we are proud and excited to present the fruits of years of research and development: our new ultrasound probe. This innovative product, meticulously perfected by a team of nine dedicated German engineers, is ready to make the world a better place.

Innovation with passion

Our engineers have worked tirelessly for years to develop this groundbreaking ultrasound probe. They were driven by the passion to create something that makes a real difference. They spent countless hours tinkering with concepts, refining the technology and optimizing performance. Their commitment and expertise paid off: the result is an ultrasound probe that sets new standards in terms of precision, efficiency and reliability.

WITHOUT CHEMICALS & ABSOLUTELY ENVIRONMENTALLY FRIENDLY

Unlike conventional methods, which often use aggressive chemicals and pollute the environment, our technology cleans thoroughly and efficiently - without any chemicals. Powerful sound waves dissolve deposits, biofilms and contaminants even in hard-to-reach areas, ensuring gentle yet deep pore cleaning.

Ultrasonic cleaning: The power of cavitation to purify water

Ultrasonic cleaning is a process that uses high frequency sound waves to create cavitation bubbles in a liquid, usually water, to effectively remove contaminants from various surfaces. This process, known as acoustic cavitation, involves the rapid formation, growth and collapse of these microscopic bubbles, creating intense energy that loosens and disperses contaminants.

Mechanism of ultrasonic cleaning:

1. Formation of cavitation bubbles:

  • High frequency sound waves (usually between 20 kHz and 100 kHz) are introduced into the liquid medium.

  • These sound waves create pressure fluctuations, causing the fluid to expand and contract rapidly.

  • During the expansion phase, localized areas of low pressure form, leading to the nucleation and growth of cavitation bubbles.

2. Bladder growth and expansion:

  • The cavitation bubbles, filled with steam and dissolved gases, continue to grow under the influence of the sound waves.

  • The growth phase is relatively slow and typically lasts several microseconds.

3. Bubble collapse and implosion:

  • When the pressure cycle of the sound wave reverses, the cavitation bubbles collapse quickly due to the high ambient pressure.

  • This collapse, known as an implosion, occurs within a microsecond and releases an enormous amount of energy in a localized area.

Effects of implosion on contaminants:

1. Microscopic shock waves:

  • The imploding bubbles generate intense shock waves that radiate from the collapse site.

  • These shock waves can reach peak pressures of several thousand atmospheres, which far exceed the tensile strength of water.

2. High shear forces:

  • The rapid collapse of the bubbles also creates high shear forces in the surrounding fluid.

  • These shear forces can decompose and disperse contaminants adhering to surfaces.

3. Nozzle effect:

  • The imploding bubbles can also create microjets of liquid that hit nearby surfaces.

  • The impact of these microjets can further loosen and remove contaminants .

Effectiveness of ultrasonic cleaning:

Ultrasonic cleaning is particularly effective at removing a wide range of contaminants, including:

  • Oil, fat and other organic substances

  • Metal particles, rust and other inorganic deposits

  • Pollen, bacteria and other microorganisms

 

Their effectiveness is based on the combination of microscopic shock waves, high shear forces and jet effects generated by cavitation bubbles that can penetrate even the most delicate and recessed areas of objects.

Applications of ultrasonic cleaning:

Ultrasonic cleaning is used in various industries, including:

  • Cleaning of medical and dental instruments: Sterilization of surgical instruments and dental equipment.

  • Cleaning of electronic and precision components: Removal of contaminants from sensitive electronic components and precision parts.

  • Cleaning of jewelry and watches: restoring shine and removing dirt from jewelry and watches.

  • Cleaning of automotive and industrial parts: Degreasing and cleaning of engine components, industrial machine parts and other metal parts.

  • Cleaning of laboratory ware and analytical equipment: Ensuring the cleanliness of laboratory ware and analytical instruments.

Advantages of ultrasonic cleaning:

  • Effective removal of stubborn dirt

  • Gentle cleaning process that does not damage delicate objects

  • Reaches complicated and secluded areas

  • Environmentally friendly as no aggressive chemicals are required

  • Can be used with a variety of cleaning solutions

Ultrasonic probe for regeneration of groundwater wells
bottom of page