Controlled Cavitation

The Energy Source for the Future

BREAKING NEWS - Our two pending patents have beeen allowed Our earlier patent U.S Patent application 12770422, Filed April 29, 2010, U.S. file number 65296.US Apparatus for Recovering Energy from Water has been allowed. The patent number is 10018078 Our second and more recent patent application, filed 05/16/2016 titled Cavitation Engine, U.S. Patent Application 15155338 file number 69935.US has been allowed and the patent number is 9995479. Our earliest patent Generation of steam by impact heating has a patent number of 9574765.

SUCCESSFUL UPGRADES - See our latest work The latest work at Florida Microelectronics

NEW - Our partnership with CEEPL India We are now significant partners with our Indian Division in Research and Development and Manufacturing. CEEPL, Cavitation Energy Engine Private Ltd is based at The Nilgiris and having our R&D unit at Coimbatore, Tamilnadu

NEW - View our Latest Video Presentation on the use of cavitation steam and enhanced oil recovery technology and other exciting applications.

NEW - View a short Overview of our most recent Video Presentation on the use of cavitation steam and enhanced oil recovery technology and other exciting applications.

NEW - Read our latest whitepaper on the use of cavitation steam and enhanced oil recovery technology.

NEW - Latest Copy of Patent Application Read the details of the 2016 patent application

NEW - Latest Copy of Patent Application Read the full text - 53 pages.

NEW - Update from India Read about and view the latest progress we have made on the design of the cavitation impact chamber completed during our stay in India.

Cavitation, the process of vaporization, bubble generation and bubble implosion in a flowing liquid is used as the underlying process within the Cavitation Engine.

The cavitation engine uses mechanical energy to convert water to steam via the process of cavitation and subsequent bubble collapse. Conventional automotive fuel injectors are used to accelerate water saturated with cavitation nano-bubbles at a specially designed impact target.

Modern diesel injectors are designed to enhance cavitation in the fuel being injected into combustion chambers. In the case of the cavitation engine, water is used instead of diesel fuel.

During the collision enormous hydraulic pressures collapse the bubbles within the injection volume. Cavitation bubbles have the remarkable ability to focus intense energy and forces during their collapse. The resulting heat energy contributes to the continuous creation of superheat steam within the impact and expansion chambers.

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featured Properties

  • Steam Generation

    In the Cavitation Engine, the water explodes upon impact within the walls of the impact chamber creating super-heated dry steam.

  • Bubble Power

    Cavitation bubbles have the ability to focus intense energy and forces during their collapse. The resulting heat energy contributes to the creation of superheat steam within the impact and expansion chambers.

  • Oxy-Hydrogen Explosions

    The impact system which will produce continuous oxy-hydrogen explosions... The eventual system will more than likely employ tri-generation, wherein we produce electrical power and use the heat for distillation (desalination) and absorption cooling.

STEAM GENERATION

Approximately 85% of the electricity generated in the world is produced through steam and this figure is close to 90% in the U.S.  Anything that improves efficiency of the process by which steam is produced will have a significant impact on the power generation industry.

For centuries steam has been produced by the isobaric heating of water. Peer reviewed research suggest that hydraulically pressurized water injected at hypersonic velocities impacting the target would be a more efficient way of producing steam compared to conventional Rankine isobaric cycle heating.

Additional papers reinforced the suggestion that enormous physical forces could contribute to the separation of water molecules and the conversion of kinetic energy into heat. Our experiments have validated that indeed. An additional advantage would be the ability to electronically control the volume of steam production while not requiring a physical boiler.

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CES PRESENTATION

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