Title :
The thermohydraulic generator-a pulse power source of intense pressure pulses
Author :
Hartmann, Werner ; Kieser, Jörg ; Rohde, Klaus-Dieter
Author_Institution :
Corp. Technol., Siemens AG, Erlangen, Germany
fDate :
10/1/2000 12:00:00 AM
Abstract :
Intense pressure pulses, often focused to form strong shockwaves, are used for a variety of medical and industrial applications. In this contribution, a new principle, the thermohydraulic generation of intense acoustic pulses, is reported, which promises a virtually unlimited lifetime. The energy efficiency is comparable to that of commercial shockwave sources based on the magnetodynamic principle. The underlying physics is that of the generation of strong thermoelastic waves in electrically conducting media, in particular, in electrolytes, by direct ohmic heating with intense current pulses. A simplified model is discussed to describe the pressure amplitudes and the influence of the thermoacoustic properties of the electrolyte. The source is scalable over a large range, and is arbitrarily adaptable in its shape. Large-area plane waves with amplitudes of up to 5 MPa have been achieved, as well as self-focusing geometry with peak pressures of over 50 MPa
Keywords :
acoustic pulses; biomedical equipment; convection; elastic waves; electrolytes; hydraulic systems; pulsed power technology; thermoacoustics; thermoelasticity; amplitudes; direct ohmic heating; electrically conducting media; electrolytes; energy efficiency; intense current pulses; intense pressure pulses; large-area plane waves; magnetodynamic principle; peak pressures; pressure amplitudes; pulse power source; self-focusing geometry; shockwave sources; shockwaves; strong thermoelastic waves; thermoacoustic properties; thermohydraulic generation; thermohydraulic generator; Acoustic pulses; Biomembranes; Electrodes; Electrodynamics; Energy efficiency; Geometry; Power generation; Pulse generation; Sparks; Thermoelasticity;
Journal_Title :
Plasma Science, IEEE Transactions on
