Miscellaneous.
The experimental researches of interaction of long-living plasma formations with a supersonic stream have been carried out also.
The plant for experiments with spherical plasma formations in a supersonic stream has been created.
General view of installation
Long-living plasma formations outside of digit area have been received:
Initial flash of the discharge
Branch of spherical plasma formation from the basic category
Plasma formation outside of a source
Spherical plasma formation outside of the discharge
Work of plant in a mode of burning of firm hydrocarbonic fuel
As a result of experiments the theory confirmed by experiment about division of a charge in a supersonic stream was worked out;
photographic data about development of spherical plasma formation are obtained;
the methods of quantitative diagnostics of parameters of the discharge is developed, quantitative results are received;
the opportunity stimulated burning of firm pastelike fuel in a supersonic stream is experimentally shown.
In 2006 at the laboratory some works on the experimental and theoretical processes of a volumetric detonation at dispersion of porous alkaline metals in water were carried out (supervisor of studies Velikodny V.Y.)
Theoretical and experimental preconditions for successful realization of the project
As a result of researches the Basic opportunity of realization of a volumetric detonation in water, by explosive dispersion potassiumor sodium was shown theoretically and experimentally;
the opportunity of essential excess of intensity of pressure on a long distance in comparison with dot explosion was demonstrated;
theoretical bases of mixture and reaction of substances in conditions of a turbulent mode of flow of reacting environments were developed;
the strict physical conclusion of expression for effective speed of chemical reaction in the turbulent environment was received;
various effects of a thermal emission are considered;
detailed numerical calculations of key parameters describing development of a turbulent jet of liquid sodium and its chemical interaction with surrounding water environment were made;
additional calculations of stream range (without reaction), i.e. lengths of its site on which it is established stoichiometric structure of a mix were made;
experiments on modelling process were made.
Realization of a volumetric detonation at dispersion of porous alkaline metals in water
The typical oscillogram of a dynamic component of pressure at operation of a charge in which in a tube there is an inert environment paraffin
The typical oscillogram of a dynamic component of pressure at operation of a charge in which in a tube there is a water
At comparison of results the amplitude of pressure on distance of 40 sm from an arrangement of a charge increases approximately in 2,5-3 times in case of presented on the last photo in comparison with penultimate. Thus, we experimentally have showen an opportunity of realization of effect of volumetric explosion at explosive dispersion potassium and sodium in water.
At the laboratory experiments on research of passage of shock waves in bubble environment are beeing made.
Devices for manufacture of microporous liquids and researches of shock waves structure.
Results
Foto from Nature №434, 2005
As a result of the analysis of experimental data on acoustic "nuclear transmutation":
the theory of structure of a shock wave in microporous liquids has been constructed;
the theoretical substantiation of an opportunity of achievement of "thermonuclear" temperatures (T=107 –108 K) in micro-bubbles at shock-wave compression in deuterated acetone and heavy water, barbotaged pairs these substances or gaseous heavy hydrogen has been made;
output of neutrons at reduction of microporous heavy water by a shock-wave generated by the ring discharge within the limits of (~108 - 1010)neutrons per an impulse has been measured.
