Patent ID: 7531131

Claim:
A vibration method for conditioning, air conditioning, cooling and decontamination, disinfection, sterilisation, comprising the steps of: forming a refrigerant stream ( 3 ) of gas molecules of a cooled medium by simultaneously i) regulating a first vibratory action ( 13 ) to act on a regulated input stream ( 2 ) before entering a refrigerating heat exchanger ( 1 ), the input stream being a medium ( 2 ) comprised of particles and molecules of a refrigerant; and ii) regulating a second vibratory action ( 11 ) to act on the medium ( 2 ) before entering into the refrigerating heat exchanger ( 1 ), the first and second vibratory actions being regulated under conditions for micronisation and pulverising of the medium ( 2 ) into an aerosol when entering into the refrigerating heat exchanger ( 1 ), the first and second vibratory actions being regulated to create conditions of cooling the input stream and the medium ( 2 ) within the refrigerating heat exchanger to form the refrigerant stream ( 3 ), the first and second vibratory actions being different vibratory actions; in a chamber ( 5 ) of the refrigerating heat exchanger ( 1 ), interacting the refrigerant stream ( 3 ) with a cold-absorbing medium ( 6 ); within the chamber ( 5 ), applying a third vibratory action ( 10 ) to the cold-absorbing medium ( 6 ) sufficient to decontaminate the cold-absorbing medium; applying a fourth action ( 15 ) to the refrigerating stream ( 3 ) to circulate the refrigerating stream ( 3 ) with a first regulating device ( 7 ) within a closed circuit; applying a fifth action ( 14 ) to the cold-absorbing medium ( 6 ) to circulate the cold-absorbing medium ( 6 ) with a second regulating device ( 8 ) within another closed circuit; and regulating a regulator ( 9 a ) of a power supply source ( 9 ), to individually vary frequencies and energy amplitudes of each of the first vibratory action, the second vibratory action, the third vibratory action, and the fourth action and the fifth action, wherein, the frequency of the second vibratory action ( 11 ) differs from the frequency of the first vibratory action ( 13 ) by at least a factor of 10.