RU99106668A - METHOD FOR LIQUID HEATING AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (22)

1. A method of heating a fluid by mechanically acting on it, including supplying the exposed fluid to a cavity of a rotating wheel, displacing said fluid from a cavity of a rotating wheel into a ring-shaped chamber formed by a peripheral cylindrical surface of said wheel and a concentric surface of the stator, wherein said displacement carried out through many outlet openings located on the peripheral cylindrical surface of the rotating wheel and equally but distributed over its periphery, and the liquid outlet from the chamber of annular shape is performed through at least one outlet, wherein the radius R of the peripheral surface of the rotary wheel are determined number K of outlets in accordance with the relation
R = (1.05 ... 1.28) K (mm),
and the rotational speed n of the rotating wheel is determined by the above number K in accordance with the ratio
n = (3.6 ... 4.1) K ^-1.5 x 10 ⁶ (rpm.). 2. The method of heating a liquid according to claim 1, in which the radius R of the peripheral cylindrical surface of the rotating wheel is determined by the nominal value of the number K of the outlet openings in accordance with the ratio
R = 1.1614 K (mm),
and the wheel speed n is determined by the nominal value of the number K in accordance with the ratio
n = 3.8396 K ^-1.5 x 10 ⁶ (rpm.).  3. The method of heating the liquid according to claim 1 or 2, in which the displacement of the liquid from the annular chamber formed by the peripheral cylindrical surface of the specified wheel and the concentric surface of the stator is carried out through at least one outlet located on the concentric surface of the stator, at least one hole is periodically aligned with the wheel outlet as it rotates. 4. A method of heating a liquid by mechanical stresses on it, including the use of: a rotor including a shaft mounted on bearings of at least one rotating wheel attached to the shaft and made in the form of a disk with a peripheral ring-shaped wall, while there are many liquid outlet openings, and said openings are evenly distributed around the periphery of said annular wall, a stator in which a wheel rotates having an inlet for receiving dices and an outlet for displacing the liquid, as well as the cavity of the rotating wheel, providing communication of the liquid being treated with the stator inlet, and an annular chamber for the liquid being treated, radially bounded by the peripheral annular wall of the rotating wheel and the concentric wall of the stator, while the annular-shaped chamber communicates with the stator outlet for the liquid displacement, and the characteristic geometric the dimensions of the annular chamber are determined as follows: the radius R of the cylindrical outer surface of the peripheral annular wall of the rotating wheel is determined by the ratio
R = (1.05 ... 1.28) K (mm),
where K is the number of exhaust holes in the rotating wheel, and the radial size ΔR of the annular chamber is determined by the ratio
ΔR = (1.05 ... 1.28) B (mm),
where B is an integer selected from the interval 1 ... K / 2; and a rotor drive device providing its rotation with a frequency n equal to
n = (3.6 ... 4.1) K ^-1.5 x 10 ⁶ (rpm).  5. The method of heating the liquid according to claim 4, in which the stator has a cavity serving to receive fluid from the annular chamber communicating with the outlet of the stator, which serves to displace the fluid, while the specified stator cavity communicates with the annular chamber through a plurality of outlet openings located on the concentric wall of the stator in the same plane with the outlets of the rotating wheel and evenly distributed around its periphery, and the number of outlets in the concentric wall of the stator , which determines the limit of the exhaust ability of the annular chamber, is an integer from 1 to K. 6. The method of heating a liquid according to claim 4, in which the radius R of the outer surface of the peripheral annular wall of the rotating wheel is:
R = 1.1614 K (mm),
where K is the number of exhaust holes, and the radial size ΔR of the annular chamber is:
ΔR = 1.1614 B (mm),
where B is an integer selected from the interval from 1 to K / 5.  7. The method of heating a liquid according to claim 6, in which the stator has a cavity that serves to receive fluid from the annular chamber in communication with the outlet of the stator, which serves to displace the liquid, wherein the stator cavity communicates with the annular chamber through a plurality of outlet openings located on the concentric wall of the stator in the same plane with the outlets of the rotating wheel and evenly distributed around its periphery, and the number of outlets in the concentric wall of the stator , which determines the limit of the exhaust ability of the annular chamber, is an integer from 1 to K.  8. A method of heating a fluid by mechanical means, comprising the steps of: imparting rotation to a wheel relative to a stator, said wheel having at least one cavity defined by a peripheral cylindrical surface attached to said wheel and arranged concentrically with respect to the axis of rotation of said wheel, said stator communicates with an outlet having at least one concentric surface located concentrically relative to said peripheral the cylindrical surface of the specified wheel, due to which an annular chamber is formed between the specified at least one concentric surface and the specified cylindrical surface, the specified cylindrical surface additionally has many outlet openings located at equal distance from each other on the periphery of the specified cylindrical surface, and the specified concentric the stator surface has many outlet openings located at an equal distance from each other in an environment the specified concentric surface of the specified stator, the supply of the specified fluid into the specified cavity of the specified wheel during its rotation, the release of fluid from the cavity of the wheel into the specified annular chamber through a plurality of outlets located on the peripheral cylindrical surface of the wheel, the excitation of sound vibrations in the specified fluid at a given speed rotation of the specified wheel, and the release of fluid from the specified annular chamber through at least one of these outlet openings holes in the concentric surface of the stator. 9. The method of heating a liquid according to claim 8, in which the frequency of sound vibrations excited in the liquid is approximately related to the number of exhaust openings of the specified wheel in the following ratio:
F = 63.993 K ^-0.5 (kHz),
where F is the oscillation frequency, and K is the number of exhaust holes in the cylindrical surface of the specified wheel. 10. The method of heating a liquid according to claim 8, in which the radius of the peripheral cylindrical surface of the rotating wheel and the speed of its rotation are related to the number of exhaust holes in the cylindrical surface of the specified wheel with approximately the following ratio:
R = (1.05 ... 1.28) K (mm),
n = (3.6 ... 4, l) K ^-1.5 x 10 ⁶ (rpm),
where R is the radius of the cylindrical surface of the rotating wheel, K is the number of exhaust holes in the cylindrical surface of the specified wheel, and n is the specified speed.  11. The method of heating the liquid according to claim 9, in which the liquid is discharged from the annular chamber formed by the peripheral cylindrical surface of the wheel and the concentric surface of the stator through the outlet openings in the stator during wheel rotation, sequentially combining them with the outlet openings of the wheel.  12. The method of heating a liquid according to claim 11, in which the number of exhaust holes in the concentric surface of the stator is equal to the number of exhaust holes in the cylindrical surface of the wheel. 13. A device for heating a fluid by mechanical means, comprising a housing having an inlet for supplying fluid to said housing and an outlet for discharging fluid from said housing; at least one wheel mounted for rotation in the specified housing and adapted for rotation, consisting of at least one disk and located near the inlet of the specified case, while the specified disk has a peripheral annular wall in the form of a hollow cylinder attached to the outer the circumference of the specified disk, in the surface of the specified first cylinder there are many outlet openings located at a certain distance from each other around the circumference of the specified cylin core, and the radius R of the cylindrical outer surface of the peripheral annular wall of the wheel is within approximately
R = (1.05 ... 1.28) K (mm),
where K is the number of wheel outlets and a stator, wherein said stator includes at least one hollow cylinder concentric surface with a plurality of outlet openings spaced equidistant from each other around the circumference of said cylinder attached to said housing and arranged concentrically relative to said wheel cylinder, whereby an annular chamber is formed between said wheel and stator cylinders, said outlet openings of said stator communicate with the outlet of the housing, and the radial size ΔR of the annular chamber is in the range of approximately
ΔR = (1.05 ... 1.28) B (mm),
where B is an integer selected from the interval from 1 to K / 2. 14. A device for heating a liquid according to claim 13, characterized in that the radius R of the outer surface of the cylinder forming the peripheral annular wall of the wheel is approximately equal
R = 1.1614 K (mm),
where K is the selected number of wheel outlets, and the maximum radial size ΔR of the annular chamber is approximately equal
ΔR = 1.1614 B (mm),
where B is an integer selected from the interval from 1 to K / 5.  15. A device for heating a liquid according to claim 14, further comprising a plurality of concentric surfaces of the stator, each of which has its own radius, and at least one of which is located concentrically relative to the specified cylinder of the wheel, due to which the outlet openings of the specified at least one concentric the stator surfaces are successively aligned with the outlet openings of said wheel in at least one dimension while said wheel is rotating.  16. A method of acoustic heating of a fluid by mechanical means, comprising the steps of: supplying said fluid to a central cavity of a wheel rotatably mounted in a stator, said wheel having at least one peripheral cylindrical surface with a plurality of outlets located at equal distance from each other around the circumference of said peripheral cylindrical surface formed by said wheel and said stator having a concentric surface a shaft with a plurality of outlet openings located at equal distance from each other on the circumference of the concentric surface of said stator and close to said peripheral cylindrical surface of said wheel, due to which an annular chamber is formed, imparting rotation to said wheel in order to supply said liquid to said annular chamber through said outlet openings in said peripheral cylindrical surface at a speed sufficient to create during rotation I said wheel acoustic oscillations in said fluid inside said annular chamber, and fluid from the annular chamber through the at least one outlet opening in the stator concentric surface.  17. The method of heating a liquid according to claim 16, wherein the liquid is discharged from the annular chamber through a plurality of outlet openings in the concentric surface of the stator as the outlet openings are periodically located opposite the outlet openings of the wheel during its rotation.  18. A device for heating a liquid by sound vibrations, comprising: a housing having an inlet opening for supplying liquid, and an outlet opening for discharging liquid; at least one wheel mounted for rotation and consisting of at least one disk located close to the inlet of the specified case, the specified disk has a peripheral annular wall in the form of a hollow cylinder attached to the outer circumference of the specified disk and forming at least at least one cavity, and in the surface of the specified cylinder of the wheel there are many exhaust holes located at a certain distance from each other around the circumference of the specified cylinder, OR, comprising at least one concentric surface in the form of a hollow cylinder attached to the specified housing and located concentrically relative to the specified wheel cylinder, whereby an annular chamber is formed between the indicated wheel cylinders and the stator, which serves for the flow of the specified liquid, while in the specified cylinder the stator there are many outlet openings located at an equal distance from each other around the circumference of the specified cylinder and communicating with the outlet to Busan, and means for imparting rotation to said wheel at a speed sufficient to excite acoustic waves in a liquid contained in said annular chamber.  19. A device for heating a liquid according to claim 18, in which the wheel is provided with at least one blade. 20. A device for heating a liquid according to claim 18, in which the radius R of the cylindrical outer surface of the peripheral annular wall of the wheel is approximately equal
R = 1.1614 K (mm),
where K is the selected number of wheel outlets, and the maximum radial size ΔR of the annular chamber is approximately equal
ΔR = 1.1614 B (mm),
where B is an integer selected from the interval from 1 to K / 5.24.  21. A device for heating a fluid by sound vibrations, comprising a housing having an inlet opening for supplying liquid to the treatment, and an outlet opening for discharging the liquid after processing; at least one wheel mounted to rotate at a speed sufficient to excite sound vibrations in the liquid, wherein said wheel consists of at least one disk located adjacent to the inlet of the housing, said disk has a peripheral annular wall in the form of a hollow a cylinder attached to the outer circumference of the specified disk and forming at least one cavity, and in the surface of the specified cylinder of the wheel there are many outlet openings located data at a certain distance from each other around the circumference of the specified cylinder, the stator comprising at least one concentric surface in the form of a hollow cylinder attached to the specified housing and located concentrically relative to the specified wheel cylinder, due to which an annular chamber is formed between the specified wheel cylinders and the stator , which serves for the intake of the specified liquid, while in the specified cylinder of the stator there are many outlet openings located at an equal distance from each other circumferentially of said second cylinder and communicating with the outlet of the housing.  22. A device for heating a liquid according to claim 21, in which the wheel is equipped with many blades.