RU2019144630A - TAPERED NOZZLE SCRUBBER - Google Patents

Claims (1)

A conical nozzle scrubber containing a body with nozzles for dusty and cleaned gas, a nozzle irrigation device, support and limiting plates, between which a nozzle is located, a spray trap made in the form of a nozzle layer located between the support and limiting plates, and a device for removing sludge, moreover the support plates are made elastic, and the nozzle located above the lower support plate is made of elastic materials, for example, in the form of polyethylene balls, and a vibrator is installed on the lower support plate, and the nozzle is made in the form of hollow balls, on the spherical surface of which a helical groove is cut, or the nozzle is made in the form of a helical line formed on a spherical surface and having, in a cross-section perpendicular to the helical line, a profile such as a circle, polygon, "Berl saddle" or "Itallox" saddle, characterized in that the irrigation device is made in the form of an acoustic nozzle for spraying liquids containing th housing with a generator of acoustic oscillations placed inside in the form of a nozzle and a resonator, and a tube for supplying a spraying agent and liquid, and the housing is made in the form of a glass with a bottom, with a generator of acoustic oscillations located inside the housing in the form of a hollow rod with a wedge slot and a nozzle, when In this case, the liquid enters the annular gap made between the outer surface of the resonator and the inner surface of the nozzle, and the channel for supplying the liquid is located tangentially to the inner surface of the glass and is made in the form of a rectangular slot, while the air is supplied through the fitting in the housing and the resonator hole, and then enters in at least one wedge slot located at an angle with respect to the resonator axis, and the value of the angle is in the optimal range of values: 30 ° ÷ 60 °, and in the annular gap between the inner surface of the glass and the outer surface of the resonator there is a helical guide device that promotes creating a vortex p the outflow of fluid entering the channel, while the ratio of the distance h ₂ from the outer surface of the housing bottom to the lower end of the valve to the distance h from the outer surface of the housing bottom to the point of intersection of the axes of the inner cavity of the resonator with the wedge slot lies in the optimal range of values: h ₂ / h = 6 ÷ 10; the ratio of the distance h ₂ from the outer surface of the bottom of the body to the lower end of the valve to the distance h ₁ from the outer surface of the bottom of the body to the axis of the fluid supply channel lies in the optimal range of values: h ₂ / h ₁ = 1.5 ÷ 3; the ratio of the diameter d of the inner hole of the resonator to the diameter of the inner surface of the housing lies in the optimal range of values: d / d ₄ = 0.1 ÷ 0.3; the ratio of the diameter d of the inner hole of the resonator to the diameter d _{1 of the} outer surface of the resonator lies in the optimal range of values: d / d ₁ = 0.3 ÷ 0.7; the ratio of the nozzle diameter d ₂ to the diameter d _{1 of the} outer surface of the resonator lies in the optimal range of values: d ₂ / d ₁ = 1.3 ÷ 1.7; the ratio _{of the} nozzle diameter d 2 to the distance h ₁ from the outer surface of the body bottom to the axis of the fluid supply channel lies in the optimal range of values: d ₂ / h ₁ = 3.5 ÷ 4.5; the ratio of the diameter d of the inner hole of the resonator to the distance h from the outer surface of the bottom of the housing to the point of intersection of the axes of the inner hole of the resonator with the wedge slot lies in the optimal range of values: d / h = 0.3 ÷ 0.7.