RU2008101269A - EJECTOR FOR DOSING GAS-CHLORINE CHLORINE IN WATER - Google Patents

Abstract

1. An ejector comprising a unit for supplying a working medium (source water) under pressure, a nozzle, a working chamber, a mixing chamber, a diffuser, a unit for supplying an ejected medium (chlorine gas), a unit for discharging a mixed stream (treated with chlorine water), characterized the fact that the ejector is made with the configuration of the internal longitudinal section, the geometric parameters of which:! outlet nozzle diameter (D),! working chamber length (L),! mixing chamber diameter (D1),! mixing chamber length (L1),! diffuser length (L2),! diffuser output diameter (D2)! interconnected by a numerical ratio of sizes, namely:! D1 = 1.25D, D2 = 2.5D, L = 1.75D, L1 = 1.75D, L2 = 7.75D,! at which the maximum effective coefficient of ejection is achieved with a minimum flow rate of the working fluid, i.e. Q / R = α = max, where! Q is the flow rate of the ejected medium (chlorine gas),! R is the flow rate of the working medium (source water). ! 2. The ejector according to claim 2, characterized in that to increase (decrease) the ejector's chlorine productivity, the internal dimensions of the longitudinal section of the ejector L, D1, L1, D2, L2 in one scale determined by the value of the parameter D are increased (decreased) with the limit size deviation H14, ± IT14 / 2 (GOST 25346-89).

Claims (2)

1. An ejector comprising a unit for supplying a working medium (source water) under pressure, a nozzle, a working chamber, a mixing chamber, a diffuser, a unit for supplying an ejected medium (chlorine gas), a unit for discharging a mixed stream (treated with chlorine water), characterized the fact that the ejector is made with the configuration of the internal longitudinal section, the geometric parameters of which: outlet nozzle diameter (D), working chamber length (L), mixing chamber diameter (D ₁ ), mixing chamber length (L ₁ ), diffuser length (L ₂ ), diffuser outlet diameter (D ₂ ) interconnected by a numerical ratio of sizes, namely: D ₁ = 1.25 D, D ₂ = 2.5 D, L = 1.75 D, L ₁ = 1.75 D, L ₂ = 7.75 D, at which the maximum effective coefficient of ejection is achieved with a minimum flow rate of the working fluid, i.e. Q / R = α = max, where Q is the flow rate of the ejected medium (gaseous chlorine), R is the flow rate of the working medium (source water). 2. The ejector according to claim 2, characterized in that for increasing (decreasing) the chlorine ejector productivity, the internal dimensions of the longitudinal section of the ejector L, D ₁ , L ₁ , D ₂ , L ₂ in one scale determined by the parameter value are increased (decreased) D, with a maximum deviation of sizes H14, ± IT14 / 2 (GOST 25346-89).