Aerosol dispenser assembly having VOC-free propellant and dispensing mechanism therefor

What is claimed: 1. An aerosol dispenser system comprising: an enclosed container accommodating a liquid product and being pressurized with a VOC-free compressed gas propellant; a valve assembly coupled to and in fluid communication with the container; an actuator body coupled to and in fluid communication with the valve assembly; and at least two swirl nozzle inserts coupled to and in fluid communication with the actuator body, the at least two swirl nozzle inserts comprising a cylindrical side wall connected to an end wall, the cylindrical sidewall having a diameter D less than 4,000 μm defining an open bottom, the end wall comprising a recess that defines a swirl chamber, the end wall further comprising an outlet orifice connected to the swirl chamber and the end wall further comprising at least one inlet slot extending inward from a junction of the cylindrical sidewall and end wall towards the swirl chamber, the outlet orifice having a diameter d o and an axial length L o , the axial length L o being less than 250 μm, the swirl chamber having a diameter D s , the inlet slot comprising a width d p , a height Ls, and a cross-sectional area d p ×L s defined by said width d p and height L s , number of inlet slots N ranging from 1 to 6, d o , D s and a cumulative cross-sectional area of the N slots, d p ×L s ×N, being optimized to maintain a Sauter Mean Diameter D[3,2] of particles exiting the outlet orifice of less than 51 μm at an output rate of at least 1.5 g/s when the aerosol dispensing system is charged with an aqueous product and pressurized with an VOC-free, compressed gas propellant. 2. The aerosol dispenser of claim 1 wherein d o is less than about 210 μm. 3. The aerosol dispenser of claim 1 wherein D s is between 2,000 and 3,000 μm. 4. The aerosol dispenser of claim 1 wherein the cumulative cross-sectional area of the N slots, d p ×L s ×N, is less than about 170,000 μm 2 . 5. The aerosol dispenser of claim 1 wherein the at least two swirl nozzle inserts comprise from 2 to 4 swirl nozzle inserts and the spray rate ranges from about 1.5 to about 2 g/s. 6. An aerosol dispenser and product assembly comprising: a nozzle comprising at least two swirl nozzle inserts and an actuator body, each swirl nozzle insert comprising a cylindrical side wall connected to an end wall, the cylindrical sidewall defining an open bottom and having an inner diameter D less than 4,000 μm, the end wall comprising a recess that defines a swirl chamber having a diameter D s , the end wall further comprising an outlet orifice having a diameter d o connected to the swirl chamber and the end wall further comprising at least one inlet slot extending inward from a junction of the cylindrical sidewall and end wall towards the swirl chamber, the inlet slot comprising a width d p , a height Ls, and a cross-sectional area d p ×L s , a number of inlet slots N ranging from 1 to 6, the at least one inlet slot entering the swirl chamber at an angle β with respect to an axis of the outlet orifice, an inner surface of the swirl chamber encircling the outlet orifice and being disposed at an angle θ c with respect to the axis of the outlet orifice, the outlet orifice having an axial length L o of less than 250 μm, the end wall of the insert comprising an outer trumpet surface having an axial length L t extending beyond the outlet orifice, the trumpet surface having an angle θ t with respect to the axis of the outlet orifice, the actuator body being coupled to and in communication with a valve assembly that is coupled to an in communication with an enclosed container that accommodates product that is a liquid a room temperature, the container being pressurized with a VOC-free compressed gas propellant, at least one parameter selected from the group consisting of X, d o , D s , a cumulative cross-sectional area of the N slots (d p ×L s ×N), L s , d p , β, D, θ c , L o , L t , θ t , and N being optimized to maintain a Sauter Mean Diameter D[3,2] of particles exiting the outlet orifice of less than 51 μm and a spray rate of at least 1.5 g/s. 7. The aerosol dispenser and product assembly of claim 6 wherein d o is less than about 210 μm. 8. The aerosol dispenser and product assembly of claim 7 wherein D s is between 2,000 and 3,000 μm. 9. The aerosol dispenser and product assembly of claim 7 wherein the cumulative cross-sectional area of the N slots, d p ×L s ×N, is less than about 170,000 μm 2 . 10. An aerosol dispenser assembly comprising: a nozzle comprising an actuator body and at least two nozzle inserts, the actuator body comprising a primary delivery passage for receiving fluid, the primary delivery passage being in communication with at least two secondary fluid passages, the secondary fluid passages being in communication with two inlet slots, the inlet slots extending between the secondary fluid passages and two nozzle chambers, the nozzle chambers accommodating one of two posts, each post being mateably received in a nozzle insert, the nozzle inserts each comprising a cylindrical side wall connected to an end wall, the cylindrical sidewall having a diameter D less than 4,000 μm defining an open bottom that receives the post, the end wall comprising a recess that, in combination with the post, defines a swirl chamber, the end wall further comprising an outlet orifice connected to the swirl chamber and the end wall further comprising N inlet slots extending inward from a junction of the cylindrical sidewall and end wall towards the swirl chamber wherein N ranges from 1 to 6, the outlet orifice having a diameter d o and an axial length L o , the axial length L o being less than 250 μm, the swirl chamber having a diameter D s , the inlet slot comprising a width d p , a height Ls, and a cross-sectional area d p ×L s defined by said width d p and height L s , d o , D s and a cumulative cross-sectional area of the N slots, d p ×L s ×N, being optimized to maintain a Sauter Mean Diameter D[3,2] of particles exiting the outlet orifice of less than 51 μm and a spray rate of at least 1.5 g/s when the particles are a water-based product pressurized with a VOC-free compressed gas. 11. The aerosol dispenser assembly of claim 10 wherein an initial pressure of the propellant is less than 72 psig. 12. The aerosol dispenser assembly of claim 10 wherein d o is less than about 210 μm. 13. The aerosol dispenser assembly of claim 10 wherein the primary fluid passage is in communication with three secondary fluid passages and the assembly further comprises three inlet slots, three nozzle chambers, three posts and three swirl nozzle inserts. 14. The aerosol dispenser assembly of claim 10 wherein the primary fluid passage is in communication with four secondary fluid passages and the assembly further comprises four inlet slots, four nozzle chambers, four posts and four swirl nozzle inserts. 15. The aerosol dispenser assembly of claim 10 wherein the cumulative cross-sectional area of the N slots, d p ×L s ×N, of each insert is less than about 170,000 m 2 . 16. A method for determining design parameters for at least two swirl nozzle inserts of an aerosol spray dispenser utilizing a compressed gas, VOC-free propellant, the method comprising: identifying an upper limit for a Sauter Mean Diameter (D[3, 2]) of less than 51 μm and a lower limit for a spray rate of at least 1.5 g/s, designing the swirl nozzle insert with a cylindrical side wall connected to an end wall, the cylindrical sidewall having a diameter D less than 4,000 μm defining an open bottom and having an inner diameter D, the end wall comprising a recess tha