Equipment assembly for and method of processing particles

The invention claimed is: 1. A particle formation and collection equipment assembly comprising: at least one high pressure supercritical fluid (SCF) particle formation system that forms a particle-containing SCF liquid suspension; and at least one tandem filtration system comprising: at least one harvesting filter system that filters the particle-containing SCF liquid suspension and then forms a particle-containing gaseous suspension, wherein the filter system is equipped with at least one porous element; at least one collection filter system that filters the particle-containing gaseous suspension, wherein the at least one collection filter system is downstream of the at least one harvesting filter system, and comprises a housing defining a lengthwise process cavity, at least one inlet port, at least two outlet ports, and at least one porous element in the process cavity and comprising a porous wall defining a lengthwise inner conduit conductively engaged with the at least one inlet port and at least one outlet port; and at least one particle collection system that receives and collects particles from the at least one collection filter system. 2. The equipment assembly of claim 1 further comprising: a) one or more temperature controllers; b) one or more valves; c) one or more actuators; d) one or more back pressure regulators; d) one or more flow controllers; e) a gas pulsing system configured to pulse gas into at least the harvesting filter; f) one or more computers having a memory storage medium containing software or logic adapted to control operation of one or more components of the system; g) one or more pressure sensors; h) one or more valves that direct flow of a liquid particle suspension to the harvesting filter and direct flow of a gaseous particle suspension from the harvesting filter to the collection filter; i) one or more pumps; j) one or more temperature sensors; k) one or more SCF supply systems; l) one or more process fluid supply systems; m) one or more pumps for pumping process fluid, supercritical carbon dioxide (scCO 2 ) or a combination of process fluid and scCO 2 ; n) one or more solvent separation vessels; o) one or more solvent collection vessels; p) one or more in-line sensors; q) or a combination thereof. 3. The equipment assembly of claim 2 , wherein an in-line sensor is independently selected at each occurrence from the group consisting of spectrophotometric sensor, particle size sensor, pressure sensor, temperature sensor, infrared sensor, near-infrared sensor, and ultraviolet sensor. 4. The equipment assembly of claim 1 further comprising at least one temperature controller, at least one temperature sensor, at least one pressure sensor, at least one back pressure regulator, at least one flow controller, at least one valve, at least one SCF supply system and at least one process fluid supply system. 5. The equipment assembly of claim 1 wherein at least one particle formation system comprises a disperser comprising: a) a vibratable member; b) a vibrator comprising at least one piezoelectric component; c) a converging or diverging nozzle that generates a standing ultrasonic wave during operation; d) a conduit for process fluid and a conduit for SCF; e) a capillary nozzle; f) a vibrator and vibratable member; or g) a combination thereof. 6. The equipment assembly of claim 5 , wherein the vibratable member is a nozzle, plate or mesh. 7. The equipment assembly of claim 1 , wherein the at least one harvesting filter system comprises: a housing defining a process cavity, at least one porous element in the process cavity, at least one inlet port, at least one outlet port, a temperature controller for controlling the temperature of the housing, at least one gas supply line, and a SCF supply line. 8. The equipment assembly of claim 7 , wherein, for the harvesting filter system: a) the process cavity is vertically oriented along its lengthwise axis; b) at least one inlet port is configured to serve as an outlet port for a gaseous particle suspension; c) the porous element and the housing are cylindrical; d) the temperature controller comprises a heating and/or cooling jacket surrounding the housing; e) the process cavity comprises a conical portion; f) the process cavity further comprises a linear cylindrical portion in which the porous element is disposed; g) the spacing between the outer surface of the porous element and the inner surface of the process cavity is in the range of about 5 to about 100 mm; h) the diameter of the inner conduit is in the range of about 5 to about 60 mm; i) the outer diameter of the porous element is in the range of about 10 to about 60 mm; j) the harvesting filter system further comprises one or more valves that direct flow of the SCF liquid suspension and flow of the gaseous particle suspension; k) the high pressure filter and precipitation chamber are adapted to operate at about 800 to about 3000 psi; or l) a combination thereof. 9. The equipment assembly of claim 8 , wherein the process cavity is vertically oriented perpendicular to the ground or parallel to the linear axis of a plumb bob line. 10. The equipment assembly of claim 7 , wherein the porous element extends into the process cavity, and the porous element is conductively engaged with at least one outlet port or at least one inlet port. 11. The equipment assembly of claim 1 , wherein at least one collection filter system comprises: a housing defining a lengthwise process cavity, at least one inlet port, at least one gas outlet port, at least one particle outlet port, at least one gaseous particle suspension supply line, at least one porous element in the process cavity. 12. The equipment assembly of claim 11 , wherein for the collection filter system: a) the process cavity is vertically oriented along its lengthwise axis; b) at least one inlet port is configured to receive a gaseous particle suspension; c) the porous element is cylindrical; d) the inner conduit of the porous element has an inner diameter in the range of about 5 to about 60 mm; e) the system further comprises a gas pulsing system; f) the collection vessel is disposed beneath the porous element or at a level below the porous element; or g) a combination thereof. 13. The equipment assembly of claim 12 , wherein the vertical orientation is perpendicular to the ground or parallel to the linear axis of a plumb bob line. 14. The equipment assembly of claim 1 , wherein the equipment assembly comprises: a) two harvesting filter systems, two collection filter systems and two collection systems; b) two harvesting filter systems, one collection filter system and one or more collection systems; c) two harvesting filter systems, two collection filter systems and one or more collection systems; d) two harvesting filter systems, one collection filter system and one or more collection systems; e) two tandem particle harvesting systems and collection systems arranged in parallel; f) two or more particle harvesting filter systems arranged in parallel, one collection filter system and two or more collection systems arranged in parallel; g) two or more precipitation chambers for the at least one particle formation system; h) at least two tandem filter systems configured to operate alternately or simultaneously; and/or i) at least two particle collection systems configured to operate alternately or simultaneously. 15. The equipment assembly of claim 1 , wherein the particle collection system is vented. 16. The equipment assembly of claim 15 , wherein the vent comprises filtration medium. 17. The equipment assembly of claim 1 fu