System for making suspensions

We claim: 1. A system for making suspensions, comprising: a housing having a base, an upper wall, at least one sidewall and an open front; a platform mounted within the housing for removably supporting a receptacle; a base fluid tank for storing a base fluid; a solid particle container for storing solid particles; a translating table slidably mounted on the platform; a rotating dispenser system mounted within the housing above the platform and the receptacle, the rotating dispenser comprising a base fluid dispenser for selectively dispensing a controlled mass of the base fluid into the receptacle, and a solid particle dispenser for selectively dispensing a controlled mass of the solid particles into the receptacle, wherein the base fluid dispenser is in fluid communication with the base fluid tank, and the solid particle dispenser is in communication with the solid particle container; and a mixer for selectively and controllably mixing the controlled mass of the base fluid and the controlled mass of the solid particles in the receptacle to form a suspension. 2. The system for making suspensions as recited in claim 1 , further comprising at least one door pivotally mounted to the at least one sidewall for releasably covering the open front of the housing. 3. The system for making suspensions as recited in claim 1 , wherein the translating table comprises a temperature-controlling plate. 4. The system for making suspensions as recited in claim 1 , further comprising a temperature-controlling jacket for receiving the receptacle and controlling the temperature thereof. 5. The system for making suspensions as recited in claim 1 , wherein the rotating dispenser system further comprises: a rotating plate having a plurality of openings formed therethrough, wherein each of the base fluid dispenser and the solid particle dispenser comprises a nozzle assembly slidably received within a corresponding one of the openings, and wherein each of the base fluid dispenser and the solid particle dispenser has opposed upper and lower ends; an axle having opposed lower and upper ends, the lower end thereof being secured to the rotating plate; a first gear coupled to the upper end of the axle; a motor; a second gear coupled to the motor, the second gear engaging the first gear to drive rotation thereof; first and second stepper motors mounted on the rotating plate respectively adjacent to the base fluid dispenser and the solid particle dispenser; first and second threaded rods being respectively driven to rotate by the first and second stepper motors; and first and second nozzle assembly holders respectively secured to the respective upper ends of the base fluid dispenser and the solid particle dispenser, wherein each of the first and second nozzle assembly holders has a threaded opening formed therethrough for respectively receiving a portion of the first and second threaded rods. 6. The system for making suspensions as recited in claim 5 , further comprising: a liquid surfactant tank for storing a liquid surfactant; and a solid surfactant container for storing a solid surfactant. 7. The system for making suspensions as recited in claim 6 , wherein the rotating dispenser system further comprises: a liquid surfactant dispenser in fluid communication with the liquid surfactant tank for selectively dispensing a controlled mass of the liquid surfactant into the receptacle; a solid surfactant dispenser in communication with the solid surfactant container for selectively dispensing a controlled mass of the solid surfactant into the receptacle, wherein each of the liquid surfactant dispenser and the solid surfactant dispenser comprises a nozzle assembly slidably received within a corresponding one of the openings formed through the rotating plate, and wherein each of the liquid surfactant dispenser and the solid surfactant dispenser has opposed upper and lower ends; third and fourth stepper motors mounted on the rotating plate respectively adjacent to the liquid surfactant dispenser and the solid surfactant dispenser; third and fourth threaded rods being respectively driven to rotate by the third and fourth stepper motors; and third and fourth nozzle assembly holders respectively secured to the respective upper ends of the liquid surfactant dispenser and the solid surfactant dispenser, wherein each of the third and fourth nozzle assembly holders has a threaded opening formed therethrough for respectively receiving a portion of the third and fourth threaded rods. 8. The system for making suspensions as recited in claim 7 , wherein the mixer comprises a sonicator and a homogenizer. 9. The system for making suspensions as recited in claim 8 , wherein each of the sonicator and the homogenizer is slidably received within a corresponding one of the openings formed through the rotating plate, and wherein each of the sonicator and the homogenizer has opposed upper and lower ends, and wherein the rotating dispenser system further comprises: fifth and sixth stepper motors mounted on the rotating plate respectively adjacent to the sonicator and the homogenizer; fifth and sixth threaded rods being respectively driven to rotate by the third and fourth stepper motors; and sonicator and homogenizer holders respectively secured to the respective upper ends of the sonicator and the homogenizer, wherein each of the sonicator and homogenizer holders has a threaded opening formed therethrough for respectively receiving a portion of the fifth and sixth threaded rods. 10. The system for making suspensions as recited in claim 7 , further comprising: a base fluid receptacle in fluid communication with the base fluid tank; a base fluid scale for measuring a mass of the base fluid in the base fluid receptacle; a fluid receiver positioned beneath the base fluid receptacle and the base fluid scale for receiving the controlled mass of the base fluid, the base fluid receiver being in fluid communication with the base fluid dispenser; a solid particle scale for measuring a mass of the solid particles in the solid particle container; a solid particle receiver positioned beneath the solid particle container and the solid particle scale for receiving the controlled mass of the solid particles, the solid particle receiver being in communication with the solid particle dispenser. 11. The system for making suspensions as recited in claim 10 , further comprising: a cap for covering an open lower end of the solid particle container, the cap having a first opening formed therethrough; a rotating disc mounted beneath the cap, the rotating disc having a second opening formed therethrough, the rotating disc having teeth peripherally formed thereon; a stepper motor; and a gear selectively and controllably driven by the stepper motor, the gear engaging the teeth of the rotating disc. 12. The system for making suspensions as recited in claim 10 , further comprising: a liquid surfactant receptacle in fluid communication with the liquid surfactant tank and the liquid surfactant dispenser; a liquid surfactant scale for measuring a mass of the liquid surfactant in the liquid surfactant receptacle, the controlled mass of the liquid surfactant being received by the liquid surfactant dispenser from the liquid surfactant receptacle; and a solid surfactant scale for measuring a mass of the solid surfactant in the solid surfactant container, the controlled mass of the solid surfactant being received by the solid surfactant dispenser from the solid surfactant container. 13. The system for making suspensions as recited in claim 1 , wherein the housing is separated into upper, middle and lower