Phosphorus extraction and recovery system (PEARS)

What is claimed is: 1. A phosphorus extraction and recovery system (PEARS) comprising: (a) an acidification reactor, wherein the acidification reactor comprises a first multi-parameter meter, first mixer, and a first membrane module; (b) a first container in liquid communication with the acidification reactor, wherein the first container is fabricated of material that is inert to an acidic solution; (c) a basin in liquid communication with the acidification reactor, wherein the basin is fabricated of material that is inert to a manure slurry; (d) a second container in communication with the acidification reactor, wherein the second container is positioned so that solids that are present in the acidification reactor can be accumulated; (e) a precipitation reactor in liquid communication with the first membrane module of the acidification reactor, wherein the precipitation reactor comprises a second multi-parameter meter, second mixer, and a second membrane module; (f) a third container in liquid communication with the precipitation reactor, wherein the third container is fabricated of material that is inert to a basic solution; (g) a fourth container in communication with the precipitation reactor, wherein the fourth container is positioned so that solids precipitated in the precipitation reactor can be accumulated; and (h) a fifth container in communication with the second membrane module, wherein the fifth container is fabricated of material that is inert to liquid fertilizer. 2. The PEARS system of claim 1 , further comprising at least one of: (i) a carbon dioxide bubbler in gaseous communication with the acidification reactor; (ii) an air bubbler in gaseous communication with the precipitation reactor; (iii) at least one pump positioned between the first membrane module and the precipitation reactor; (iv) at least one pump positioned downstream of the second membrane module; (v) a switch positioned downstream of the second membrane module, wherein the switch directs solution from the second membrane module to either the fifth container, the acidification reactor, or both; (vi) at least one pump positioned between the acidification reactor and the second container; (vii) at least one pump positioned between the precipitation reactor and the fourth container; (viii) an ammonia scrubbing module in gaseous communication with the precipitation reactor; and (ix) a manure-to-energy module positioned downstream of the second membrane module. 3. The PEARS system of claim 2 , comprising the carbon dioxide bubbler, wherein the CO 2 bubbler comprises a diffuser positioned within the acidification reactor. 4. The PEARS system of claim 1 , wherein the first and second membrane modules comprise microfiltration membranes. 5. The PEARS system of claim 2 , comprising the air bubbler, wherein the air bubbler comprises a diffuser positioned within the precipitation reactor. 6. The PEARS system of claim 1 , further comprising a supervisory control and data acquisition (SCADA) system in communication with the first multi-parameter meter, the first mixer, the first container, the second multi-parameter meter, the second mixer, and the third container. 7. The PEARS system of claim 2 , further comprising a supervisory control and data acquisition (SCADA) system in communication with the first multi-parameter meter, the first mixer, the first container, the second multi-parameter meter, the second mixer, the third container, and the pumps. 8. A process for treating manure in order to isolate a target precipitate using the PEARS system according to claim 1 , said process comprising: (a) providing a manure slurry; (b) introducing the manure slurry into the acidification reactor, wherein the pH of the manure slurry is lowered to a range of about 4.5 to about 5.5 using at least one acid, wherein the manure slurry is mixed in the acidification reactor to instigate nutrient release; (c) collecting nutrient-deficient solids from the acidification reactor; (d) collecting nutrient-rich permeate in the first membrane module of which is positioned in the acidification reactor, and moving the nutrient-rich solution to the precipitation reactor; (e) initiating precipitation of the target precipitate in the precipitation reactor by raising the pH of the nutrient-rich permeate to a range of about 8.5 to about 9.2 using at least one base; (f) collecting the target precipitate from the precipitation reactor; and (g) collecting effluent from the second membrane module of the precipitation reactor. 9. The process of claim 8 , wherein the process further comprises at least one of: (i) bubbling the manure slurry in the acidification reactor with CO 2 -enriched gas; (ii) sparging the nutrient-rich permeate in the precipitation reactor with air; (iii) pumping the nutrient-rich permeate from the first membrane module in the acidification reactor to the precipitation reactor; (iv) pumping effluent from the second membrane module; (v) directing effluent from the second membrane module to the acidification reactor to be used as makeup water; (vi) pumping the nutrient-deficient solids from the acidification reactor; (vii) pumping the target precipitate from the precipitation reactor; and (viii) recovering the ammonia from the precipitation reactor using an ammonia scrubber. 10. The process of claim 8 , wherein the target precipitate comprises struvite and/or potassium struvite. 11. The process of claim 8 , wherein the manure slurry can have a concentration in a range from about 10 g/L to about 1000 g/L. 12. The process of claim 8 , wherein the pH of the manure slurry is lowered to a range of about 4.5 to about 5.5 using at least one acid and by bubbling the manure slurry with CO 2 -enriched gas. 13. The process of claim 8 , wherein the manure slurry is mixed in the acidification reactor for time in a range from about 10 to about 200 minutes. 14. The process of claim 8 , wherein the pH of the nutrient-rich permeate is raised to a range of about 8.5 to about 9.2 using at least one base and by bubbling the nutrient-rich permeate with air. 15. The process of claim 8 , wherein the steps (a) through (g) can be repeated more than once.