Water treatment process and plant using ballasted flocculation and settling

The invention claimed is: 1. A wastewater treatment system comprising: a. a flocculation tank provided with at least one agitator; b. a ballast inlet to direct ballast into the flocculation tank wherein the ballast is a granular material having adsorption properties, ion exchange properties, or molecule exchange properties; c. a flocculating agent inlet to direct flocculating agent into the flocculation tank; d. a settling tank having an outlet for treated water disposed downstream of the flocculation tank; e. a mixing tank having at least one agitator, the mixing tank disposed downstream from the settling tank; f. a separator for separating ballast and sludge from a sludge-ballast mixture; g. a first sensor to continuously measure the concentration of suspended solids, organic matter or other impurities in water to be treated disposed upstream from the flocculation tank; and h. at least one calculator to continuously analyze the measurements taken by the first sensor and determine the amount of ballast necessary to obtain the treated water of a predetermined quality. 2. The system of claim 1 including a recirculation line for recirculating at least a portion of the sludge from the separator to the mixing tank and wherein the separator includes a ballast outlet for directing at least a portion of the ballast from the separator to the flocculation tank. 3. The system of claim 1 including a second sensor disposed upstream of the separator and downstream from the first sensor to continuously measure the amount of ballast in the sludge-ballast mixture. 4. The system of claim 1 including an automatic ballast injection device to automatically inject ballast into the flocculation tank. 5. The system of claim 1 including an automatic flocculating reagent injection device to automatically inject flocculating reagent into the flocculation tank. 6. The system of claim 1 wherein the flocculation tank includes a flow-guide structure including a mixer. 7. The system of claim 1 wherein: the settling tank is a lamellar settling tank and includes a submerged spillway and a splitting structure; and the splitting structure including: at least two parallel plates, wherein each plate is disposed on one side of the submerged spillway; and a series of transverse plates disposed transverse to the parallel plates. 8. A wastewater treatment system for treating water, comprising: a. a flocculation tank provided with at least one agitator; b. a ballast inlet for injecting ballast into the water to be treated; c. a flocculating agent inlet for injecting a flocculating agent into the water to be treated; d. wherein the wastewater treatment system mixes the ballast and flocculating agent with the water in the flocculating tank resulting in a water-floc mixture; e. a settling tank disposed downstream from the flocculating tank wherein a sludge-ballast mixture settles and wherein the settling tank produces treated water that is directed from the settling tank; and f. a separator for receiving the sludge-ballast mixture and separating ballast and sludge from the sludge-ballast mixture such that at least a portion of the ballast can be recycled and mixed with the water being treated; g. a mixing tank disposed downstream from the settling tank; h. a first line operatively interconnected between the settling tank and the mixing tank for directing the sludge-ballast mixture from the settling tank to the mixing tank; i. a second line operatively interconnected between the mixing tank and the separator for directing the sludge-ballast mixture from the mixing tank to the separator; j. a sludge storage tank for receiving separated sludge from the separator and holding the separated sludge; and k. a third line operatively interconnected between the sludge storage tank and the mixing tank for directing sludge from the sludge storage tank to the mixing tank. 9. The wastewater treatment system of claim 8 further including: a. a first sensor to continuously measure the concentration of suspended solids, organic matter or other impurities in the water to be treated disposed upstream from the flocculation tank; and b. at least one calculator for continuously analyzing the measurements taken by the first sensor to determine the amount of ballast necessary to obtain treated water of a predetermined quality. 10. The wastewater treatment system of claim 9 including a second sensor disposed downstream of the separator and downstream from the first sensor to continuously measure the amount of ballast in the sludge-ballast mixture. 11. The wastewater treatment system of claim 8 further including: a third sensor associated with the mixing tank to sense the level of the sludge-ballast mixture in the mixing tank. 12. The wastewater treatment system of claim 8 further including: a. a mixing tube disposed in the flocculation tank; b. the mixing tube including an open top, and an open bottom which permits the water-floc mixture to flow vertically through the mixing tube; c. a mixer disposed in the mixing tube for mixing the water, ballast and flocculating agent to yield the water-floc mixture; and d. wherein the flocculation tank includes a wall structure and wherein the mixing tube is disposed inwardly of the wall structure of the flocculation tank so as to define a peripheral zone between the wall of the flocculation tank and the mixing tube. 13. The wastewater treatment system of claim 12 further including a flow distributing device disposed adjacent the open bottom of the mixing tube for distributing the flow of the water-floc mixture to the peripheral zone of the flocculation tank. 14. The wastewater treatment system of claim 13 wherein the flow distributing device includes a plurality of side-by-side channels that are at least partially disposed within the mixing tube. 15. The wastewater treatment system of claim 13 wherein the flow distributing device is disposed at least 200 mm from the mixer. 16. The wastewater treatment system of claim 15 wherein said flow distributing device includes at least one diametral plate having a height H and defining at least two compartments. 17. The wastewater treatment system of claim 16 wherein each compartment has a theoretical width B and a ratio of H/B is between approximately 1 and approximately 2. 18. The wastewater treatment system of claim 8 including a service water line leading to the separator for directing service water to the separator where service water is mixed with the sludge-ballast mixture received by the separator such that the service water removes organic matter from the ballast and dilutes the sludge separated by the separator. 19. The wastewater treatment system of claim 8 further including: a. a splitting structure disposed at an inlet of the settling tank; b. the splitting structure including: i. a first set of two parallel plates with each plate disposed on one side of a submerged spillway provided between the flocculation tank and the settling tank; and ii. a series of transverse plates, each extending between the two plates of the first set of plates; the transverse plates extending in a generally transverse direction relative to the first set of plates and extending in a generally parallel direction relative to each other.