Reverse osmosis system

What is claimed is: 1. A reverse osmosis system having a first reverse osmosis membrane unit and at least a second reverse osmosis membrane unit, the reverse osmosis membrane units forming a chain of reverse osmosis membrane units, the first reverse osmosis membrane unit having a first reverse osmosis membrane separating a first feed chamber and a first permeate chamber, a first inlet connected to the first feed chamber, a first permeate outlet connected to the first permeate chamber, and a first concentrate outlet connected to the first feed chamber, the second reverse osmosis membrane unit having a second reverse osmosis membrane separating a second feed chamber and a second permeate chamber, a second inlet connected to the second feed chamber, a second permeate outlet connected to the second permeate chamber, and a second concentrate outlet connected to the second feed chamber, wherein the concentrate outlet of a reverse osmosis membrane unit in the chain of reverse osmosis membrane units is connected to an inlet of a following reverse osmosis membrane unit and a concentrate outlet of at least one reverse osmosis membrane unit downstream the first reverse osmosis membrane unit in the chain of reverse osmosis membrane units is connected to a hydraulic motor, wherein the hydraulic motor is operatively connected to a first electric machine to form a generator drive, wherein the first electric machine is electrically connected to at least a second electric machine operatively connected to a pump to form a pump drive located in a flow path upstream of one of the membrane units, wherein the generator drive and the pump drive are separate, independent components, and wherein the generator drive is directly installed on the second concentrate outlet. 2. The reverse osmosis system according to claim 1 , wherein the pump is a booster pump connected to the inlet of one of the membrane units downstream the first membrane unit. 3. The reverse osmosis system according to claim 1 , the pump is a supply pump connected to the first inlet. 4. The reverse osmosis system according to claim 1 , wherein at least one of the electric machines is part of a variable frequency drive. 5. The reverse osmosis system according to claim 1 , wherein the hydraulic motor is a first axial piston machine. 6. The reverse osmosis system according to claim 1 , wherein at least one pump is a second axial piston machine. 7. The reverse osmosis system according to claim 5 , wherein at least one of the axial piston machines forms a flow meter. 8. The reverse osmosis system according to claim 5 , wherein at least one of the axial piston machines comprises an inlet sensor and/or an outlet sensor. 9. The reverse osmosis system according to claim 5 , wherein at least one of the axial piston machines comprises an internal leak-flow sensor. 10. The reverse osmosis system according to claim 1 , wherein at least a n-th membrane unit having a n-th membrane separating a n-th feed chamber and a n-th permeate chamber, a n-th inlet connected to the n-th feed chamber, a n-th permeate outlet connected to the n-th permeate chamber, and a n-th concentrate outlet connected to the n-th feed chamber is provided, wherein n is an integer greater than 2 and the n-th inlet is connected to the (n−1)-th concentrate outlet. 11. The reverse osmosis system according to claim 10 , wherein at least one of the n-th inlets is directly connected to the (n−1)-th concentrate outlet. 12. The reverse osmosis system according to claim 10 , wherein at least one of the (n−1)-th concentrate outlet is connected to a hydraulic motor operatively connected to a first electric machine and to a hydraulic pump operatively connected to a second electric machine. 13. The reverse osmosis system according to claim 2 , wherein at least one of the electric machines is part of a variable frequency drive.