Micro flow filtration system and integrated microfluidic element

The invention claimed is: 1. A microfluidic flow filtration system having a recirculation loop fluid circuitry, the recirculation loop fluid circuitry comprising the following elements and connecting the following elements to each other: a tangential flow filtration element having a feed inlet, a retentate outlet, a permeate outlet and a membrane that separates a fluid sample into a retentate stream and a permeate stream upon passage of the fluid sample into the tangential flow filtration element through the feed inlet, a pumping element that creates and drives a fluid flow of the fluid sample through the fluid circuitry and the tangential flow filtration element, wherein the retentate outlet is connected to an inlet of the pumping element, at least two obtaining elements that obtain information about the properties of the fluid sample within the fluid circuitry, wherein an inlet of the obtaining element is connected to an outlet of the pumping element and an outlet of the obtaining element is connected to the feed inlet of the tangential flow filtration element; and a plurality of conduits connecting the elements of the microfluidic flow filtration system; wherein a minimal working volume of the fluid circuitry is defined by a minimal fluid volume retained in the pumping element, the at least two obtaining elements and the plurality of conduits, such that the fluid can be recirculated in the fluid circuitry without pumping air through the fluid circuitry is at most 5 ml, the at least two obtaining elements are implemented into one integrated microfluidic element, the one integrated microfluidic element has a volume which is at most one fourth of the minimal working volume of the fluid circuitry, one obtaining element of the at least two obtaining elements is an optical measuring element that determines a concentration of components contained in the fluid sample, wherein said optical measuring element includes a cuvette having a height smaller than a height of connecting conduits and a width wider than a width of connecting conduits, and one obtaining element of the at least two obtaining elements is a physical measuring element that determines a viscosity of the fluid sample, wherein said physical measuring element includes two pressure sensors arranged upstream and downstream of the cuvette for measuring a pressure difference. 2. The microfluidic flow filtration system according to claim 1 , wherein the integrated microfluidic element has a housing and the tangential flow filtration element has a TFF-housing which is part of the housing of the microfluidic element. 3. The microfluidic flow filtration system according to claim 2 , wherein the membrane of the tangential flow filtration element is disposable. 4. The microfluidic flow filtration system according to claim 1 , wherein the circuitry further comprises a reservoir suitable for containing the fluid sample, the reservoir being integrated in the fluid circuitry and having at least a reservoir inlet and a reservoir outlet both in connection to the circuitry. 5. The microfluidic flow filtration system according to claim 3 , wherein a volume of the reservoir is at most 10 ml. 6. The microfluidic flow filtration system according to claim 3 , wherein the volume of the reservoir is at most 1 ml. 7. The microfluidic flow filtration system according to claim 3 , wherein the volume of the reservoir is at most 0.7 ml. 8. The microfluidic flow filtration system according to claim 3 , wherein the volume of the reservoir is at most 0.5 ml. 9. The microfluidic flow filtration system according to claim 1 , wherein the circuitry further comprises at least one valve element; and/or a hollow fiber element; and/or a regulator element that regulates the flow of the fluid through the fluid circuitry, and/or a pressure regulation element that regulates the pressure of the fluid in the fluid circuitry, and/or a determining element that determines pressure data which is one or more pressure sensors; and/or an optical detection element. 10. The microfluidic flow filtration system according to claim 1 , wherein the minimal working volume of the fluid circuitry is at most 1 ml. 11. The microfluidic flow filtration system according to claim 1 , wherein the minimal working volume of the fluid circuitry is at most 500 μl. 12. The microfluidic flow filtration system according to claim 1 , wherein the minimal working volume of the fluid circuitry is at most 200 μl. 13. The microfluidic flow filtration system according to claim 1 , wherein the minimal working volume of the fluid circuitry is at most 100 μl. 14. The microfluidic flow filtration system according to claim 1 , wherein the conduits have an internal diameter of at most 1.5 mm. 15. The microfluidic flow filtration system according to claim 1 , wherein the conduits have an internal diameter of at most 1 mm. 16. The microfluidic flow filtration system according to claim 1 , wherein the conduits have an internal diameter of at most 0.7 mm. 17. The microfluidic flow filtration system according to claim 1 , wherein the conduits have an internal diameter of at most 0.1 mm. 18. The microfluidic flow filtration system according to claim 1 , wherein a conduit is a channel, a passage in an element of the circuitry, a pipe, or a tubing. 19. An integrated microfluidic element for a microfluidic flow filtration system with a fluid circuitry having a minimal working volume of at most 5 ml, wherein the integrated microfluidic element has a volume which is at most one fourth of the minimal working volume of a fluid circuitry of the micro flow filtration system, and provides the functionality of at least two obtaining elements for obtaining information about the properties of a fluid sample within the circuitry, wherein one obtaining element of the at least two obtaining elements is an optical measuring element that determines a concentration of components contained in the fluid sample, wherein said optical measuring element includes a cuvette having a height smaller than a height of connecting conduits and a width wider that a width of connecting conduits, and one obtaining element of the at least two obtaining elements is a physical measuring element that determines a viscosity of the fluid sample, wherein said physical measuring element includes two pressure sensors arranged upstream and downstream of the cuvette for measuring a pressure difference. 20. The integrated microfluidic element according to claim 19 , comprising the functionality of a tangential flow filtration element having a feed inlet, a retentate outlet, a permeate outlet and a membrane that separates a fluid sample into a retentate stream and a permeate stream upon passage of the fluid sample into the tangential flow filtration element through the feed inlet. 21. The integrated microfluidic element according to claim 19 , comprising a capillary or capillary channel.