Continuous sample purification systems and methods

What is claimed is: 1 . A sample purification system, comprising: a fluid sample, comprising: a first fluid phase; a second fluid phase, the first fluid phase being immiscible with the second fluid phase; a biological molecule disposed in the first fluid phase; and a particulate contaminant disposed in the second fluid phase; and a particulate removal assembly, comprising: a sample mixing compartment, a first portion of the fluid sample being disposed in the mixing compartment; means for mixing the fluid sample in the mixing compartment, a sample settling compartment in fluid communication with the mixing compartment such that the fluid sample is flowable from the mixing compartment into the settling compartment, a second portion of the fluid sample being disposed in the settling compartment; the settling compartment fluidically coupled with a sample concentrating element, the sample concentrating element comprising a tangential flow filtration member; and the sample concentrating element fluidically coupled with a multi-stage liquid-liquid extraction component, the multi-stage liquid-liquid extraction component comprising: a container assembly bounding a sample purification compartment and having an upper end and an opposing lower end, the sample purification compartment comprising mixing zones and settling zones, the container assembly further comprising a first fluid inlet and a first fluid outlet disposed at one of the upper end and the lower end of the sample purification compartment and a second fluid inlet and a second fluid outlet disposed at the other of the upper end and the lower end of the sample purification compartment, the first fluid inlet, the second fluid inlet, the first fluid outlet, and the second fluid outlet being in fluid communication with the sample purification compartment; a plurality of shielding elements positioned within the sample purification compartment so as to at least partially separate adjacent mixing zones and settling zones or to at least partially separate adjacent mixing zones, the mixing zones being in fluid communication with the settling zones; means for mixing a liquid in each of the mixing zones; and at least one acoustic settler aligned with a portion of the container assembly, the acoustic settler emitting an acoustic wave. 2 . The purification systems of claim 1 , further comprising a shielding element disposed between the mixing compartment and the settling compartment so as to at least partially separate the mixing compartment from the settling compartment. 3 . The purification systems of claim 1 , wherein the particulate removal assembly further comprises: a mixing container assembly at least partially bounding the mixing compartment, the means for mixing being disposed in the mixing compartment, the mixing container assembly optionally comprising at least one sample inlet and a mixed sample outlet; and a settling container assembly at least partially bounding the settling compartment, the settling container assembly comprising a mixed sample inlet in fluid communication with the mixed sample outlet of the mixing container assembly, a first phase body outlet formed in a first end of the settling compartment, and a second phase body outlet formed in a second end of the settling compartment, the first end being separated from the second end by a vertical distance. 4 . The purification systems of claim 1 , wherein, in the settling compartment, the first fluid phase and the second fluid phase are settled into a first phase body comprising the first fluid phase and a second phase body comprising the second fluid phase, the first phase body being separable from the second phase body, the biological molecule being disposed in the first phase body, the particulate contaminant being disposed in the second phase body, a less-dense phase body of the first phase body and the second phase body optionally being positioned vertically above a more-dense phase body of the first phase body and the second phase body in the settling compartment. 5 . The purification systems of claim 1 , further comprising a bioreactor fluidically coupled with the sample mixing compartment. 6 . A sample purification system, comprising: a multi-stage liquid-liquid extraction component, comprising: a container assembly bounding a sample purification compartment and having an upper end and an opposing lower end, the sample purification compartment comprising mixing zones and settling zones, the container assembly further comprising a first fluid inlet and a first fluid outlet disposed at one of the upper end and the lower end of the sample purification compartment and a second fluid inlet and a second fluid outlet disposed at the other of the upper end and the lower end of the sample purification compartment, the first fluid inlet, the second fluid inlet, the first fluid outlet, and the second fluid outlet being in fluid communication with the sample purification compartment; a plurality of shielding elements positioned within the sample purification compartment so as to at least partially separate adjacent mixing zones and settling zones or to at least partially separate adjacent mixing zones, the mixing zones being in fluid communication with the settling zones; and a mixing element disposed in the mixing zones; at least one acoustic settler aligned with a portion of the container assembly, the acoustic settler emitting an acoustic wave; and a tangential flow filtration component having a fluid sample inlet and a concentrated product outlet, the concentrated product outlet fluidically coupled with the first inlet or the second inlet of the container assembly. 7 . The sample purification system of claim 6 , further comprising a particulate removal assembly fluidically coupled with the tangential flow filtration component, the particulate removal assembly comprising: a sample mixing compartment; means for mixing a fluid sample in the mixing compartment; and a sample settling compartment fluidically coupled to the mixing compartment such that the fluid sample is flowable from the mixing compartment into the settling compartment and fluidically coupled with the tangential flow filtration component such that the fluid sample is flowable from the settling compartment into the tangential flow filtration component. 8 . The sample purification system of claim 7 , further comprising a bioreactor fluidically coupled with the mixing compartment of the particulate removal assembly. 9 . The sample purification system of claim 7 , further comprising a fluid sample disposed in the particulate removal assembly, the fluid sample comprising: a first fluid phase having a first density; a second fluid phase having a second density, the second density being different than the first density, the first fluid phase being immiscible with the second fluid phase; a biological molecule disposed in the first fluid phase; and a particulate contaminant disposed in the second fluid phase. 10 . A two-phase contaminant removal system, comprising: an extraction component comprising a container assembly having a fluid sample disposed therein, the fluid sample comprising: a first fluid phase; a second fluid phase, the first fluid phase being immiscible with the second fluid phase; a biological molecule disposed in the first fluid phase; a particulate contaminant disposed in the second fluid phase; and the extraction component further comprising at least one acoustic settler attached to a portion of the container assembly, the at least one acoustic settler configured to emit an acoustic wave configured to settle the fluid sample. 11 . The contaminant re