Acoustically settled liquid-liquid sample purification system

What is claimed is: 1. A method of purifying a sample in a two-phase system, comprising: providing a first liquid and a second liquid, the first liquid comprising a first fluid phase and an amount of a first molecule disposed in the first phase, the first phase having a first density, the second liquid comprising a second fluid phase, the second phase having a second density, the second density being different than the first density, the first phase and the second phase being immiscible; mixing the first liquid with the second liquid to form a mixture, the mixture comprising the first phase, the second phase, and the amount of the first molecule, at least some of the amount of the first molecule being disposed in the second phase of the mixture; allowing a first portion of the mixture to settle in a settling zone of a sample purification compartment to form a partially purified first phase sample portion and a partially purified second phase sample portion; removing a portion of the partially purified second phase sample portion from the settling zone into a conduit external to the sample purification compartment and that has opposing ends in fluid communication with the sample purification compartment, the removed portion of the partially purified second phase sample portion comprising a portion of the second phase, a portion of the amount of the first molecule, and a first number of first phase droplets, the first number of first phase droplets having a first average diameter; applying an acoustic wave to the removed portion of the partially purified second phase sample portion in the conduit to form a first acoustically treated sample portion, the first acoustically treated sample portion comprising the portion of the second phase, the portion of the amount of the first molecule, and a second number of first phase droplets, the second number of first phase droplets having a second average diameter, the second number being less than the first number, the second average diameter being larger than the first average diameter, the acoustic wave enhancing co-localization of at least a portion of the first number of first phase droplets thereby enhancing coalescence of the at least a portion of the first number of first phase droplets into the second number of first phase droplets; and re-introducing the first acoustically treated sample portion into the sample purification compartment. 2. The method of claim 1 , wherein re-introducing the first acoustically treated sample portion into the sample purification compartment comprises: combining the first acoustically treated sample portion with a second portion of the mixture present in the settling zone of the sample purification compartment to form a partially purified mixture, the second portion of the mixture comprising a further portion of the second phase, a further portion of the amount of the first molecule, and a third number of first phase droplets, the further portion of the second phase mixing with the portion of the second phase from the first acoustically treated sample portion to form a further purified second phase sample portion of the partially purified mixture; and allowing at least some of the second number of first phase droplets from the first acoustically treated sample portion to coalesce with at least some of the third number of first phase droplets in the second portion of the mixture to form a first phase body of the partially purified mixture, the first phase body having a buoyancy or density sufficient to flow counter-currently to the further purified second phase sample portion of the partially purified mixture. 3. The method of claim 2 , further comprising harvesting at least a portion of the further purified second phase sample portion. 4. The method of claim 2 , further comprising: removing at least some of the partially purified mixture or the further purified second phase sample portion thereof from the sample purification compartment; applying a further acoustic wave to the at least some of the partially purified mixture or the further purified second phase sample portion thereof to form a second acoustically treated sample portion; and, either (i) combining the second acoustically treated sample portion with a third portion of the mixture, the third portion of the mixture comprising a still further portion of the second phase, a still further portion of the amount of the first molecule, and a fourth number of first phase droplets in the second acoustically treated sample portion, or (ii) harvesting at least some of the second acoustically treated sample portion. 5. The method of claim 1 , further comprising repeatedly removing, acoustically treating, and re-introducing at least partially purified second phase sample in a continuous recirculation loop through the conduit. 6. The method of claim 1 , wherein the partially purified first phase sample portion in the settling zone of the sample purification compartment comprises a portion of the first phase and a first number of second phase droplets, the first number of second phase droplets having a third average diameter, the method further comprising: removing a portion of the partially purified first phase sample portion from the settling zone; applying a further acoustic wave to the removed portion of the partially purified first phase sample portion to form a third acoustically treated sample portion, the third acoustically treated sample portion comprising a portion of the first phase and a second number of second phase droplets, the second number of second phase droplets having a fourth average diameter, the second number of second phase droplets being less than the first number of second phase droplets, the fourth average diameter being larger than the third average diameter, the further acoustic wave enhancing co-localization of at least a portion of the first number of second phase droplets, thereby enhancing coalescence of the at least a portion of the first number of second phase droplets, and optionally re-introducing the second acoustically treated sample portion into the sample purification compartment. 7. The method of claim 1 , further comprising: flowing the first liquid into the sample purification compartment through a first inlet; flowing the second liquid into the sample purification compartment through a second inlet; mixing the first liquid and the second liquid in a mixing zone of the sample purification compartment; and allowing the first portion of the mixture to pass from the mixing zone into the settling zone adjacent to the mixing zone prior to allowing the first portion of the mixture to settle. 8. The method according to claim 1 , wherein the first liquid further comprises an amount of a second molecule, wherein: the first molecule comprises an enzyme, viral particle, therapeutic protein, nucleic acid, or immunoglobulin, and the second molecule comprises a contaminant, or vice versa; the first molecule comprises a contaminant and the second molecule comprises a hydrocarbon, or vice versa; or the first molecule comprises a contaminant and the second molecule comprises a nutritional supplement, flavor additive, edible product, or food sample, or vice versa. 9. A method of purifying a sample in a two-phase system, comprising: mixing a first liquid with a second liquid to form a mixture, the first liquid comprising a first fluid phase and an amount of a molecule disposed in the first phase, the second liquid comprising a second fluid phase, the first phase and the second phase being immiscible; settling a first portion of the mixture into a partially purified first phase sample and a partially purified second phase sample, the partially purified second phase sample