Methods and systems for preparing drill cuttings for measuring petrophysical properties of subsurface formations

The invention claimed is: 1. A method for cleaning drill cuttings, the method comprising: collecting surfaced drill cutting samples from a shale shaker or a wellhead; filtering the surfaced drill cutting samples through a sieve having a first mesh size to remove cavings from the surfaced drill cuttings so that drill cuttings are obtained from the surfaced drill cuttings; placing the drill cuttings in a plurality of cylindrically shaped sieve baskets that are each disposed in one of a plurality of cylindrically shaped vessels; filling the vessels with brine if water-based-mud was used in drilling the drill cutting samples; filling the vessel with diesel if oil-based mud was used in drilling the drill cutting samples; and removing contaminants from the drill cuttings by sonicating the sieve baskets with ultrasonic waves from a sonicator while simultaneously mechanically shaking the sieve baskets with a mechanical means. 2. The method of claim 1 , further comprising: wherein each sieve has a first mesh size, wherein each sieve basket has a second mesh size, and wherein the second mesh size is smaller than the first mesh size. 3. The method of claim 2 , further comprising: moving the sieve basket to another vessel and repeating the steps of filling, mechanically shaking, and sonicating. 4. The method of claim 1 , further comprising: replacing the brine in the vessel with clean brine if water-based-mud was used in drilling the drill cutting samples, replacing the diesel in the vessel with clean diesel oil-based mud was used in drilling the drill cutting samples; and repeating sonicating and shaking the vessel to separate the drill cuttings from contaminants thereon. 5. The method of claim 1 , further comprising: separating the drill cuttings from the brine and conducting nuclear magnetic resonance (“NMR”) imaging of drill cuttings that are saturated with the brine when water-based-mud was used in drilling the drill cutting samples; and separating the drill cuttings from the diesel and conducting nuclear magnetic resonance (“NMR”) imaging of drill cuttings that are saturated with the diesel when oil-based-mud was used in drilling the drill cutting sample. 6. The method of claim 5 , wherein the drill cuttings are obtained from a formation being penetrated by the drilling operation, the method further comprising characterizing the formation based on the NMR imaging of the drill cuttings. 7. The method of claim 6 , wherein characterizing the formation comprises determining a matrix or grain density of the formation. 8. A system for cleaning drill cuttings, the system comprising: a sonicator-shaker comprising an ultrasonic bath sonicator and motor that simultaneously shakes and sonicates a sample; a plurality of vessels in the sonicator shaker, the vessels being separate from one another and having a generally cylindrically shaped outer surface and selectively containing brine if water-based-mud was used in drilling the drill cutting samples or diesel if oil-based-mud was used in drilling the drill cutting samples, the sonicator shaker configured to simultaneously sonicate and shake the vessel to separate contaminants from the drill cuttings; and sieve baskets in each of the vessels that selectively contains drill cuttings. 9. The system of claim 8 , wherein the sieve baskets each comprises: mesh configured into a tubular that define sidewalls of each sieve basket and mesh spanning between the sidewalls a distance offset from an axial end of the sidewalls to define a bottom. 10. The system of claim 9 , wherein the mesh structure and the mesh base have a mesh size of 0.5 mm. 11. The system of claim 8 , further comprising a nuclear magnetic resonance imager for imaging the drill cuttings saturated with brine if water-based mud was used in drilling the drill cutting samples or diesel if oil-based mud was used in drilling the drill cutting samples and a processor for characterizing a formation from where the drill cuttings were obtained.