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Methods comprising lowering a downhole tool via a pipe into a wellbore drilled through a formation via the pipe, establishing fluid communication between the downhole tool and the formation at a location in the wellbore, extracting from the formation a first fluid stream and passing the first fluid

Methods comprising lowering a downhole tool via a pipe into a wellbore drilled through a formation via the pipe, establishing fluid communication between the downhole tool and the formation at a location in the wellbore, extracting from the formation a first fluid stream and passing the first fluid stream through the downhole tool for a first duration, breaking fluid communication between the downhole tool and the formation, reestablishing fluid communication between the downhole tool and the formation essentially at the location in the wellbore, extracting from the formation a second fluid stream and passing the second fluid stream through the downhole tool for a second duration, and capturing in the downhole tool a fluid sample of the second fluid stream.mud.

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1. A method, comprising: lowering a downhole tool via a pipe into a wellbore drilled through a formation via the pipe;establishing fluid communication between the downhole tool and the formation at a location in the wellbore;extracting a first fluid stream from the formation and passing the first fl

1. A method, comprising: lowering a downhole tool via a pipe into a wellbore drilled through a formation via the pipe;establishing fluid communication between the downhole tool and the formation at a location in the wellbore;extracting a first fluid stream from the formation and passing the first fluid stream through the downhole tool for a first duration;breaking fluid communication between the downhole tool and the formation;moving the pipe in the wellbore;reestablishing fluid communication between the downhole tool and the formation essentially at the location in the wellbore; andextracting a second fluid stream from the formation through the fluid communication and passing the second fluid stream through the downhole tool for a second duration;wherein the steps of establishing fluid communication between the downhole tool and the formation, extracting and passing the first fluid stream through the downhole tool for the first duration, breaking fluid communication between the downhole tool and the formation, reestablishing fluid communication between the downhole tool and the formation essentially at the location, and extracting and passing the second fluid stream through the downhole tool for the second duration, collectively, form at least one of a plurality of pumping phases; andat least one of the plurality of pumping phases comprises measuring a parameter indicative of a fraction of mud filtrate or formation connate fluid in one of the fluid streams; andthe number of pumping phases included in the method is determined based on whether a rate of decline of the indicated fraction meets a threshold. 2. The method of claim 1 wherein the measured parameter is one of a mass spectrum, an optical spectrum, and a nuclear-magnetic-resonance (NMR) spectrum. 3. The method of claim 2 wherein: the moving, reestablishing, additional fluid stream extracting, and measuring steps, collectively, comprise a pumping sequence; andthe method further comprises: successively repeating the pumping sequence; andanalyzing the spectra obtained during the successive pumping sequences to determine whether the pumped fluid is of sufficient quality to capture. 4. The method of claim 1 wherein measuring the parameter comprises determining at least one contamination value as determined by the fraction of mud filtrate in the first fluid extracted from the formation. 5. The method of claim 4 wherein measuring the parameter comprises: measuring a plurality of fluid property values indicative of the fraction of mud filtrate in the first fluid extracted from the formation during the first duration;determining a contamination trend from the plurality of fluid property values; andcomparing the at least one contamination value to the contamination trend. 6. The method of claim 1 wherein establishing a fluid communication comprises extending a probe of the downhole tool to engage a wall of the wellbore. 7. The method of claim 1 comprising capturing, in the downhole tool, a fluid sample of the second fluid stream. 8. The method of claim 7 comprising: measuring the composition of one of the first and second fluid streams passing through the tool;comparing the measured composition with a model or expected composition; andinitiating the fluid sample capture based on the comparison. 9. The method of claim 7 comprising: comparing the indicated fraction with a prediction based on a model; andinitiating the fluid sample capture based on the comparison. 10. The method of claim 1 wherein one of the first and second durations is predetermined based on a prediction of a model simulating sampling operations. 11. The method of claim 1 wherein one of the first and second durations is predetermined based on the well or operating conditions. 12. The method of claim 1 wherein one of the first and second durations is predetermined based on a sticking model in combination with a sticking test performed in situ. 13. A method, comprising: lowering a downhole tool via a pipe into a wellbore drilled through a formation via the pipe;establishing a fluid communication between the downhole tool and the formation at a location in the wellbore;extracting a first fluid from the formation and passing it through the downhole tool for a first duration;breaking the fluid communication between the downhole tool and the formation;moving the pipe in the wellbore;reestablishing fluid communication between the downhole tool and the formation essentially at the same location in the wellbore; andextracting a second fluid from the formation and passing it through the downhole tool for a second duration;wherein the steps of establishing fluid communication between the downhole tool and the formation, extracting and passing the first fluid stream through the downhole tool for the first duration, breaking fluid communication between the downhole tool and the formation, reestablishing fluid communication between the downhole tool and the formation essentially at the location, and extracting and passing the second fluid stream through the downhole tool for the second duration, collectively, form at least one of a plurality of pumping phases; andthe number of pumping phases included in the method is determined by utilizing a model capable of predicting, given a current status of contamination, the time required to reach a desired level of contamination in the extracted fluid. 14. The method of claim 13 comprising measuring a property indicative of a composition of the extracted fluid of each of the first and second fluid streams. 15. The method of claim 13 comprising measuring a property indicative of a density or viscosity of the extracted fluid of the second fluid stream; and measuring a pressure and temperature of the extracted fluid of the second fluid stream. 16. The method of claim 13 wherein a drill bit is connected at a distal end of the pipe, and wherein the method further comprises drilling the formation using the drill bit. 17. The method of claim 13 comprising capturing, in the downhole tool, a fluid sample of the second fluid stream. 18. The method of claim 17 comprising: measuring the composition of one of the first and second fluid streams passing through the tool;comparing the measured composition with an expected composition based on the model; andinitiating the fluid sample capture based on the comparison. 19. The method of claim 17 comprising: measuring a parameter indicative of a fraction of mud filtrate or formation connate fluid in the first or second fluid streams;comparing the indicated fraction with a prediction based on the model; andinitiating the fluid sample capture based on the comparison. 20. The method of claim 13, further comprising wherein the number of pumping phases is determined based on a sticking test.