Automatic gas sample handling and preparation for surface data logging applications

What is claimed is: 1. A method for conditioning an extracted downhole sample by a sample handling system, comprising: extracting a sample fluid from a borehole; drawing the extracted sample fluid from a source to an input line of the sample handling system using a pump assembly; increasing the pressure of the extracted sample fluid using the pump assembly to transition the extracted sample fluid from a vacuum to a pressure higher than the vacuum; separating, by a membrane separator coupled in-line with the pump assembly, from the extracted sample fluid having an increased pressure at least one of one or more particulates and one or more liquids to form a gas component, and wherein a liquids and particulates component is formed by the separated at least one of the one or more particulates and the one or more liquids; flowing the liquids and particulates component to a filter coupled to the membrane separator; and discharging from the filter an excess portion of the liquids and particulates component. 2. The method of claim 1 , further comprising: determining a pressure at the input line based on one or more measurements from a pressure transducer coupled to the input line proximate to the source; comparing the pressure to a pressure threshold; and initiating a blowback operation based, at least in part, on the comparison. 3. The method of claim 2 , further comprising: switching a solenoid to a blowback state, wherein the solenoid is coupled to the input line between the pump assembly and the source; and flowing an air through the input line, wherein the solenoid seals off the pump assembly to prevent flow of the air to the pump assembly. 4. The method of claim 1 , further comprising: flowing a first portion of the gas component to a first analyzer; measuring a total hydrocarbon component of the first portion by the first analyzer; and altering a drilling operation based, at least in part, on a comparison of the total hydrocarbon component to a threshold. 5. The method of claim 1 , further comprising: flowing a second portion of the gas component to a second analyzer; and measuring one or more concentration levels of one or more elements of the gas component by the second analyzer; and altering a drilling operation based, at least in part, on a comparison of at least one of the one or more concentration levels to a threshold. 6. The method of claim 1 , further comprising flowing the gas component to an add-on process module coupled to the membrane separator. 7. The method of claim 5 , further comprising controlling, by a flow controller, flow of the gas component to the second analyzer. 8. A sample handling system, comprising: an input line coupled to a source; a pump assembly coupled to the input line, wherein the pump assembly draws an extracted fluid from a source through the input line; a high pressure line coupled to the pump assembly, wherein the pump assembly increases the pressure of the extracted fluid through the high pressure line to a pressure higher than a vacuum; a membrane separator coupled in-line with the high pressure line, wherein the membrane separator separates from the extracted fluid having an increased pressure at least one of one or more particulates and one or more liquids to form a gas component, and wherein a liquids and particulates component is formed by the separated at least one of the one or more particulates and the one or more liquids; a filter coupled to the membrane separator, wherein the filter receives an excess portion of the liquids and particulates component; and an output port coupled to the filter, wherein the filter discharges the excess portion to the output port. 9. The sample handling system of claim 8 , further comprising: a transducer coupled to the input line proximate to the source, wherein the pressure transducer generates a measurement indicative of a pressure at the input line. 10. The sample handling system of claim 9 , further comprising a solenoid coupled to the input line between the pump assembly and the source, wherein the solenoid switches to a blowback state based, at least in part, on the measurement, and wherein the solenoid seals off the pump assembly to prevent flow of air to the pump assembly during the blowback state. 11. The sample handling system of claim 8 , further comprising: a first output path of the filter; and a second output path of the filter; wherein the first output path couples to a condensate output port; and wherein the second output path couples to an exhaust. 12. The sample handling system of claim 11 , further comprising a solenoid coupled to the first output path, wherein the solenoid allows a portion of the liquids and particulates component to be discharged through the condensate output port. 13. The sample handling system of claim 11 , further comprising a proportional valve coupled to the second output path, wherein the proportional valve allows an excess gas portion of the liquids and particulates component to be discharged to the exhaust. 14. The sample handling system of claim 8 , further comprising: a manifold coupled to the membrane separator; and one or more analyzers, wherein the one or more analyzers receive the gas component from the manifold. 15. The sample handling system of claim 14 , wherein the one or more analyzers comprise at least a total hydrocarbon analyzer or a gas chromatograph analyzer. 16. The sample handling system of claim 14 , further comprising a transducer coupled to the manifold, wherein the transducer measures pressure at the manifold. 17. The sample handling system of claim 8 , further comprising one or more add-on process modules coupled to the membrane separator, wherein the one or more add-on process modules further condition the gas component. 18. A sample analysis system, comprising: a control system; a sample handling system communicatively coupled to the control system, wherein the sample handling system comprises: an input line coupled to a source; a pump assembly coupled to the input line, wherein the pump assembly draws an extracted fluid from a source through the input line; a high pressure line coupled to the pump assembly, wherein the pump assembly increases the pressure of the extracted fluid through the high pressure line to a pressure higher than a vacuum; a membrane separator coupled in-line with the high pressure line, wherein the membrane separator separates from the extracted fluid having an increased pressure at least one of one or more particulates and one or more liquids to form a gas component, and wherein the liquids and particulates component is formed by the separated at least one of the one or more particulates and the one or more liquids; a filter coupled to the membrane separator, wherein the filter receives an excess portion of the liquids and particulates component; and an output port coupled to the filter, wherein the filter discharges the excess portion to the output port. 19. The system of claim 18 , further comprising: a transducer coupled to the input line proximate to the source, wherein the pressure transducer generates one or more measurements indicative of a pressure at the input line; and wherein the control system receives the one or more measurements from the transducer, and wherein the control system triggers a blowback operation based, at least in part, on the one or more measurements. 20. The system of claim 18 , further comprising: a first output path of the filter; a second output path