System for collecting liquid samples

What is claimed is: 1. A system comprising: a sample receiving line configured to receive a liquid segment; a first detector configured to detect at least one of a presence or an absence of the liquid segment at a first location in the sample receiving line, the first detector configured to register the absence of the liquid segment at the first location in the sample receiving line as a first state, and register the presence of the liquid segment at the first location in the sample receiving line as a second state; a second detector configured to detect at least one of a presence or an absence of the liquid segment at a second location in the sample receiving line downstream from the first location, the second detector configured to register the absence of the liquid segment at the second location in the sample receiving line as a first state, and register the presence of the liquid segment at the second location in the sample receiving line as a second state; a valve coupled between the first location in the sample receiving line and the second location in the sample receiving line, the valve switchable between at least two flow path configurations; a controller communicatively coupled with the first detector and the second detector, the controller configured to register a continuous liquid segment in the sample receiving line when the first detector is in the second state and the second detector is at the second state prior to the controller registering a change of state of the first detector from the second state to the first state; an analysis system at the first location; a remote sampling system at the second location remote from the first location, the remote sampling system configured to receive the liquid segment for analysis; and a sample transfer line configured to transport the liquid segment from the second location to the first location, the sample transfer line coupled with the remote sampling system so that the remote sampling system is operable to be in fluid communication with the sample transfer line for driving the liquid segment to the first location, wherein the analysis system includes the sample receiving line, and the sample receiving line is configured to selectively couple with the sample transfer line and the analysis system so that the sample receiving line is operable to be in fluid communication with the sample transfer line to receive the liquid segment and in fluid communication with the analysis system to supply the continuous liquid segment to the analysis system. 2. The system of claim 1 , further comprising a timer configured to monitor a time at which the second detector maintains the second state, wherein the controller is configured to register the continuous liquid segment in the sample receiving line when each of (i) the first detector is in the second state and the second detector is at the second state prior to the controller registering a change of state of the first detector from the second state to the first state and (ii) the time at which the second detector maintains the second state exceeds a threshold time. 3. The system of claim 1 , wherein the controller is configured to switch the valve between the at least two flow path configurations responsive to registering the continuous liquid segment in the sample receiving line. 4. The system of claim 1 , wherein a volumetric ratio of the liquid segment to the continuous liquid segment is greater than one. 5. The system of claim 1 , wherein the sample transfer line is at least five meters in length. 6. The system of claim 1 , wherein the sample transfer line is at least ten meters in length. 7. The system of claim 1 , wherein the sample transfer line is at least thirty meters in length. 8. The system of claim 1 , wherein the analysis system includes a plurality of analysis devices. 9. The system of claim 8 , wherein the plurality of analysis devices includes at least two of a mass spectrometer, an optical emission spectrometer, an ion chromatograph, a liquid chromatograph, a Fourier transform infrared spectrometer, a particle counter, a moisture analyzer, and a gas chromatograph. 10. A system comprising: a sample receiving line configured to receive a liquid segment the sample receiving line including a sample loop; a first detector configured to detect at least one of a presence or an absence of the liquid segment at a first location in the sample receiving line, the first detector configured to register the absence of the liquid segment at the first location in the sample receiving line as a first state, and register the presence of the liquid segment at the first location in the sample receiving line as a second state; a second detector configured to detect at least one of a presence or an absence of the liquid segment at a second location in the sample receiving line downstream from the first location, the second detector configured to register the absence of the liquid segment at the second location in the sample receiving line as a first state, and register the presence of the liquid segment at the second location in the sample receiving line as a second state; and a controller communicatively coupled with the first detector and the second detector, the controller configured to register a continuous liquid segment in the sample receiving line when the first detector is in the second state and the second detector is at the second state prior to the controller registering a change of state of the first detector from the second state to the first state, the controller further configured to determine whether the continuous liquid segment includes a chemical component that exceeds an element-specific contamination limit. 11. A method comprising receiving a liquid segment in a sample receiving line; registering a first state with a first detector responsive to detection of the liquid segment at a first location in the sample receiving line with the first detector, the first state of the first detector corresponding to a presence of the liquid segment at the first location; registering a first state with a second detector responsive to detection of the liquid segment at a second location in the sample receiving line downstream from the first location, the first state of the second detector corresponding to a presence of the liquid segment at the second location; monitoring whether the second detector registered the first state prior to the first detector registering a second state, the second state corresponding to an absence of the liquid segment at the first location; registering a continuous liquid segment in the sample receiving line when the second detector registered the first state prior to the first detector registering a second state; monitoring a time at which the second detector maintains the first state; and transferring the continuous liquid segment from the sample receiving line to an analysis system responsive to registering the continuous liquid segment in the sample receiving line, the step of transferring the continuous liquid segment from the sample receiving line to an analysis system responsive to registering the continuous liquid segment in the sample receiving line including at least one of: automatically switching a valve from a first flow path configuration to a second flow path configuration to transfer the continuous liquid segment from the sample receiving line to the analysis system responsive to registering the continuous liquid segment in the sample receiving line; or transferring the continuous liquid segment from the sample receiving line to a plurality of analysis devices responsive to registering the continuous liquid segment in the sample receiving line.