Method for determining a dwell volume of a chromatographic system

What is claimed is: 1. A method for determining a dwell volume of a liquid chromatography system, comprising: mixing a flow of a first solvent and a flow of a second solvent at a mixing location to generate a solvent mixture in a system flow of a liquid chromatography system; decreasing the flow of the first solvent and increasing the flow of the second solvent over a gradient duration to generate a gradient composition for the solvent mixture; measuring a system pressure of the liquid chromatography system to determine a pressure trace defined as the measured system pressure as a function of time; and determining a dwell volume of the liquid chromatography system from a product of a known flow rate and a time delay determined between the gradient composition at the mixing location and the pressure trace and from a known volume of a chromatographic column in the liquid chromatography system. 2. The method of claim 1 wherein the solvent mixture has a viscosity and wherein the viscosity changes in response to the gradient composition. 3. The method of claim 2 wherein the change in viscosity is substantially linearly proportional to a change in the solvent mixture according to the gradient composition. 4. The method of claim 1 wherein a viscosity of the first solvent is different than a viscosity of the second solvent. 5. The method of claim 1 wherein the gradient composition is a linear gradient composition. 6. The method of claim 1 wherein the gradient composition is a step gradient. 7. The method of claim 1 wherein the determining of the dwell volume comprises: determining a product of the time delay and a flow rate of the solvent mixture; and subtracting half of the volume of the chromatographic column from the product. 8. The method of claim 1 wherein the liquid chromatography system includes a flow restrictor configured to provide a system pressure drop for the system flow and wherein the determining of the dwell volume comprises determining a product of the time delay and a flow rate of the solvent mixture. 9. The method of claim 1 wherein the gradient composition is a nonlinear gradient composition determined to provide a substantially linear pressure change for at least a portion of the pressure trace responsive to the gradient composition. 10. A computer program product for determining a dwell volume of a liquid chromatography system, the computer program product comprising: a non-transitory computer readable storage medium having computer readable program code embodied therewith, the computer readable program code comprising: computer readable program code configured to mix a first solvent and a second solvent at a mixing location to generate a solvent mixture in a system flow of a liquid chromatography system; computer readable program code configured to decrease the flow of the first solvent and increase the flow of the second solvent over a gradient duration to generate a gradient composition for the solvent mixture; computer readable program code configured to measure a system pressure and determine a pressure trace therefrom, the pressure trace defined as the measured system pressure as a function of time; and computer readable program code configured to determine a dwell volume of the liquid chromatography system from a product of a known flow rate and a time delay between the gradient composition at the mixing location and the pressure trace and from a known volume of a chromatographic column in the liquid chromatography system. 11. The computer program product of claim 10 wherein the computer readable program code configured to determine a dwell volume comprises: computer readable program code configured to determine a product of the time delay and a flow rate of the solvent mixture; and computer readable program code configured to subtract half of the volume of the chromatographic column from the product. 12. A liquid chromatography system comprising; a source of a first solvent and a source of a second solvent; a mixer having a mixer inlet to receive the first and second solvents and a mixer outlet to provide a solvent mixture; a pump having a pump inlet in fluidic communication with the mixer outlet and having a pump outlet, the pump receiving the solvent mixture at the pump inlet and providing the solvent mixture at a system pressure in a system flow dispensed from the pump outlet; a flow restrictor having a restrictor inlet in fluidic communication with the pump outlet and having a restrictor outlet; a pressure sensor disposed in a system flow after the pump outlet and generating a pressure signal indicating a measured system pressure; and a processor in communication with the sources of the first and second solvents and with the pressure sensor, the processor configured to: generate a gradient composition in the system flow by controlling a contribution of the first solvent and a contribution of the second solvent to the mixer; determine a pressure trace from the pressure signal, the pressure trace defined as the measured system pressure as a function of time; determine a time delay between the gradient composition at the mixing location and the pressure trace; and determine a dwell volume of the liquid chromatography system from a product of a known flow rate and the time delay. 13. The liquid chromatography system of claim 12 further comprising a gradient proportioning valve disposed between the mixer and the sources of the first and second solvents. 14. The liquid chromatography system of claim 12 wherein the processor determines the dwell volume as a product of the time delay and a flow rate of the solvent mixture. 15. The liquid chromatography system of claim 12 wherein the flow restrictor is a chromatographic column and wherein the determining of the dwell volume comprises: determining a product of the time delay and a flow rate of the solvent mixture; and subtracting half of a volume of the chromatographic column from the product. 16. A liquid chromatography system comprising: a source of a first solvent and a source of a second solvent; a first pump having a first pump inlet in fluidic communication with the source of the first solvent and having a first pump outlet; a second pump having a second pump inlet in fluidic communication with the source of the second solvent and having a second pump outlet; a mixer having a first mixer inlet and a second mixer inlet in fluidic communication with the first pump outlet and the second pump outlet, respectively, the mixer having a mixer outlet to provide a solvent mixture; a flow restrictor having a restrictor inlet in fluidic communication with the pump outlet and having a restrictor outlet; a pressure sensor disposed in a system flow after the mixer outlet and generating a pressure signal indicating a measured system pressure; and a processor in communication with the first and second pumps and the pressure sensor, the processor configured to: generate a gradient composition in the system flow by controlling a contribution of the first solvent and a contribution of the second solvent to the mixer; determine a pressure trace from the pressure signal, the pressure trace defined as the measured system pressure as a function of time; determine a time delay between the gradient composition at the mixing location and the pressure trace; and determine a dwell volume of the liquid chromatography system from a product of a known flow rate and the time delay. 17. The liquid chromatography system of claim 16 wherein the processor determines the dwell volume as a product of the time delay and a flow rate of the solvent m