Optical fluid analyzer with calibrator and method of using same

What is claimed is: 1. A fluid analyzer for a downhole tool positionable in a wellbore penetrating a subterranean formation, a downhole fluid receivable in a flowline of the downhole tool, the fluid analyzer comprising: an optical sensor positioned in the downhole tool to receive the downhole fluid via flow in a direction from an inlet of the optical sensor, the optical sensor comprising an optical cell to measure properties of the downhole fluid, and the optical sensor having a wavelength range for the downhole fluid; an outlet flowline in fluid communication with the optical sensor for at least flow of the downhole fluid out of the optical sensor; an amount of a calibration liquid that is a solvent that has a zero optical density in the wavelength range for the downhole fluid, wherein the amount is sufficient for a plurality of calibrations; and a calibrator comprising a chamber for the calibration liquid and a drive mechanism that drives the calibration liquid from the chamber to the optical sensor via a calibration flowline coupled to the outlet flowline, wherein the calibration flowline joins the outlet flowline at a location between the optical sensor and a valve of the outlet flowline, wherein the valve is closed for flow of the calibration liquid to the optical sensor, and whereby a first measurement made by the optical sensor for a first one of the calibrations provided with a first portion of the calibration liquid by the drive mechanism, at a first downhole operating temperature of the optical sensor, is indicative of a first accuracy of the optical sensor based on a first in situ downhole physical condition of the optical sensor at the first downhole operating temperature and a second measurement made by the optical sensor for a second one of the calibrations provided with a second portion of the calibration liquid by the drive mechanism, at a second downhole operating temperature of the optical sensor, is indicative of a second accuracy of the optical sensor based on second in situ downhole physical condition of the optical sensor at the second downhole operating temperature. 2. The fluid analyzer of claim 1 , wherein the calibration liquid has zero optical density the downhole operating temperature and a corresponding downhole operating pressure. 3. The fluid analyzer of claim 1 , wherein the calibration liquid has an intensity of transmitted light in the wavelength range. 4. The fluid analyzer of claim 1 , wherein the calibrator further comprises at least one additional valve positionable along the flowline to selectively provide the downhole fluid thereto. 5. The fluid analyzer of claim 1 , wherein the optical sensor comprises a spectrometer. 6. The fluid analyzer of claim 1 wherein the drive mechanism comprises a piston that drives the calibration liquid from the chamber by reducing the volume of the chamber. 7. The fluid analyzer of claim 1 wherein the chamber is a variable volume chamber defined by a slidable calibration piston that is slidably positionable by the drive mechanism. 8. The fluid analyzer of claim 1 wherein the calibration liquid washes the optical sensor. 9. The fluid analyzer of claim 1 , wherein the calibration liquid comprises carbon tetrachloride. 10. The fluid analyzer of claim 1 , wherein the in situ physical conditions of the optical sensor depends on cleaning of the optical call by the calibration liquid. 11. A downhole tool positionable in a wellbore penetrating a subterranean formation, the downhole tool comprising: a housing having a flowline receving a downhole fluid therein; and a fluid analyzer, comprising: an optical sensor positioned in the downhole tool to receive the downhole fluid via flow in a direction from an inlet of the flowline to a fluid inlet of the optical sensor, the optical sensor comprising an optical cell to measure properties of the downhole fluid in the flowline, and the optical sensor having wavelength range for the downhole fluid; an outlet flowline in fluid communication with the optical sensor for at least flow if the downhole fluid out of the optical sensor; an amount of a calibration liquid that is a solvent that has a zero optical density in the wavelength range for the downhole fluid, wherein in the amount is sufficient for a plurality of calibrations; and a calibrator comprising a chamber for the calibration liquid and a drive mechanism that drives the calibration liquid from the chamber to the optical sensor via a calibration flowline coupled to the outlet flowline, wherein the calibration flowline joins the outlet flowline at a location between the optical sensor and a valve, wherein the valve is closed for flow of the calibration liquid to the optical sensor, and whereby a first measurement made by the optical sensor for a first one of the calibrations provided with a first portion of the calibration liquid by the drive mechanism, at a first downhole operating temperature of the optical sensor, is indicative of a first accuracy of the optical sensor based on a first in situ downhole physical condition of the optical sensor at the first downhole operating temperature and a second measurement made by the optical sensor for a second one of the calibrations provided with a second portion of the calibration liquid by the drive mechanism, at a second downhole operating temperature of the optical sensor, is indicative of a second accuracy of the optical sensor based on second in situ downhole physical condition of the optical sensor at the second downhole operating temperature. 12. The downhole tool of claim 11 , further comprising a probe positionable adjacent a wall of the wellbore and having an inlet to intake the downhole fluid, the inlet fluidly coupled to the optical sensor via the flowline. 13. A method of calibrating a fluid analyzer of a downhole tool positionable in a wellbore penetrating a subterranean formation, a downhole fluid receivable in a flowline of the downhole tool, the method comprising: providing the fluid analyzer with a calibrator, comprising: an optical sensor positioned in the downhole tool to receive the downhole fluid therefrom, the optical sensor comprising an optical cell to measure properties of the downhole fluid in the flowline, and the optical sensor having a wavelength range for the downhole fluid; an outlet flowline in fluid communication with the optical sensor for at least flow of the downhole fluid out of the optical sensor; an amount of a calibration liquid that is solvent that has a zero optical density in the wavelength range for the downhole fluid, wherein the amount is sufficient for a plurality of calibrations; and a calibrator comprising a chamber for the calibration liquid and a drive mechanism that drives the calibration liquid from the chamber to the optical sensor via a calibration flowline coupled to the outlet flowline, wherein the calibration flowline joins the outlet flowline at a location between the optical sensor and a valve, wherein the valve is closed for flow of the calibration liquid to the optical sensor, and whereby a measurement made by the optical sensor for one of the calibrations, at a downhole operating temperature of the optical sensor, is indicative of accuracy of the optical sensor based in in situ downhole physical condition of the optical sensor at the downhole operating temperature; for a calibration at a first downhole operating temperature, providing a portion of the calibration liquid to the fluid analyzer via the calibrator and measuring the calibration liquid at a downhole location with the optical sensor to provide a measurement for the first downhole operating temperature; and for another calibrat