Asphaltene content of heavy oil

What is claimed is: 1. A method, comprising: conveying a downhole tool within a borehole extending into a subterranean formation, wherein the subterranean formation comprises a fluid of varying viscosity; drawing fluid from the subterranean formation into the downhole tool; measuring fluorescence intensity of the drawn fluid via a sensor of the downhole tool; and estimating asphaltene content of the drawn fluid based on the measured fluorescence intensity utilizing a relationship between fluorescence intensity and asphaltene content given by: I f - 1 = α ⁡ [ 1 + β ′ η ⁡ [ A ] ] ; wherein: I f is the measured fluorescence intensity; α is a fitting parameter; β′ is a parameter defined as: (8RTτ 0 )/3; R is the universal gas constant; T is temperature of the drawn fluid; τ 0 is intrinsic fluorescence lifetime; η is the viscosity; and [A] is the asphaltene content. 2. The method of claim 1 wherein the fluid comprises hydrocarbons. 3. The method of claim 1 wherein the fluid comprises heavy oil. 4. The method of claim 1 wherein the fluid comprises heavy oil having an asphaltene content of at least about 2% by weight. 5. The method of claim 1 wherein the fluid comprises heavy oil having a minimum viscosity of about 1500 cP. 6. The method of claim 1 wherein conveying the downhole tool within the borehole is via wireline or tubular string. 7. The method of claim 1 wherein estimating asphaltene content of the drawn fluid based on the measured fluorescence intensity is performed downhole by the downhole tool. 8. The method of claim 7 further comprising transmitting information regarding the estimated asphaltene content from the downhole tool to equipment at the Earth's surface in communication with the downhole tool. 9. The method of claim 1 further comprising measuring viscosity of the drawn fluid via an additional sensor of the downhole tool, wherein estimating asphaltene content of the drawn fluid is further based on the measured viscosity. 10. The method of claim 1 further comprising estimating viscosity of the drawn fluid based on previously obtained logging data associated with the subterranean formation, wherein estimating asphaltene content of the drawn fluid is further based on the estimated viscosity. 11. The method of claim 1 further comprising determining whether viscosity of the drawn fluid has been measured, wherein: if viscosity of the drawn fluid has been measured, estimating asphaltene content of the drawn fluid is further based on the measured viscosity; and if viscosity of the drawn fluid has not been measured, the method further comprises estimating viscosity of the drawn fluid based on previously obtained logging data associated with the subterranean formation, wherein estimating asphaltene content of the drawn fluid is further based on the estimated viscosity. 12. The method of claim 1 further comprising estimating viscosity of the drawn fluid based on the measured fluorescence intensity, wherein estimating asphaltene content of the drawn fluid is further based on the estimated viscosity. 13. The method of claim 1 further comprising determining whether viscosity of the drawn fluid has been measured, wherein: if viscosity of the drawn fluid has been measured, estimating asphaltene content of the drawn fluid is further based on the measured viscosity; and if viscosity of the drawn fluid has not been measured, the method further comprises estimating viscosity of the drawn fluid based on the measured fluorescence intensity, wherein estimating asphaltene content of the drawn fluid is further based on the estimated viscosity. 14. The method of claim 1 further comprising adjusting an operational parameter of the downhole tool based on the estimated asphaltene content. 15. The method of claim 1 further comprising: directing the drawn fluid into a sample chamber of the downhole tool based on the estimated asphaltene content; and retrieving the downhole tool from the borehole to the Earth's surface and then withdrawing the fluid from the sample chamber. 16. The method of claim 1 further comprising adjusting an operational parameter of a pump of the downhole tool based on the estimated asphaltene content. 17. A method, comprising: conveying a downhole tool within a borehole extending into a subterranean formation, wherein the subterranean formation comprises a fluid of varying viscosity; drawing fluid from the subterranean formation into the downhole tool; measuring fluorescence intensity of the drawn fluid via a sensor of the downhole tool; and estimating asphaltene content of the drawn fluid based on the measured fluorescence intensity utilizing a relationship between fluorescence intensity and asphaltene content given by: I f −1 =α[1+β″(1− K′[A ]) ν [A]], wherein: I f is the measured fluorescence intensity; α is a fitting parameter; β″ is a parameter defined as: 8RTτ 0 /(3η m ); R is the universal gas constant; T is temperature of the drawn fluid; τ 0 is intrinsic fluorescence lifetime; K′ is a constant; [A] is the asphaltene content; ν is a constant; and η m is the viscosity of free maltine. 18. The method of claim 17 wherein K′ may have a value of about 1.88 and ν may have a value of about 6.9.