Low sulfur fuel with adequate combustion quality

The invention claimed is: 1. A fuel composition having low sulfur content comprising from 10 vol % to 90 vol % of at least one petroleum distillate fraction having a cetane index of at least 8 and a residual component at from 10 vol % to 90 vol %, the fuel composition having the following enumerated properties: a sulfur content of about 0.50% or less by weight of the fuel composition; a calculated carbon aromaticity index of about 870 or less; a density at 15° C. of about 900 kg/m 3 to about 1,010 kg/m 3 ; a kinematic viscosity at 50° C. of about 100 centistokes to about 700 centistokes; and an estimated cetane number of about 7 to about 13. 2. The fuel composition of claim 1 , wherein the sulfur content is about 0.40 wt. % to about 0.5 wt. %. 3. The fuel composition of claim 1 , wherein the calculated aromaticity index is about 800 to about 870, wherein the density at 15° C. is about 950 kg/km 3 to about 1,000 kg/m 3 , wherein the kinematic viscosity at 50° C. is about 100 centistokes to about 380 centistokes, and wherein the estimated cetane number is about 7 to about 10. 4. The fuel composition of claim 1 , wherein the fuel composition is a residual marine fuel. 5. The fuel composition of claim 1 , wherein the residual component comprises a vacuum residual. 6. The fuel composition of claim 1 , wherein the residual component comprises a vacuum residual and FCC bottoms. 7. The fuel composition of claim 1 , wherein the at least one petroleum distillate fraction is present in an amount of about 25 vol. % or greater and has a cetane index of about 8 to about 29. 8. The fuel composition of claim 1 , wherein the at least one petroleum distillate fraction is present in an amount of about 10 vol. % or greater and has a cetane index of about 30 or greater. 9. The fuel composition of claim 1 , wherein the fuel composition comprises a residual component in an amount of about 50 vol. % to about 80 vol. % and a petroleum distillate fraction in an amount of about 20 vol. % to about 50 vol. %, wherein the petroleum distillate fraction has a cetane index of from about 8 to about 29. 10. The fuel composition of claim 1 , wherein the fuel composition comprises a first residual component in an amount of about 40 vol. % to about 65 vol. %, a second residual component in an amount of about 5 vol. % to about 20 vol. %, and a petroleum distillate fraction in an amount of about 15 vol. % to about 55 vol. %, wherein the petroleum distillate fraction has a cetane index of from about 8 to about 29. 11. The fuel composition of claim 1 , wherein the fuel composition comprises a residual component in an amount of about 45 vol. % to about 65 vol. %, a first petroleum distillate fraction in an amount of about 30 vol. % to about 40 vol. %, and a second petroleum distillate fraction in an amount of about 5 vol. % to about 25 vol. %, wherein the first petroleum distillate fraction has a cetane index of about 8 to about 29, and wherein the second petroleum distillate fraction has a cetane index of about 30 or greater. 12. The fuel composition of claim 1 , wherein the fuel composition comprises a first residual component in an amount of about 45 vol. % to about 65 vol. %, a second residual component in an amount of about 5 vol. % to about 20 vol. %, and a petroleum distillate fraction in an amount of about 5 vol. % to about 40 vol. %, wherein the petroleum distillate fraction has a cetane index of about 30 or greater. 13. The fuel composition of claim 1 , wherein the fuel composition comprises a first residual component in an amount of about 40 vol. % to about 60 vol. %, a second residual component in an amount of about 5 vol. % to about 20 vol. %, a first petroleum distillate fraction in an amount of about 10 vol. % to about 40 vol. %, and a second petroleum distillate fraction in an amount of about 5 vol. % to about 30 vol. %, wherein the first petroleum distillate fraction has a cetane index of about 8 to about 29, and wherein the second petroleum distillate fraction has a cetane index of about 30 or greater. 14. The fuel composition of claim 1 , wherein the fuel composition comprises a residual component having a T50 of about 615° C. or greater and a first distillate fraction having a density of about 910 kg/m 3 or less, and wherein the fuel composition is further characterized by at least one of the following: (i) an amount of about 25 vol. % or greater of the first distillate fraction with a cetane index of about 8 to about 29 or (ii) further comprising a second distillate fraction in an amount of about 10 vol. % or greater with a cetane index of about 30 or greater. 15. A method of blending fuel compositions, comprising: blending at from 10 vol % to 90 vol % of one or more residual components and one or more petroleum distillate fractions to prepare a fuel composition, wherein the fuel composition includes from 10 vol % to 90 vol % of the one or more petroleum distillate fractions having a cetane index of at least 8, wherein the fuel composition has the following enumerated properties: a sulfur content of about 0.50% or less by weight of the fuel composition; a calculated carbon aromaticity index of about 870 or less; a density at 15° C. of about 900 kg/m 3 to about 1,010 kg/m 3 ; a kinematic viscosity at 50° C. of about 100 centistokes to about 700 centistokes; and an estimated cetane number of about 7 to about 13. 16. The method of claim 15 , wherein the calculated aromaticity index is about 800 to about 870, wherein the density at 15° C. is about 950 kg/km 3 to about 1,000 kg/m 3 , and wherein the kinematic viscosity at 50° C. is about 100 centistokes to about 380 centistokes, and estimated cetane number is about 7 to about 13. 17. The method of claim 15 , wherein the petroleum distillate fraction comprises at least one of (i) a first distillate fraction in an amount of about 25 vol. % or greater with a cetane index of about 8 to about 29; or (ii) a second distillate fraction in an amount of about 10 vol. % or greater with a cetane index of about 30 or greater. 18. The method of claim 15 , wherein the one or more residual components comprises a residual component having a T50 of about 615° C. or greater, and wherein one or more petroleum distillate fractions comprises a first distillate fraction having a density of about 910 kg/m 3 or less. 19. The method of claim 15 , wherein the blending comprises blending an additional distillate fraction in an amount of about 10 vol. % or greater with a cetane index of about 30 or greater to enhance combustion quality of the fuel composition.