Distillate example sentences

"Distillate" Example Sentences

1. The distillate was collected for further testing.
2. The crude oil was distilled to produce gasoline and other distillates.
3. The fractional distillation column separates the crude oil into distillates.
4. Kerosene and diesel fuel are common middle distillates from petroleum refining.
5. Gasoline is a light distillate obtained from crude oil.
6. Heat was applied to the mixture to distill off the lower boiling point distillates.
7. Petroleum coke remained as residue after the most volatile distillates were obtained.
8. The summer diesel distillate commands a higher price due to seasonal demand.
9. Fractional distillation separates crude oil into fractions based on their boiling points and properties of the distillates.
10. Liquefied petroleum gas is a light distillate extracted from natural gas or refinery off gas.
11. The residual oil is the heaviest distillate remaining after fractional distillation.
12. Hexane, benzene and toluene are aromatic distillates from crude oil processing.
13. Lubricating oils are high viscosity residual distillates used for mechanical applications.
14. The seed oil was subjected to distillation to obtain volatile distillates.
15. Fuel oil is a middle distillate used for heating and fuel.
16. Light naphtha is the lightest distillate used as petrochemical feedstock.
17. The aqueous distillate was collected for further analysis.
18. The wood was carbonized to yield condensable distillates.
19. The process generates distillates that are useful as industrial solvents.
20. The distillate fraction was found to contain reactive aldehyde compounds.
21. The distillate separated based on differences in boiling points.
22. The purest distillate fraction was collected for further testing.
23. The vegetable oil distillate has many potential industrial applications.
24. The mild distillate was found suitable for use as a solvent.
25. Distillation yielded two main distillate fractions with very different properties.
26. Steam distillation was used to obtain volatile aroma distillates from the rose petals.
27. Biomass pyrolysis produces valuable bio-oil distillates.
28. The aqueous distillate solution was found to contain organic acids and alcohols.
29. The red distillate fraction was found to be highly corrosive.
30. The residues and distillates were separated for further processing.
31. The first distillate fraction contained predominantly light alkenes.
32. The heavy distillate fraction was found to contain primarily aromatics.
33. Residue hydrocracking improves the quality of heavy distillate streams.
34. Better catalysts are needed to maximize distillate yields from resid hydrotreating.
35. The light naphtha stream contained only a small amount of valuable distillate.
36. The refinery upgrade aims to maximize production of mid-distillate fuels.
37. The unique composition of the highvalue distillate makes it suitable for specialty applications.
38. The pyrolysis vapors were condensed to yield various bio-oil distillates.
39. The brownish colour distillate exhibited strong antimicrobial properties.
40. The pink-coloured distillate had the lowest acid number of the fractions obtained.
41. Azeotropic distillation was used to isolate the desired distillate compound.
42. The crude oil was fractionated to obtain high-value middle distillates.
43. The heavy residue was further processed to recover additional distillate oils.
44. Corrosion issues limit the applications for high- sulfur distillate streams.
45. Black liquor distillation yields condensed organic distillates for fuel use.
46. The clear colorless distillate was found to contain a high concentration of terpenes.
47. Naphtha serves as a blending component as well as a chemical plant feedstock distillate.
48. The high-acid distillate fraction exhibited poor thermal stability.
49. The refining upgrade aims to maximize production of light and middle distillates.
50. Fissure crude oil yields more middle distillates compared to conventional oil.
51. The bio-distillates have potential as green replacements for conventional petroleum distillates.
52. Extractive distillation was used to separate the aromatic distillate compounds.
53. The sulfur content of the fuel oil distillate exceeded specifications.
54. The greenish distillate fraction contained predominantly alcohols and esters.
55. The first vessel collected the lower boiling point light distillates.
56. Oil sands bitumen yields more heavy distillates compared to conventional crude oil.
57. Better catalysts are needed to maximize yield of middle distillates from FCC.
58. The final distillate fraction contained predominantly cyclic ketones.
59. The red orange distillate fraction exhibited the highest acid number.
60. The selective hydrocracking process targets production of premium middle distillate fuels.

Common Phases

1. The distillate was collected in the condenser and flask.
2. From the crude oil, they distill gasoline, diesel fuel, and other distillates.
3. The machine known as a still is used to distill spirits and other alcoholic distillates.
4. The petroleum engineers separated the crude oil into various distillates through fractional distillation.
5. They produced crude oil distillates such as kerosene, naphtha, and diesel during the refining process.
6. The bottom overflow from the still contained a heavy residue, while the distillate was largely ethanol.
7. Cold condensers allowed the ethanol vapor to cool and revert into liquid distillate.
8. Heavier hydrocarbon distillates were recovered in later fractions through the distillation column.
9. The first few distillates collected were very volatile and contained little ethanol.
10. The residue from crude oil distillation is often further processed to yield more valuable distillates.
11. The crude oil was fractionally distilled to produce light distillates like naphtha and heavy ones like fuel oil.
12. Volatile compounds vaporize and pass into the condenser where they condense into liquid distillate.
13. The petroleum refiners optimized the distillation conditions to maximize yields of valuable distillates.
14. Lighter petroleum distillates like naphtha have a lower boiling point than heavier ones like fuel oil.
15. The acidic content in the bottom residue is removed to improve the quality of the distillate.
16. Crude glycerin from biodiesel production can be distilled to yield a purer distillate.
17. Plant extracts were distilled to yield aromatic distillate oils used in perfumery and aromatherapy.
18. The botanical distillate was a pale yellow liquid with a pleasing aroma.
19. Ethanol was isolated from the fermented mash through distillation of the alcoholic distillate.
20. They tested the acidic content of both the residue and distillate from the distillation process.
21. Organic compounds in solution were separated via distillation, collecting vaporized distillate over time.
22. Head distillate contains volatile compounds with lower boiling points than tail distillate.
23. They used chemical analysis to determine the composition of gasoline and other crude oil distillates.
24. The distillery produced high-proof alcohol distillate from fermented grains.
25. The aromatic compounds in rosemary distillate make it a popular ingredient in beauty products.
26. The petroleum distillate had a distinctive diesel fuel-like odor.
27. The residue contained heavier compounds while the distillate was enriched in volatile components.
28. Dilute acid distillation improved the yield and quality of ethanol distillate from sugarcane molasses.
29. The botanical distillate had antioxidant and antimicrobial properties.
30. The distillate contained only trace amounts of inorganic impurities like sulfur and metals.
31. Acid catalysis increased the yield of alcohol distillate from the fermentation broth.
32. The distillation process produces more desirable, higher-value petroleum distillates.
33. The petroleum distillates were separated into various fractions based on their boiling points.
34. The separation efficiency of the distillation column affected the purity of the distillate product.
35. Fruit extracts distilled using steam produced essential oil-rich aroma distillate.
36. They analyzed both the bottom residue and collected distillate to optimize the distillation process.
37. The bottom residue contained most of the undesirable components while the distillate was relatively pure.
38. The fractional distillation produced gasoline and diesel distillates with varying chain lengths.
39. The higher-boiling compounds collect in the residue, while the lighter compounds form the distillate.
40. The distillate yield and composition depend on factors like pressure, temperature and reflux ratio.
41. The distillate was stored in separate containers for gasoline, diesel fuel and heavier fractions.
42. Compared to crude petroleum distillate, refined petroleum distillate has fewer impurities.
43. Pine oil distillate is used in perfumes, soaps, creams and lotions for its distinctive aroma.
44. They tested physicochemical properties of both crude and refined crude oil distillates.
45. The volatile compounds formed the distillate, while higher-molecular-weight compounds remained behind.
46. The separation efficiency was sufficient to produce a high-purity alcohol distillate.
47. The distillate was then blended with other crude oil distillates to make gasoline and diesel fuel.
48. The distillate's color and acidity improved with further purification steps.
49. The optimum conditions for maximum yield and quality of distillate were determined.
50. They aimed to maximize production of high-value middle distillates like gasoline and diesel fuel.
51. The distillation parameters were optimized for maximum yield of ethanol distillate.
52. The residue was then processed further for additional distillate.
53. The quality of the distillate improved with multiple distillations and purification steps.
54. The light distillates contained high concentrations of lower boiling point compounds.
55. The aromatics content was higher in the distillate fraction compared to the residue.
56. The pine oil distillate contained terpene compounds that contributed to its scent.
57. The oil with lower volatility distills at a later stage and forms tail distillate.
58. The ethanol distillate fraction was collected for further purification.
59. The head and heart distillates were then blended to meet gasoline specifications.
60. The heaviest distillate fraction contained the least volatile compounds.