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- https://chem.libretexts.org/Courses/SUNY_Oneonta/Chem_221%3A_Organic_Chemistry_I_(Bennett)/2%3ALab_Textbook_(Nichols)/05%3A_Distillation/5.03%3A_Fractional_Distillation/5.3C%3A_Uses_of_Fractional_DistillationFractional Distillation is used for both oil refining and purification of reagents and products. Fractional distillation is used in oil refineries (Figure 5.41) to separate the complex mixture into fr...Fractional Distillation is used for both oil refining and purification of reagents and products. Fractional distillation is used in oil refineries (Figure 5.41) to separate the complex mixture into fractions that contain similar boiling points and therefore similar molecular weights and properties. Gasoline, diesel fuel, kerosene, and jet fuel are some of the different fractions produced by an oil refinery.
- https://chem.libretexts.org/Courses/Martin_Luther_College/Organic_Chemistry_-_MLC/01%3A_Introduction_to_Organic_Chemistry_and_Structure/1.02%3A_Fractional_Distillation_and_Alkanes/1.2.03%3A_Fractional_Distillation/1.2.3.03%3A_Uses_of_Fractional_DistillationFractional Distillation is used for both oil refining and purification of reagents and products. Fractional distillation is used in oil refineries (Figure 5.41) to separate the complex mixture into fr...Fractional Distillation is used for both oil refining and purification of reagents and products. Fractional distillation is used in oil refineries (Figure 5.41) to separate the complex mixture into fractions that contain similar boiling points and therefore similar molecular weights and properties. Gasoline, diesel fuel, kerosene, and jet fuel are some of the different fractions produced by an oil refinery.
- https://chem.libretexts.org/Courses/University_of_North_Texas/UNT%3A_CHEM_1410_-_General_Chemistry_for_Science_Majors_I/Text/08%3A_Properties_of_Organic_Compounds/8.08%3A_Properties_of_AlkanesAs can be seen from the table of straight chain alkanes, boiling points rise steadily from CH 4 which has a boiling point of -162 o C to C 10 H 22 which has a boiling point of 174 o C as each addition...As can be seen from the table of straight chain alkanes, boiling points rise steadily from CH 4 which has a boiling point of -162 o C to C 10 H 22 which has a boiling point of 174 o C as each additional CH 2 group is added to the chain. The mixture in that balloon is much closer to the stoichiometry of the reaction than the pure methane balloon, which must react with oxygen in the atmosphere which it is not mixed with.
- https://chem.libretexts.org/Bookshelves/General_Chemistry/ChemPRIME_(Moore_et_al.)/08%3A_Properties_of_Organic_Compounds/8.08%3A_Properties_of_AlkanesAs can be seen from the table of straight chain alkanes, boiling points rise steadily from CH 4 which has a boiling point of -162 o C to C 10 H 22 which has a boiling point of 174 o C as each addition...As can be seen from the table of straight chain alkanes, boiling points rise steadily from CH 4 which has a boiling point of -162 o C to C 10 H 22 which has a boiling point of 174 o C as each additional CH 2 group is added to the chain. The mixture in that balloon is much closer to the stoichiometry of the reaction than the pure methane balloon, which must react with oxygen in the atmosphere which it is not mixed with.
- https://chem.libretexts.org/Bookshelves/Organic_Chemistry/Organic_Chemistry_Lab_Techniques_(Nichols)/05%3A_Distillation/5.03%3A_Fractional_Distillation/5.3C%3A_Uses_of_Fractional_DistillationFractional Distillation is used for both oil refining and purification of reagents and products. Fractional distillation is used in oil refineries (Figure 5.41) to separate the complex mixture into fr...Fractional Distillation is used for both oil refining and purification of reagents and products. Fractional distillation is used in oil refineries (Figure 5.41) to separate the complex mixture into fractions that contain similar boiling points and therefore similar molecular weights and properties. Gasoline, diesel fuel, kerosene, and jet fuel are some of the different fractions produced by an oil refinery.
- https://chem.libretexts.org/Courses/Hope_College/CHEM_125/Exam_I/06%3A_Properties_of_Organic_Compounds/6.05%3A_Properties_of_AlkanesAs can be seen from the table of straight chain alkanes, boiling points rise steadily from CH 4 which has a boiling point of -162 o C to C 10 H 22 which has a boiling point of 174 o C as each addition...As can be seen from the table of straight chain alkanes, boiling points rise steadily from CH 4 which has a boiling point of -162 o C to C 10 H 22 which has a boiling point of 174 o C as each additional CH 2 group is added to the chain. The mixture in that balloon is much closer to the stoichiometry of the reaction than the pure methane balloon, which must react with oxygen in the atmosphere which it is not mixed with.
- https://chem.libretexts.org/Courses/National_Yang_Ming_Chiao_Tung_University/Chemistry_2/01%3A_Physical_Equilibrium/1.06%3A_DistillationDistillation is a process whereby a mixture of liquids having different vapor pressures is separated into its components. Since distillation depends on the different vapor pressures of the components ...Distillation is a process whereby a mixture of liquids having different vapor pressures is separated into its components. Since distillation depends on the different vapor pressures of the components to be separated, let's first consider the vapor pressure vs. composition plots for a hypothetical mixture at some arbitrary temperature at which both liquid and gas phases can exist, depending on the total pressure.
- https://chem.libretexts.org/Bookshelves/General_Chemistry/Chem1_(Lower)/08%3A_Solutions/8.09%3A_DistillationDistillation is a process whereby a mixture of liquids having different vapor pressures is separated into its components. Since distillation depends on the different vapor pressures of the components ...Distillation is a process whereby a mixture of liquids having different vapor pressures is separated into its components. Since distillation depends on the different vapor pressures of the components to be separated, let's first consider the vapor pressure vs. composition plots for a hypothetical mixture at some arbitrary temperature at which both liquid and gas phases can exist, depending on the total pressure.
