Alternative Liquid Dielectrics for High Voltage Transformer Insulation Systems. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Физика
Год издания: 0
isbn: 9781119800187
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seeds are collected and crushed using a grinder and converted into fine tiny particles. Next, the fine amorphous particles of seeds are mixed with the petroleum benzene. The solvent is allowed to stabilize for 24 hours and the yield of oil is collected, which is around 25–30% [47]. The collected oil from the solvent is treated using rotavapor for the removal of moisture as seen in Figure 2.3b. Thereafter, the crude oil is collected through filtration. The extracted crude oil has the rich content of triglycerides, which makes the crude ester highly viscous and of weak flowability. The triglyceride configuration is formed by condensation of three hydroxyl groups with carboxyl groups of three fatty acids, as shown in Figure 2.4a. Since the extracted crude oil from the treated seeds through mechanical and chemical treatment has a high viscosity and acidity content, it is not suitable as liquid dielectric. Therefore, the transesterification process is followed for the crude oil for suitable liquid dielectrics.

      2.3.2 Transesterification

Schematic illustration of (a) Mechanical extraction. (b) Chemical extraction. (c) Transesterification setup. Schematic illustration of (a) Triglyceride structure. (b) Formation of fatty acid methyl ester.

      A two‐step transesterification reaction unit, comprising acid and base esterification, is presented in Figure 2.3c. In this process, the FFA is reduced using acid treatment or acid esterification technique. During the acid treatment, sulphuric acid (H2SO4) is used as a catalyst. The experiment is carried out using a round bottom flask with reflux condenser. The temperature of the reaction is maintained and controlled using a magnetic stirring hotplate. The separating funnel is used to separate the glycerol out from the crude oil. During the transesterification, a standard molar ratio mixture of 6:1 is chosen for methanol to crude biological oil, respectively. When the temperature of the mixture reaches 60 °C, 1 vol.% of H2SO4 is poured into the round bottom flask as a catalyst [50, 51]. The solution is poured into the flask and constantly stirred at 600 rpm for a session of two hours with the help of a magnetic stirrer. Then, the prepared mixture is poured into the separating funnel and allowed to stabilize for 24 hours for the acid separation. Due to the variation of density from oil to water, the water precipitates at the lower part, the lower fatty acid‐based oil forms at the middle part, and the mixture of sulphuric acid and methanol lies in the top part. The settled water is removed out using a drain tap attached to the separating funnel and finally the lower FFA oil is collected. The calculated FFA value is the indicator of the decrement of acidity percentage of the crude oil.

FAME Molecular formula Retention time (min) Molar mass (g/mol)
Hexadecanoic acid C17H34O2 22.48 270
11‐Octadecenoic acid C19H36O2 24.33 296
Octadecenoic acid C18H34O2 24.46 282.47
CIS‐11‐Eicosanoic acid C20H38O2 26.06 310.51
FAME Molecular formula Retention time (min) Molar mass (g/mol)
9‐Hexadecanoic acid C17H34O2 36.31 268
Hexadecanoic acid C17H34O2 36.525 270
Pentadecanoic acid C16H32O2 36.55 256
9‐Octadecenoic acid C19H36O2

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