Our heavy gas oil is a high-quality fuel product with excellent combustion properties and optimal energy efficiency. It finds application in various industrial sectors, including power generation and heavy machinery.
Test | Standard Method | Results |
F.P °C Pensky-Martins | ASTM D93 | 60.0 °C |
SP.GR. @15.6 | ASTM D1298 | 0.865 |
API Gravity | ASTM D1298 | 32.0 |
COLOR | ASTM D1500 | 1.0 |
SPOT TEST | ASTM D4740 | 1.0 |
POUR POINT °C | ASTM D97 | -6.0 °C |
K.VISCOSITY @ °50 | ASTM D445 | 4.0 Cst |
K.VISCOSITY @ 40 °C | ASTM D445 | 5.7 Cst |
K.VISCOSITY @100°C | ASTM D445 | 2.0 Cst |
VISCOSITY INDEX | ASTM D2270 | 79.0 |
SULFUR % | ASTM D1744 | 1.4910% |
CARBON RESIDUE %W | ASTM D6560 | Nil |
ASH CONTENT %W | ASTM D189 | Nil |
ASPHALTENE %W | ASTM D482 | Nil |
TOTAL ACID NO. | ASTM D974 | 1.20% |
WATER CONTENT | ASTM D95 | Nil |
DISTILLATION ASTM D86 | ||
Recovered Vol. % | Temp. (°C) | Remark |
5 | 200 | Pressure 101.3Кра |
10 | 226 | |
15 | 250 | |
20 | 260 | |
25 | 274 | |
30 | 282 | |
40 | 300 | |
50 | 314 | |
60 | 328 | |
70 | 345 | |
80 | 360 | |
95 | 395 | |
Recovered Vol. mi | 95 | IBP 160 |
Residue: % | 5 | End Point 395 |
Loss % | 0 | Elaps.Time – |
This table provides specifications for a product called “Heavy Gas Oil” from the Kari Diyar plant. The specifications are obtained by conducting several standard tests. Here’s what each row represents:
1. F.P °C Pensky-Martins (ASTM D93): This is the Flash Point of the oil, tested by the Pensky-Martens method. The flash point is the lowest temperature at which the oil can vaporize to form an ignitable mixture in air. The result is 60.0 °C.
2. SP.GR. @15.6 (ASTM D1298): This is the specific gravity of the oil at 15.6 °C. Specific gravity is the ratio of the density of a substance to the density of a reference substance. In this case, the specific gravity is 0.865.
3. API Gravity (ASTM D1298): This is a measure of how heavy or light a petroleum liquid is compared to water. The API gravity is 32.0, indicating the oil is lighter than water.
4. COLOR (ASTM D1500): This is the color rating of the oil, tested by the ASTM D1500 method. The result is 1.0, but without a color chart for reference, this value doesn’t provide specific information.
5. SPOT TEST (ASTM D4740): This is a test for the presence of certain corrosive agents in the oil. The result is 1.0, but the interpretation of this value would depend on the specifics of the test method.
6. POUR POINT °C (ASTM D97): This is the lowest temperature at which the oil will flow. The pour point is -6.0 °C.
7. K.VISCOSITY @ various temperatures (ASTM D445): These are measures of the oil’s resistance to flow (its viscosity) at various temperatures. The lower the viscosity, the more easily the oil flows. The test gives three values: 4.0 Cst at 50 °C, 5.7 Cst at 40 °C, and 2.0 Cst at 100 °C.
8. VISCOSITY INDEX (ASTM D2270): This is a measure of the change in viscosity with temperature. The viscosity index is 79.0.
9. SULFUR % (ASTM D1744): This is the sulfur content of the oil. High sulfur content can lead to the formation of sulfuric acid during combustion, which can cause corrosion. The sulfur content is 1.4910%.
10. CARBON RESIDUE %W (ASTM D6560): This measures the amount of carbon residue left after the oil is burned. The result is “Nil”, indicating no carbon residue.
11. ASH CONTENT %W (ASTM D189): This is the ash content of the oil. Ash can result from the presence of certain additives in the oil, among other things. The result is “Nil”, indicating no ash content.
12. ASPHALTENE %W (ASTM D482): This is the asphaltene content of the oil. Asphaltenes are heavy molecules that can contribute to the formation of sludge and other deposits. The result is “Nil”, indicating no asphaltene content.
13. TOTAL ACID NO. (ASTM D974): This is the Total Acid Number, which measures the acidity of the oil. The result is 1.20%.
14. WATER CONTENT (ASTM D95): This measuresthe amount of water in the oil. The result is “Nil”, indicating no water content.
15. DISTILLATION (ASTM D86): This section provides the distillation profile of the oil, which shows the temperatures at which different percentages of the oil evaporate. For example, 5% of the oil evaporates at 200 °C, 10% at 226 °C, and so on up to 95% at 395 °C. The “Pressure 101.3Кра” note means the distillation was conducted at atmospheric pressure.
16. Recovered Vol. mi, IBP, Residue, End Point, Loss %, Elaps.Time:
• “Recovered Vol. mi” is the volume of oil recovered after distillation. In this case, 95% of the oil was recovered.
• “IBP” stands for Initial Boiling Point, the temperature at which the distillation began. This is 160 °C.
• “Residue” is the amount of oil that didn’t evaporate during the distillation. This is 5% of the total.
• “End Point” is the temperature at which the last drop of liquid evaporates during the distillation. This is 395 °C.
• “Loss %” is the percentage of the oil that was lost during the distillation. In this case, the loss is 0%.
• “Elaps.Time” would typically indicate the time taken for the distillation, but a value isn’t provided here.
In conclusion, this table provides a comprehensive specification for Heavy Gas Oil, including measures of its physical properties (color, gravity, viscosity), its chemical composition (sulfur, ash, and asphaltene content), and its behavior when heated (distillation profile). These specifications would be used to assess the quality of the oil and determine its suitable applications.