HSY-0160 petroleum product blue type residual carbon detector Introduction
HSY-0160 petroleum product blue type residual carbon detector is mainly suitable for detecting non-volatile petroleum products partially decomposed during atmospheric distillation. When using the instrument: Load an appropriate amount of the sample into a special glass coke bottle with a capillary tube and place it in a metal furnace maintained at a certain temperature. The sample is rapidly heated to all volatile substances from the bottle. The temperature at which the mouth escapes, while the heavier residue remains in the bottle for cracking and coking reactions. During the later stages of the heating cycle, coke or carbon residue is further slowly decomposed or slightly oxidized as air may be drawn into the bottle. After the specified heating cycle, the coking bottle was taken out of the furnace, placed in a desiccator for cooling, and weighed. Features
1. The instrument is heated by metal bath, which has a fast heating rate and stable temperature.
2. The instrument is equipped with a separate time control system, which can be tested at any time.
3, two sets of temperature controller, convenient temperature correction.
4, one-piece structure, easy to move.
5. The instrument is made of cold-rolled steel plate, and the surface is electrostatically sprayed, which has corrosion-resistant and easy-cleaning functions.
6. The welding of the instrument adopts the welding technology, no solder joints, and the appearance is beautiful and generous. Technical Parameters
1. Applicable standards: SH/T0160 ISO4262 ASTM D524
2, temperature control mode: imported PID digital display thermostat
3, temperature control accuracy: 550 ± 2 ° C
4, heating method: electric heating rod metal bath
5, timing mode: digital timer
Introduction
HSY-0160 petroleum product blue type residual carbon detector is mainly suitable for detecting non-volatile petroleum products partially decomposed during atmospheric distillation. When using the instrument: Load an appropriate amount of the sample into a special glass coke bottle with a capillary tube and place it in a metal furnace maintained at a certain temperature. The sample is rapidly heated to all volatile substances from the bottle. The temperature at which the mouth escapes, while the heavier residue remains in the bottle for cracking and coking reactions. During the later stages of the heating cycle, coke or carbon residue is further slowly decomposed or slightly oxidized as air may be drawn into the bottle. After the specified heating cycle, the coking bottle was taken out of the furnace, placed in a desiccator for cooling, and weighed.
