THERMAL
 |
.high-temperature stability .efficient Heat transfer .reduced fouling .low vapor pressure .corrosion protection .wide temperature range |
| FÜLLEN Fundamental THERMAL Oil™ Heat Transfer Oil should be supported by a qualified Heat Transfer Oil Condition Monitoring programme to monitor fluid condition and operational stresses that impact on fluid life. Heat transfer fluid generally degrades at a rate of 0.03% per day or approx 11 % per annum. This will vary greatly on the application of the fluid and its maintenance. Degradation can be arrested when fluids are well managed and operational parameters supported by good SOP and practises. | Low viscosity delivers excellent fluidity and heat transfer over a wide temperature range. Good thermal and oxidation stability characteristics permit higher operating temperatures and provide long fluid life. Being non-corrosive with a relatively high solvency helps reduce deposit formation keeping internal surfaces cleaner for longer. Low vapour pressure minimises the formation of volatile decomposition products. |
| Properties | Method | Transfer Oil S2 |
|---|---|---|
| Density @200C kg/m3 | ISO 12185 | 857 |
| Flash Point (PMCC) °C | ISO 2719 | 208 |
| Flash Point (COC) °C | ISO 2592 | 220 |
| Pour Point °C | ISO 3016 | -12 |
| Kinematic Viscosity @400C mm2/s | ISO 3104 | -29 |
| Kinematic Viscosity @1000C mm2/s | ISO 3104 | 5.1 |
| Kinematic Viscosity @2000C mm2/s | ISO 3104 | |
| Initial Boiling Point °C | ASTM D2887 | >330 |
| Autoignition temperature °C | DIN 51794 | 332 |
| Neutralisation Value mg KOH/g | ASTM D974 | <0.2 |
| Ash (Oxide) % m/m | ISO 6245 | <0.01 |
| Material No. Table | ITEM / PACK | THERMAL | PACK / PALLET |
|---|---|---|---|
| – | – | – | |
| – | – | – | – |
| 208L | – | N-TM32-208 | 4 |
| 1000L | – | IN-TM32-1000 | 1 |
| 208L | – | IN-TM68-208 | 4 |
| 1000L | – | IN-TM68-1000 | 1 |
