| 1 |
Quest for a reliable method for determining aviation fuel thermal stability: Comparison of turbulent and laminar flow test devices
Pande SG, Hardy DR, Kamin RA, Nowack CJ, Colbert JE, Morris RE, Salvucci L
Energy & Fuels, 15(1), 224, 2001 |
| 2 |
Effects of extended duration testing and time of addition of N,N '-disalicylidene-1,2-propanediamine on jet fuel thermal stability as determined using the gravimetric JFTOT
Pande SG, Hardy DR
Energy & Fuels, 12(1), 129, 1998 |
| 3 |
Comparison of the Effects of Storage in the Presence of Copper Using Laboratory vs Field Conditions on Jet Fuel Thermal-Stability as Measured by the Gravimetric Jftot
Pande SG, Hardy DR
Energy & Fuels, 11(5), 1019, 1997 |
| 4 |
Effect of Copper, MDA, and Accelerated Aging on Jet Fuel Thermal-Stability as Measured by the Gravimetrie Jftot
Pande SG, Hardy DR
Energy & Fuels, 9(1), 177, 1995 |
| 5 |
A Reliable and Practical Accelerated Test Method for Predicting the Long-Term Storage Stabilities of Aviation Turbine Fuels Based on Hydroperoxide Formation
Pande SG, Black BH, Hardy DR
Energy & Fuels, 9(1), 183, 1995 |
| 6 |
An in-Depth Evaluation of Combustion Performance Predictors of Aviation Fuels Sooting Tendencies
Pande SG, Hardy DR
Energy & Fuels, 9(3), 448, 1995 |
