| S2 - S2 |
An example of a test method for vent sizing - OPPSD/SPI methodology (pg 85, 2002)
Poteet CS, Banks ML |
| 171 - 180 |
Establishing ignition conditions for the tank manifold fire at the Powell Duffryn tank terminal
Woodward JL, Lygate J |
| 181 - 184 |
Charge generation during filling of insulated tanks
Vidal M, Wagner JP, Rogers WJ, Mannan MS |
| 185 - 203 |
Retrofit experiences with a 32-year-old ammonia plant
Gupta V, Borseno B |
| 205 - 211 |
Fire in secondary reformer outlet line to waste heat boiler
Singh J, Basu P, Rao BM |
| 213 - 226 |
Bimetallic and alloy welds HP hydrogen and nitrogen service
Sievert JB |
| 227 - 236 |
Fire tests to study the effect of pressure relief valve blowdown on the survivability of propane tanks in fires
Birk AM, VanderSteen JDJ, Cunningham MH, Davison CR, Mirzazadeh I |
| 237 - 244 |
Study of major accidents and lessons learned
Balasubramanian SG, Louvar JF |
| 245 - 253 |
Development of an engineering tool to quantify the explosion hazard of flammable liquid spill
Tamanini F |
| 254 - 260 |
Evaluating vent manifold inerting requirements: Flash point modeling requirements, for organic acid-water mixtures
Garland RW, Malcolm MO |
| 261 - 267 |
Runaway reactions in aluminum, aluminum chloride, HCl, and steams: An investigation of the 1998 CONDEA vista explosion in Maryland
Reza PEA, Kemal A, Markey PE |
