| 1 - 8 |
Development of simple QSPR models for the impact sensitivity of nitramines
Fayet G, Rotureau P |
| 9 - 16 |
Assessment of the seismic effect of insulation on extra-large cryogenic liquid natural gas storage tanks
Zhang RF, Weng DG |
| 17 - 23 |
Experimental study on the suppression of gas explosion using the gas-solid suppressant of CO2/ABC powder
Luo ZM, Wang T, Tian ZH, Cheng FM, Deng J, Zhang YT |
| 24 - 36 |
Leak location of pipelines based on characteristic entropy
Ni L, Jiang JC, Pan Y, Wang ZR |
| 37 - 46 |
Pressure characteristics and dynamic response of coal mine refuge chamber with underground gas explosion
Zhang BY, Zhao W, Wang W, Zhang XH |
| 47 - 54 |
Consequence modeling of explosion at Azad-Shahr CNG refueling station
Parvini M, Kordrostami A |
| 55 - 62 |
Numerical and experimental study on flame spread over conveyor belts in a large-scale tunnel
Yuan LM, Mainiero RJ, Rowland JH, Thomas RA, Smith AC |
| 63 - 73 |
Fuzzy risk modeling of process operations in the oil and gas refineries
Sa'idi E, Anvaripour B, Jaderi F, Nabhani N |
| 74 - 85 |
Dynamic safety risk analysis of offshore drilling
Abimbola M, Khan F, Khakzad N |
| 86 - 94 |
Assessment of the effect of pool size on burning rates of multiple pool fires using CFD
Vasanth S, Tauseef SM, Abbasi T, Rangwala AS, Abbasi SA |
| 95 - 104 |
Safety issues related to the maintenance operations in a vegetable oil refinery: A case study
Landucci G, Lovicu G, Barontini F, Guidi L, Nicolella C |
| 105 - 112 |
Numerical simulation of water curtain application for ammonia release dispersion
Cheng C, Tan W, Liu LY |
| 113 - 123 |
A framework for human error risk analysis of coal mine emergency evacuation in China
Wang LJ, Wang YL, Cao QY, Li XD, Li JQ, Wu XW |
| 124 - 136 |
Enhanced seismic performance of non-standard bolted flange joints for petrochemical piping systems
Reza MS, Bursi OS, Paolacci F, Kumar A |
| 137 - 154 |
A unique intelligent approach for forecasting project completion time in oil refineries
Azadeh A, Haghighi SM, Panah MY |
| 155 - 163 |
Comparative study of explosion processes controlled by homogeneous and heterogeneous combustion mechanisms
Du B, Huang WX, Kuai NS, Yuan JJ, Liu L, Ren YD |
| 164 - 176 |
Experimental and numerical investigation of constant volume dust and gas explosions in a 3.6-m flame acceleration tube
Skjold T, Castellanos D, Olsen KL, Eckhoff RK |
| 177 - 187 |
Likelihood, causes, and consequences of focused leakage and rupture of US natural gas transmission pipelines
Wang H, Duncan IJ |
| 188 - 196 |
Heating processes during storage of Miscanthus chip piles and numerical simulations to predict self-ignition
Everard CD, Schmidt M, McDonnell KP, Finnan J |
| 197 - 206 |
How can we use the information provided by process safety performance indicators? Possibilities and limitations
Pasman H, Rogers W |
| 207 - 218 |
A dynamic alarm management strategy for chemical process transitions
Zhu JF, Shu YD, Zhao JS, Yang F |
| 219 - 227 |
A MINLP approach for layout designs based on the domino hazard index
de Lira-Flores J, Vazquez-Roman R, Lopez-Molina A, Mannan MS |
| 228 - 235 |
Development of an organizational framework for studying dust explosion phenomena
Cloney CT, Amyotte PR, Khan FI, Ripley RC |
| 236 - 242 |
A mechanistic model for hydrocarbon plumes rising through water
Hissong DW, Pomeroy J, Norris HL |
| 243 - 255 |
Phast validation of discharge and atmospheric dispersion for pressurised carbon dioxide releases
Witlox HWM, Harper M, Oke A, Stene J |
| 256 - 262 |
Villains, victims, and heroes: Accounting for the roles human activity plays in LOPA scenarios
Schmidt MS |
| 263 - 274 |
Deflagration to detonation transitions (DDTs): Predicting DDTs in hydrocarbon explosions
Rosas C, Davis S, Engel D, Middha P, van Wingerden K, Mannan MS |
| 275 - 281 |
Water induced thermal decomposition of pyrotechnic mixtures - Thermo kinetics and explosion pathway
Pakkirisamy SV, Mahadevan S, Paramashivan SS, Baran MA |
| 282 - 286 |
Validation of the UN test method N.5
Rosenberg M, Michael-Schulz H, Wehrstedt KD, Malow M |
| 287 - 295 |
Facilitating consistent siting hazard distance predictions using the TNO Multi-Energy Model
Pitblado R, Alderman J, Thomas JK |
| 296 - 300 |
Case study: T2 Laboratories explosion
Theis AE |
| 301 - 306 |
Application of F-N curves in API RP 752 building siting studies
Marx JD, Werts KM |
| 307 - 314 |
Modeling of pool spreading of LNG on land
Basha O, Olewski T, Vechot L, Castier M, Mannan S |
