| 1 - 18 |
REACTPOOL: A code implementing a new multi-compound pool model that accounts for chemical reactions and changing composition for spills of water reactive chemicals
Kapias T, Griffiths RF, Stefanidis C |
| 19 - 30 |
Spill behaviour using REACTPOOL Part I. Results for accidental releases of chlorosulphonic acid (HSO3Cl)
Kapias T, Griffiths RF |
| 33 - 65 |
Effective design of greenbelts using mathematical models
Khan FI, Abbasi SA |
| 67 - 82 |
Studies on energetic compounds Part 16. Chemistry and decomposition mechanisms of 5-nitro-2,4-dihydro-3H-1,2,4-triazole-3-one (NTO)
Singh G, Kapoor IPS, Tiwari SK, Felix PS |
| 83 - 102 |
Removal of heavy metals from sandy soil using CEHIXM process
Karim MA, Khan LI |
| 103 - 114 |
Catalytic hydrodechlorination of tetrachloroethylene over red mud
Ordonez S, Sastre H, Diez FV |
| 115 - 122 |
Pressure-drops control strategy in a fixed-bed reactor
Thalasso F, Razo-Flores E, Ancia R, Naveau HP, Nyns EJ |
| 123 - 140 |
Evaluation of the models available for the prediction of pressure drop in venturi scrubbers
Goncalves JAS, Alonso DF, Costa MAM, Azzopardi BJ, Coury JR |
| 141 - 166 |
Field demonstration of pervaporation for the separation of volatile organic compounds from a surfactant-based soil remediation fluid
Vane LM, Hitchens L, Alvarez FR, Giroux EL |
| 167 - 177 |
Enhanced abilities of highly swollen chitosan beads for color removal and tyrosinase immobilization
Wu FC, Tseng RL, Juang RS |
| 179 - 192 |
The effect of flow-through leaching on the diffusivity of heavy metals in stabilized/solidified wastes
Poon CS, Chen ZQ, Wai OWH |
| 193 - 203 |
The influence of different soil constituents on the reaction kinetics of wet oxidation of the creosote compound quinoline
Thomsen AB, Laturnus F |
