|
Algorithm | Application | Reference |
|
HS | Combined heat and power economic dispatch problem | Vasebi et al. [214] |
HS | Design of shell and tube heat exchangers | Fesanghary [73] |
IHS | Air cooled heat exchanger design | Doodman et al. [215] |
HS | Water distribution system design | Geem [216] |
HS-SQP | Heat exchanger network design | Khorasany and Fesanghary [217] |
HS | Parameter estimation for phase equilibrium modeling | Bonilla-Petriciolet et al. [218] |
NGHS | Chemical equation balance problem | Zou et al. [219] |
HS, IHS, GHS | Phase stability analysis and phase equilibrium calculations in non-reactive systems | Bonilla-Petriciolet et al. [220] |
HS | Distillation sequence design | Cabrera-Ruíz et al. [221] |
HS | Parameter estimation for phase equilibrium modeling | Merzougui et al. [222] |
HS, IHS, GHS | Phase equilibrium calculations in reactive systems | Bonilla-Petriciolet et al. [223] |
HS, IHS, GHS | Parameter estimation for phase equilibrium modeling | Bonilla-Petriciolet [224] |
HS | Life cycle cost analysis | Fesanghary et al. [197] |
HS | Parameter estimation for the modeling of electrolyte solutions | Bonilla-Petriciolet et al. [225] |
IHS | Design of plate-fin heat exchangers | Yousefi et al. [226] |
APF-HS | Ground water pollution problem | Jiang et al. [227] |
HSAEA | Reaction kinetic parameter estimation | Ma et al. [228] |
I-ITHS | Design of shell and tube heat exchangers | Turgut et al. [229] |
HS | Life cycle cost analysis | Asadi [230] |
HS | Parameter estimation for the equilibrium modeling of biofuel-based systems | Merzougui et al. [231] |
HS | Water distribution system design | Yoo et al. [232] |
HS | Parameter estimation for the phase equilibrium modeling | Merzougui et al. [233] |
HS | Phase stability analysis, reactive and non-reactive phase equilibrium calculations, and parameter estimation | Fernández-Vargas et al. [234] |
IHS | Heat integrated distillation system design in olefin production | Lashkajani et al. [235] |
DHS | Life cycle cost analysis | Maleki et al. [236] |
HSMO | Pump scheduling problem | De Paola et al. [237] |
HyHS | Water distribution system design | Jung et al. [238] |
HS | Thermal cracking process | Boto et al. [239] |
HS | Water distribution system design | Yoo et al. [240] |
HS | Heat integrated distillation system design | Sukpancharoen et al. [241] |
CHS | Diesel blending problem | Gao et al. [242] |
SFHS | Parameter estimation for the phase equilibrium modeling of supercritical fluids | Amaya et al. [243] |
HS | Separation cascade distillation design | Mansourzadeh et al. [244] |
HS | Reactive azeotrope calculation and prediction of dew point pressures in binary double retrograde vaporization systems | Platt et al. [245] |
HS-GWO | Phase stability analysis | Hernández-Pérez et al. [246] |
HS | Parameter estimation for phase equilibrium modeling | Reggab et al. [247] |
HS | Phase stability analysis | Smejkal et al. [248] |
HS | Phase stability analysis | Fonseca-Pérez et al. [249] |
HS | Multi-effect evaporator design | Yadav et al. [250] |
HS-GS | Inverse chemical kinetic problem | Enikeeva et al. [251] |
|