화학공학소재연구정보센터
검색결과 : 277건
No. Article
61 Determining the Best Composition of a Ni-Fe/Al2O3 Catalyst used for the CO2 Hydrogenation Reaction by Applying Response Surface Methodology
Pandey D, Deo G
Chemical Engineering Communications, 203(3), 372, 2016
62 Synthesis and Optimization of 2-Ethylhexyl Ester as Base Oil for Drilling Fluid Formulation
Jassim L, Yunus R, Rashid U, Rashid SA, Salleh MA, Irawan S, Ghaemi F
Chemical Engineering Communications, 203(4), 463, 2016
63 Study of influence of pH and salinity on combined flocculation of Chaetoceros gracilis microalgae
Perez L, Salgueiro JL, Maceiras R, Cancela A, Sanchez A
Chemical Engineering Journal, 286, 106, 2016
64 Methane decomposition for carbon nanotube production: Optimization of the reaction parameters using response surface methodology
Allaedini G, Aminayi P, Tasirin SM
Chemical Engineering Research & Design, 112, 163, 2016
65 A hybrid statistical approach for modeling and optimization of RON: A comparative study and combined application of response surface methodology (RSM) and artificial neural network (ANN) based on design of experiment (DOE)
Elfghi FM
Chemical Engineering Research & Design, 113, 264, 2016
66 Application of Response Surface Methodology to Optimize Nitrate Removal from Water by Electrodialysis
Guesmi F, Harbi S, Amouri S, Louati I, Hannachi C, Hamrouni B
Chemistry Letters, 45(12), 1369, 2016
67 Computational and experimental optimization of the exhaust air energy recovery wind turbine generator
Tabatabaeikia S, Ghazali NNB, Chong WT, Shahizare B, Izadyar N, Esmaeilzadeh A, Fazlizan A
Energy Conversion and Management, 126, 862, 2016
68 Validation and enhancement of waste cooking sunflower oil based biodiesel production by the trans-esterification process
Dhingra S, Bhushan G, Dubey KK
Energy Sources Part A-recovery Utilization and Environmental Effects, 38(10), 1448, 2016
69 Comparative analysis of effect of methanol and ethanol on Karanja biodiesel production and its optimisation
Verma P, Sharma MP
Fuel, 180, 164, 2016
70 Optimization of bio-oil production using response surface methodology and formation of polycyclic aromatic hydrocarbons (PAHs) at elevated pressures
Ates F, Erginel N
Fuel Processing Technology, 142, 279, 2016