| 1 - 3 |
Biorefinery value chain creation
Sadhukhan J, Martinez-Hernandez E, Ng KS |
| 4 - 12 |
Biodiesel production from castor plant integrating ethanol production via a biorefinery approach
Bateni H, Karimi K |
| 13 - 23 |
The AlkaPolP process: Fractionation of various lignocelluloses and continuous pulping within an integrated biorefinery concept
Hundt M, Engel N, Schnitzlein K, Schnitzlein MG |
| 24 - 33 |
Risk advantages of platform technologies for biorenewable chemical production
Gunukula S, Keeling PL, Anex R |
| 34 - 42 |
Gasification behaviors and kinetic study on biomass chars in CO2 condition
Xu RS, Zhang JL, Wang GW, Zuo HB, Zhang PC, Shao JG |
| 43 - 51 |
Cooked and uncooked food waste: A viable feedstock for generation of value added products through biorefinery approach
Begum S, Golluri K, Anupoju GR, Ahuja S, Gandu B, Kuruti K, Maddala RK, Venkata SY |
| 52 - 62 |
Biodiesel production from waste cooking oils through esterification: Catalyst screening, chemical equilibrium and reaction kinetics
Neumann K, Werth K, Martin A, Gorak A |
| 63 - 72 |
Characterization of rice husk varieties in Uganda for biofuels and their techno-economic feasibility in gasification
Olupot PW, Candia A, Menya E, Walozi R |
| 73 - 80 |
Heat integration for bio-oil hydroprocessing coupled with aqueous phase steam reforming
Shemfe MB, Fidalgo B, Gu S |
| 81 - 90 |
Urban biorefinery for waste processing
Satchatippavarn S, -Hernandez EM, Hang MYLP, Leach M, Yang AD |
| 91 - 101 |
Technical and economical evaluation of bioethanol production from lignocellulosic residues in Mexico: Case of sugarcane and blue agave bagasses
Barrera I, Amezcua-Allieri MA, Estupinan L, Martinez T, Aburto J |
| 102 - 116 |
Techno-economic evaluations for feasibility of sago-based biorefinery, Part 2: Integrated bioethanol production and energy systems
Wan YK, Sadhukhan J, Ng DKS |
| 117 - 125 |
Microalgae biorefinery alternatives and, hazard evaluation
Pinedo J, Prieto CVG, D'Alessandro AA, Ibanez R, Tonelli S, Diaz MS, Irabien A |
| 126 - 136 |
Design and optimization of the levulinic acid recovery process from lignocellulosic biomass
Nhien LC, Long VD, Lee M |
| 137 - 146 |
Small-sized biorefineries as strategy to add value to sugarcane bagasse
Clauser NM, Gutierrez S, Area MC, Felissiaa FE, Vallejos ME |
| 147 - 152 |
Extending shelf life of wheat based animal feed using solid state bioprocessing
Lopez-Gomez JP, Blanco-Rosete S, Webb C |
| 153 - 166 |
Evaluation of sustainable useful index (SUI) by fuzzy approach for energy producing processes
Di Addario M, Malave ACL, Sanfilippo S, Fino D, Ruggeri B |
| 167 - 180 |
Evaluating the sustainability of biorefineries at the conceptual design stage
Sacramento-Rivero JC, Navarro-Pineda F, Vilchiz-Bravo LE |
| 181 - 194 |
Techno-economic assessment of the production of phthalic anhydride from corn stover
Giarola S, Romain C, Williams CK, Hallett JP, Shah N |
| 195 - 217 |
Bi-dimensional sustainability analysis of a multi-feed biorefinery design for biofuels co-production from lignocellulosic residues and agro-industrial wastes
Sanchez A, Magana G, Partida MI, Sanchez S |
| 218 - 235 |
Economic and life cycle environmental optimization of forest-based biorefinery supply chains for bioenergy and biofuel production
Cambero C, Sowlati T, Pavel M |
| 236 - 252 |
Process optimization of a multi-product biorefinery: The effect of biomass seasonality
Giuliano A, Poletto M, Barletta D |
| 253 - 262 |
Developing database criteria for the assessment of biomass supply chains for biorefinery development
Black MJ, Sadhukhan J, Day K, Drage G, Murphy RJ |
| 263 - 279 |
Techno-economic evaluations for feasibility of sago-based biorefinery, Part 1: Alternative energy systems
Wan YK, Sadhukhan J, Ng KS, Ng DKS |
