| 1 - 5 |
Carbon balance for wood production from sustainably managed forests
Hektor B, Backeus S, Andersson K |
| 6 - 12 |
Fatty acid methyl ester production from wet microalgal biomass by lipase-catalyzed direct transesterification
Lopez EN, Medina AR, Cerdan LE, Moreno PAG, Sanchez MDM, Grima EM |
| 13 - 24 |
Periodic peristalsis enhancing the high solids enzymatic hydrolysis performance of steam exploded corn stover biomass
Liu ZH, Chen HZ |
| 25 - 32 |
Production of lipids from microalgae Spirulina sp.: Influence of drying, cell disruption and extraction methods
Pohndorf RS, Camara AS, Larrosa APQ, Pinheiro CP, Strieder MM, Pinto LAA |
| 33 - 37 |
Characterization of cell wall structure in dilute acid-pretreated biomass by confocal Raman microscopy and enzymatic hydrolysis
Na BI, Chang SJ, Lee KH, Lee G, Lee JW |
| 38 - 42 |
Flocculation and mechanism of self-flocculating lipid producer microalga Scenedesmus quadricauda for biomass harvesting
Aljuboori AHR, Uemura Y, Thanh NT |
| 43 - 49 |
Harvesting microalgal biomass using magnesium coagulation-dissolved air flotation
Zhang XZ, Wang L, Sommerfeld M, Hu Q |
| 50 - 59 |
Effect of aging on lignin content, composition and enzymatic saccharification in Corymbia hybrids and parental taxa between years 9 and 12
Healey AL, Lupoi JS, Lee DJ, Sykes RW, Guenther JM, Tran K, Decker SR, Singh S, Simmons BA, Henry RJ |
| 60 - 71 |
Detailed kinetic mechanism of gas-phase reactions of volatiles released from biomass pyrolysis
Debiagi PEA, Gentile G, Pelucchi M, Frassoldati A, Cuoci A, Faravelli T, Ranzi E |
| 72 - 77 |
Anatomical characteristics, microfibril angle and micromechanical properties of cottonwood (Populus deltoides) and its hybrids
Wang YR, Liu CW, Zhao RJ, McCord J, Rials T, Wang SQ |
| 78 - 86 |
Exposure to biological and chemical agents at biomass power plants
Laitinen S, Laitinen J, Fagernas L, Korpijarvi K, Korpinen L, Ojanen K, Aatamila M, Jumpponen M, Koponen H, Jokiniemi J |
| 87 - 96 |
Influence of the agricultural management practices on the yield and quality of poplar biomass (a 9-year study)
Fernandez MJ, Barro R, Perez J, Losada J, Ciria P |
| 97 - 106 |
Processing and sorting forest residues: Cost, productivity and managerial impacts
Kizha AR, Han HS |
| 107 - 115 |
Thermophilic and mesophilic temperature phase anaerobic co-digestion (TPAcD) compared with single-stage co-digestion of sewage sludge and sugar beet pulp lixiviation
Alonso RM, del Rio RS, Garcia MP |
| 116 - 121 |
Production of second generation ethanol using Eucalyptus dunnii bark residues and ionic liquid pretreatment
Reina L, Botto E, Mantero C, Moyna P, Menendez P |
| 122 - 130 |
Quantitative characterization of the aqueous fraction from hydrothermal liquefaction of algae
Maddi B, Panisko E, Wietsma T, Lemmon T, Swita M, Albrecht K, Howe D |
| 131 - 136 |
Giant cane (Arundo donax L.) for biogas production: The effect of two ensilage methods on biomass characteristics and biogas potential
Corno L, Pilu R, Cantaluppi E, Adani F |
| 137 - 143 |
Co-digestion of terrestrial plant biomass with marine macro-algae for biogas production
Akunna JC, Hierholtzer A |
| 144 - 149 |
Monitoring sugar release during pipeline hydro-transport of wheat straw
Ghatora S, Kumar M, Vaezi M, Kumar A, Bressler D |
| 150 - 157 |
Evaluation of fuel ethanol production from aqueous ammonia-treated rice straw via simultaneous saccharification and fermentation
Phitsuwan P, Permsriburasuk C, Waeonukul R, Pason P, Tachaapaikoon C, Ratanakhanokchai K |
| 158 - 167 |
Process simulation and modeling: Anaerobic digestion of complex organic matter
Mani S, Sundaram J, Das KC |
| 168 - 179 |
Small-scale production of hydrous ethanol fuel: Economic and environmental assessment
Mayer FD, Brondani M, Hoffmann R, Feris LA, Marcilio NR, Baldo V |
| 180 - 186 |
Enzymatic in situ saccharification of lignocellulosic biomass in ionic liquids using an ionic liquid-tolerant cellulases
Xu JX, Wang XF, Liu XY, Xia J, Zhang T, Xiong P |
| 187 - 193 |
Exploiting microbubble-microbe synergy for biomass processing: Application in lignocellulosic biomass pretreatment
Mulakhudair AR, Hanotu J, Zimmerman W |
| 194 - 200 |
Novel pretreatment pathways for dissolution of lignocellulosic biomass based on ionic liquid and low temperature alkaline treatment
Heggset EB, Syverud K, Oyaas K |
| 201 - 208 |
Methanol as an alternative electron donor in chain elongation for butyrate and caproate formation
Chen WS, Ye Y, Steinbusch KJJ, Strik DPBTB, Buisman CJN |
| 209 - 216 |
4-Hydroxybenzoic acid from hydrothermal pretreatment of oil palm empty fruit bunches - Its origin and influence on biomass conversion
Rasmussen H, Mogensen KH, Jeppesen MD, Sorensen HR, Meyer AS |
| 217 - 226 |
Direct bioconversion of sorghum extract sugars to free fatty acids using metabolically engineered Escherichia coli strains: Value addition to the sorghum bioenergy crop
Bule M, Luo YE, Bennett G, Karanjikar M, Rooney W, San KY |
| 227 - 242 |
Biochemical conversion of sugarcane bagasse into bioproducts
Jain A, Wei YZ, Tietje A |
| 243 - 253 |
Comparing the influence of acetate and chloride anions on the structure of ionic liquid pretreated lignocellulosic biomass
Kim H, Ahn Y, Kwak SY |
| 254 - 258 |
A funnel plot to assess energy yield and oil quality for pyrolysis-based processes
DeSisto WJ, Wheeler MC |
| 259 - 268 |
Associated effects of storage and mechanical pre-treatments of microalgae biomass on biomethane yields in anaerobic digestion
Gruber-Brunhumer MR, Jerney J, Zohar E, Nussbaumer M, Hieger C, Bromberger P, Bochmann G, Jirsa F, Schagerl M, Obbard JP, Fuchs W, Drosg B |
| 269 - 278 |
Efficient sugar production from sugarcane bagasse by microwave assisted acid and alkali pretreatment
Zhu ZY, Rezende CA, Simister R, McQueen-Mason SJ, Macquarrie DJ, Polikarpov I, Gomez LD |
| 279 - 283 |
Storage of whole-tree chips from high-density energy plantations of Eucalyptus in Brazil
Eufrade HD, Oguri G, de Melo RX, Ballarin AW, Guerra SPS |
