| 1 - 1 |
Thermo-chemical Conversion of Biomass Preface
Bhaskar T, Steele PH |
| 2 - 18 |
Factors governing dissolution process of lignocellulosic biomass in ionic liquid: Current status, overview and challenges
Badgujar KC, Bhanage BM |
| 19 - 27 |
Heterogeneous catalyst-assisted thermochemical conversion of food waste biomass into 5-hydroxymethylfurfural
Parshetti GK, Suryadharma MS, Pham TPT, Mahmood R, Balasubramanian R |
| 28 - 35 |
Enhanced bioethanol production from yellow poplar by deacetylation and oxalic acid pretreatment without detoxification
Kundu C, Lee HJ, Lee JW |
| 36 - 44 |
Efficient method for the conversion of agricultural waste into sugar alcohols over supported bimetallic catalysts
Tathod AP, Dhepe PL |
| 45 - 52 |
Air gasification of rice husk in bubbling fluidized bed reactor with bed heating by conventional charcoal
Makwana JP, Joshi AK, Athawale G, Singh D, Mohanty P |
| 53 - 64 |
Metal catalysts for steam reforming of tar derived from the gasification of lignocellulosic biomass
Li DL, Tamura M, Nakagawa Y, Tomishige K |
| 65 - 69 |
Utilization of palm oil sludge through pyrolysis for bio-oil and bio-char production
Thangalazhy-Gopakumar S, Al-Nadheri WMA, Jegarajan D, Sahu JN, Mubarak NM, Nizamuddin S |
| 70 - 75 |
Pyrolysis of activated sludge: Energy analysis and its technical feasibility
Agarwal M, Tardio J, Mohan SV |
| 76 - 82 |
Enhancement of bio-oil production via pyrolysis of wood biomass by pretreatment with H2SO4
Kumagai S, Matsuno R, Grause G, Kameda T, Yoshioka T |
| 83 - 89 |
Pyrolysis of Mesua ferrea and Pongamia glabra seed cover: Characterization of bio-oil and its sub-fractions
Bordoloi N, Narzari R, Chutia RS, Bhaskar T, Kataki R |
| 90 - 98 |
Production, separation and applications of phenolic-rich bio-oil - A review
Kim JS |
| 99 - 107 |
Production of bio-based phenolic resin and activated carbon from bio-oil and biochar derived from fast pyrolysis of palm kernel shells
Choi GG, Oh SJ, Lee SJ, Kim JS |
| 108 - 118 |
Hydrodeoxygenation processes: Advances on catalytic transformations of biomass-derived platform chemicals into hydrocarbon fuels
De S, Saha B, Luque R |
| 119 - 125 |
Granulation and ferric oxides loading enable biochar derived from cotton stalk to remove phosphate from water
Ren J, Li N, Li L, An JK, Zhao L, Ren NQ |
| 126 - 131 |
Kinetic study of solid waste pyrolysis using distributed activation energy model
Bhavanam A, Sastry RC |
| 132 - 138 |
Retrofitting hetrotrophically cultivated algae biomass as pyrolytic feedstock for biogas, bio-char and bio-oil production encompassing biorefinery
Sarkar O, Agarwal M, Kumar AN, Mohan SV |
| 139 - 146 |
Chemical characterization and anaerobic biodegradability of hydrothermal liquefaction aqueous products from mixed-culture wastewater algae
Tommaso G, Chen WT, Li P, Schideman L, Zhang YH |
| 147 - 156 |
Hydrothermal liquefaction of biomass: Developments from batch to continuous process
Elliott DC, Biller P, Ross AB, Schmidt AJ, Jones SB |
| 157 - 165 |
Catalytic hydrothermal liquefaction of water hyacinth
Singh R, Balagurumurthy B, Prakash A, Bhaskar T |
| 166 - 176 |
A techno-economic review of thermochemical cellulosic biofuel pathways
Brown TR |
| 177 - 177 |
Advances in Biogas Research and Application
Oechsner H, Khanal SK, Taherzadeh M |
| 178 - 186 |
Anaerobic digestion of lignocellulosic biomass: Challenges and opportunities
Sawatdeenarunat C, Surendra KC, Takara D, Oechsner H, Khanal SK |
| 187 - 193 |
Effects of crop maturity and size reduction on digestibility and methane yield of dedicated energy crop
Surendra KC, Khanal SK |
| 194 - 200 |
Effects of mechanical treatment of digestate after anaerobic digestion on the degree of degradation
Lindner J, Zielonka S, Oechsner H, Lemmer A |
| 201 - 208 |
Experimental and economical evaluation of bioconversion of forest residues to biogas using organosolv pretreatment
Kabir MM, Rajendran K, Taherzadeh MJ, Horvath IS |
| 209 - 216 |
Assessment of percolation through a solid leach bed in dry batch anaerobic digestion processes
Shewani A, Horgue P, Pommier S, Debenest G, Lefebvre X, Gandon E, Paul E |
| 217 - 225 |
Effects of ensiling treatments on lactic acid production and supplementary methane formation of maize and amaranth - An advanced green biorefining approach
Haag NL, Nagele HJ, Fritz T, Oechsner H |
| 226 - 229 |
Anaerobic digestion of food waste through the operation of a mesophilic two-phase pilot scale digester - Assessment of variable loadings on system performance
Grimberg SJ, Hilderbrandt D, Kinnunen M, Rogers S |
| 230 - 237 |
Anaerobic co-digestion of forage radish and dairy manure in complete mix digesters
Belle AJ, Lansing S, Mulbry W, Weil RR |
| 238 - 246 |
Mono-fermentation of chicken manure: Ammonia inhibition and recirculation of the digestate
Nie H, Jacobi HF, Strach K, Xu CM, Zhou HJ, Liebetrau J |
| 247 - 253 |
Extraction of soluble substances from organic solid municipal waste to increase methane production
Campuzano R, Gonzalez-Martinez S |
| 254 - 261 |
Augmented biogas production from protein-rich substrates and associated metagenomic changes
Kovacs E, Wirth R, Maroti G, Bagi Z, Nagy K, Minarovits J, Rakhely G, Kovacs KL |
| 262 - 269 |
Flexible biogas production for demand-driven energy supply - Feeding strategies and types of substrates
Mauky E, Jacobi HF, Liebetrau J, Nelles M |
| 270 - 277 |
Foam formation in biogas plants caused by anaerobic digestion of sugar beet
Moeller L, Lehnig M, Schenk J, Zehnsdorf A |
| 278 - 284 |
Development of an in-line process viscometer for the full-scale biogas process
Monch-Tegeder M, Lemmer A, Hinrichs J, Oechsner H |
| 285 - 296 |
Upscaling of an electronic nose for completely stirred tank reactor stability monitoring from pilot-scale to real-scale agricultural co-digestion biogas plant
Adam G, Lemaigre S, Goux X, Delfosse P, Romain AC |
| 297 - 305 |
Performance and kinetic evaluation of semi-continuously fed anaerobic digesters treating food waste: Role of trace elements
Zhang WQ, Wu SB, Guo JB, Zhou J, Dong RJ |
| 306 - 312 |
Critical comparison of different model structures for the applied simulation of the anaerobic digestion of agricultural energy crops
Weinrich S, Nelles M |
| 313 - 318 |
Influence of different substrates on the performance of a two-stage high pressure anaerobic digestion system
Lemmer A, Chen Y, Lindner J, Wonneberger AM, Zielonka S, Oechsner H, Jungbluth T |
| 319 - 322 |
Influence of trace substances on methanation catalysts used in dynamic biogas upgrading
Jurgensen L, Ehimen EA, Born J, Holm-Nielsen JB, Rooney D |
| 323 - 329 |
Dynamic biogas upgrading based on the Sabatier process: Thermodynamic and dynamic process simulation
Jurgensen L, Ehimen EA, Born J, Holm-Nielsen JB |
| 330 - 333 |
Biocatalytic methanation of hydrogen and carbon dioxide in an anaerobic three-phase system
Burkhardt M, Koschack T, Busch G |
| 334 - 340 |
Rapid bio-methanation of syngas in a reverse membrane bioreactor: Membrane encased microorganisms
Youngsukkasem S, Chandolias K, Taherzadeh MJ |
| 341 - 349 |
Degradation efficiency of agricultural biogas plants - A full-scale study
Ruile S, Schmitz S, Monch-Tegeder M, Oechsner H |
| 350 - 358 |
A dynamic model for calculating methane emissions from digestate based on co-digestion of animal manure and biogas crops in full scale German biogas plants
Muha I, Linke B, Wittum G |
| 359 - 361 |
Determination of methane emission rates on a biogas plant using data from laser absorption spectrometry
Groth A, Maurer C, Reiser M, Kranert M |
