JB Holm-Nielsen - European Biomass Conference and Exhibition
JB Holm-Nielsen - European Biomass Conference and Exhibition
JB Holm-Nielsen - European Biomass Conference and Exhibition
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Visual Presentations<br />
WEDNESDAY, 8 JUNE 2011<br />
VISUAL PRESENTATIONS VP T5.1<br />
08:30 - 10:10 International bioenergy trade<br />
VP5.1.2 B. Glavonjic, D. Stojiljkovic, N. Manic<br />
University of Belgrade, Belgrade, Republic of Serbia<br />
Wood Pellets Market in Serbia - Production<br />
<strong>and</strong> Opportunities for Utilization<br />
VP5.1.5 I. Eleftheriadis<br />
Centre for Renewable Energy Sources, Pikermi Attiki,<br />
Greece<br />
<strong>Biomass</strong> Fuels Market in Greece<br />
VP5.1.6 J.B. <strong>Holm</strong>-<strong>Nielsen</strong><br />
University of Aalborg, Esbjerg, Denmark<br />
S. Kirchovas<br />
University of South Denmark, Esbjerg, Denmark<br />
Large Scale International Bioenergy Trading. How<br />
can this be Realized Under Safe <strong>and</strong> Sustainable<br />
Frame Conditions in a Transition <strong>and</strong> Paradigm<br />
Changing Phase in Internationally Policy Making<br />
or Lack of the Same. Are EU - UN - COP Stalling?<br />
VP5.1.7 R. Hoefnagels, M. Junginger, A. Faaij<br />
University of Utrecht, The Netherl<strong>and</strong>s<br />
G. Resch, C. Panzer<br />
Vienna University of Technology, Austria<br />
Intermodal Transport of Solid <strong>Biomass</strong> for Energy<br />
Purposes in Europe<br />
VISUAL PRESENTATION VP T5.3<br />
08:30 - 10:10 Assessment of secondary effects<br />
of bioenergy<br />
VP5.3.1 C. Torri, L. Benini, V. B<strong>and</strong>ini, I. Thomsen<br />
University of Bologna - CIRSA, Ravenna, Italy<br />
National Wide Assessment of Soil Carbon<br />
Sequestration <strong>and</strong> GHGs Emission Reduction<br />
from Agricultural Residues in Italy<br />
VP5.3.2 P.M.F. Quist-Wessel, J.W.A. Langeveld<br />
<strong>Biomass</strong> Research, Wageningen, The Netherl<strong>and</strong>s<br />
Increasing Eu Oilseed Production to Reduce Import<br />
Dependency <strong>and</strong> Indirect L<strong>and</strong> Use<br />
VP5.3.3 B. Glavonjic, P. Sretenovic, M. Nesic<br />
University of Belgrade, Republic of Serbia<br />
The Socio-Economic Aspects of Wood Energy<br />
Systems in Serbia
Visual Presentations<br />
VP5.3.4 J. Unfried<br />
University of the Philippines, Quezon City, Germany<br />
S. Levchenko, A. Yakushau, A. Grebenkov<br />
Joint Institute for Power <strong>and</strong> Nuclear Research, Minsk,<br />
Belarus<br />
Water Balance Assessment of a Sustainable<br />
Jatropha Cycle - More Water with Biofuels<br />
VP5.3.5 P.M.F. Quist-Wessel, J.W.A. Langeveld<br />
<strong>Biomass</strong> Research, Wageningen, The Netherl<strong>and</strong>s<br />
Expansion of Sugarcane Production in the Brazilian<br />
Cerrado: Impact on Carbon Stock Balances<br />
VISUAL PRESENTATION VP T5.4<br />
08:30 - 10:10 Financing of bioenergy projects<br />
VP5.4.1 H. Hahn<br />
Fraunhofer IWES, Kassel, Germany<br />
B. Kulisic<br />
EIHP, Zagreb, Croatia<br />
D. Rutz<br />
WIP-Renewable Energies, Munich, Germany<br />
A. Wellinger, F. Kirchmeyer<br />
EBA, Brussels, Belgium<br />
K. Sioulas<br />
Centre for Renewable Energy Sources, Athens, Greece<br />
J. Stambasky<br />
CBA, Czech Republic<br />
I. Dzene<br />
Ekodoma, Riga, Latvia<br />
L. Lovrencec<br />
RA-Sinergija, Moravske Toplice, Slovenia Republic<br />
A. Ofiteru<br />
Trinergi Group, Romania<br />
Financing Biogas Projects in Central <strong>and</strong> Eastern<br />
Europe<br />
VP5.4.2 G.P. Kovacevik<br />
Italian Ministry for the Environment, L<strong>and</strong> <strong>and</strong> Sea,<br />
Rome, Italy<br />
C. Melis<br />
Republic of Italy - Ministry for the Environmen, Skopje,<br />
Republic of Macedonia<br />
L.T. Nestorovski<br />
University of Cyril <strong>and</strong> Methodius, Skopje,<br />
Republic of Macedonia<br />
<strong>Biomass</strong> Use for Energy Production in Macedonia<br />
VP5.4.3 L. Roca Fernández-Vizarra<br />
RWE Innogy Iberia Biomasa, Alcobendas, Spain<br />
Reasons <strong>and</strong> Barriers for the Underdevelopment<br />
of Dedicated Biopower Plants in Spain
Visual Presentations<br />
VP5.4.4 T. Rothacher<br />
Germany Trade <strong>and</strong> Invest, Berlin, Germany<br />
Investment Opportunities in the German Bioenergy<br />
Industry<br />
VP5.4.5 W. Hiegl, R. Janssen<br />
WIP-Renewable Energies, Munich, Germany<br />
Successful Financing of Bioenergy Projects<br />
through Heat Contracting<br />
VISUAL PRESENTATION VP T5.5<br />
08:30 - 10:10 International cooperation<br />
VP5.5.1 B. Wildegger, A. Schank, M. Hänel, G. Schories<br />
TTZ Bremerhaven, Germany<br />
M. Köhn<br />
ALENSYS Alternative Energiesysteme AG, Erkner,<br />
Germany<br />
K. Noak<br />
HYDRO-AIR international irrigation systems GmbH,<br />
Niedergörsdorf, Germany<br />
Automated Control <strong>and</strong> Monitoring System<br />
for Wastewater Irrigated Energy Plantations<br />
VP5.5.3 N. Szarka<br />
German <strong>Biomass</strong> Research Centre, Leipzig, Germany<br />
J. Apolinario<br />
National University Hermilio Valdizán, Huánuco, Peru<br />
A. Bezama<br />
BSB Ingenieros Ltda, Concepción, Chile<br />
J. Wolfbauer<br />
Montanuniversität Leoben, Leoben, Austria<br />
Sustainability Assessment of Energy Scenarios<br />
in the Chilean Patagonia by the Development<br />
<strong>and</strong> Application of an Integrated Indicator<br />
Assessment Tool<br />
VP5.5.4 R. Janssen, D. Rutz<br />
WIP-Renewable Energies, Munich, Germany<br />
J. Rogat, K. Borch<br />
Technical University of Denmark, Kongens Lyngby,<br />
Denmark<br />
M. Mittelbach, S. Schober<br />
University of Graz, Austria<br />
J. Vos, A. Thebaud<br />
BTG <strong>Biomass</strong> Technology Group, Enschede,<br />
The Netherl<strong>and</strong>s<br />
M. Ballesteros, P. Manzanares<br />
CIEMAT, Madrid, Spain<br />
C. St James<br />
Argentine Renewable Energies Chamber, Buenos Aires,<br />
Argentina
Visual Presentations<br />
S. Coelho, P. Guardabassi<br />
CENBIO Brazilian Reference Center on <strong>Biomass</strong>,<br />
Sao Paulo, Brazil<br />
G. Aroca, L. Soler<br />
Universidad Catolica de Valparaiso, Valparaiso, Chile<br />
E. Riegelhaupt, O. Masera, M. Prehn Junquera<br />
Universidad Nacional Autonoma de Mexico, Morelia,<br />
Mexico<br />
G. Nadal<br />
Fundación Bariloche, San Carlos de Bariloche, Argentina<br />
G. Bravo<br />
Fundación Bariloche, Argentina<br />
Biofuels Cooperation between Europe <strong>and</strong> Latin<br />
America: Results from the BioTop Project<br />
VP5.5.5 S.M. Storini Gonzalez Velázquez, J.R. Moreira,<br />
S.M. Apolinario Santos, S. Teixeits Coelho<br />
Brazilian Reference Center on <strong>Biomass</strong>, São Paulo,<br />
Brazil<br />
R. Janssen, D. Rutz<br />
WIP-Renewable Energies, Munich, Germany<br />
Project Best - Bioethanol for Sustainable Transport -<br />
<strong>and</strong> the Public Policies of Encouragement to Ethanol<br />
Usage<br />
VP5.5.6 M. Pérez-Fortes, P. Arranz-Piera, E. Velo, L. Puigjaner<br />
Universitat Politècnica de Catalunya (UPC), Barcelona,<br />
Spain<br />
J.M. Laínez<br />
School of Chemical Engineering, Purdue University,<br />
West Lafayette, Spain<br />
Bio-Based Sustainable Supply Chain Modelling<br />
for Rural Electrification<br />
VP5.5.8 T.T. Al-Shemmeri, S. Oberweis<br />
Staffordshire University, Stafford, United Kingdom<br />
ARBOR - Accelerating Renewable Energies through<br />
Valorisation of Biogenic Organic Raw Material<br />
VP5.5.9 S.G. Aquino<br />
Mariano Marcos State University, Batac City, Philippines<br />
Gender Mapping in the <strong>Biomass</strong> Energy Sectors<br />
in Northern Philippines<br />
VP5.5.11 A. Kumar, P. Kunal<br />
Emergent Ventures India, Gurgaon, India<br />
Pitfalls of <strong>Biomass</strong> Assessment in India<br />
VP5.5.13 M.M. Islam<br />
Sun Corporation, Dhaka, Bangladesh<br />
<strong>Biomass</strong> Energy Situation in Bangladesh:<br />
A Country Review
Visual Presentations<br />
VP5.5.14 I. Ionel<br />
Politechnical University of Timisoara, Romania<br />
Bio-energy from Short Rotation Coppice as Source<br />
for the 2030 Vision of District Heating<br />
VISUAL PRESENTATIONS VP T5.6<br />
10:40 - 12:05 <strong>Biomass</strong> strategies <strong>and</strong> policies<br />
VP5.6.3 V. Zebergs, N. Zeltins, L. Grackova<br />
Institute of Physical Energetics, Riga, Latvia<br />
<strong>Biomass</strong> Strategies <strong>and</strong> Policies: Local, Regional<br />
<strong>and</strong> National Bioenergy Developing<br />
VP5.6.6 M.I. Haque, S. Rozakis, A. Natsis<br />
Agricultural University of Athens, Greece<br />
An Integrated Model to Evaluate Bio-Energy<br />
Production in the Sugar Industry <strong>and</strong> Cost of CO2<br />
Saving<br />
VP5.6.7 L. Pelkmans, I. De Vlieger, C. Beckx<br />
VITO - Flemish Institute Technological Research, Mol,<br />
Belgium<br />
L. Mertens<br />
Université Catholique de Louvain, Louvain-la-Neuve,<br />
Belgium<br />
The Role of Biofuels in Long Term Transport Policy<br />
VP5.6.8 O. Piyade, Z.E. Özütürk<br />
PI Energy, Ankara, Turkey<br />
Renewable Energy Policy in Turkey, <strong>Biomass</strong> Energy<br />
Potentiol <strong>and</strong> Investment Incentives<br />
VP5.6.9 A.K. Schütte, P. Schweizer-Ries, J. Irrgang<br />
Saarl<strong>and</strong> University, Saarbrücken, Germany<br />
Acceptance of Bio-Fuels in Germany<br />
VP5.6.10 P. Thornley<br />
University of Manchester, Manchester, United Kingdom<br />
Identifying the Best Use of <strong>Biomass</strong> Resources<br />
VP5.6.12 M. Forbord, J. Vik<br />
Centre for Rural Research, Trondheim, Norway<br />
B.G. Hillring<br />
Hedmark University College, Elverum, Norway<br />
Supply Chains for Heat from Wood Resources -<br />
Local Configurations <strong>and</strong> Critical Factors
Visual Presentations<br />
VP5.6.13 C. Lutsyuk<br />
FNR - Agency for Renewable Resources, Gülzow,<br />
Germany<br />
S. Tempel<br />
Freie Universität Berlin, Berlin, Germany<br />
Central <strong>European</strong> Bioenergy Policies <strong>and</strong> Results<br />
of the Transnational Stakeholder Questionnaire<br />
on Political Framework <strong>and</strong> National Renewable<br />
Energy Action Plans<br />
VP5.6.16 W. Stiehler, T. Decker, K. Menrad<br />
Hochschule Weihenstephan-Triesdorf, Straubing,<br />
Germany<br />
Public Acceptance of Renewable Energies in Bavaria<br />
Using the Example of <strong>Biomass</strong> Cogeneration Plants<br />
<strong>and</strong> Biogas Plants<br />
VP5.6.21 M. Bissmann, R. Janssen<br />
WIP-Renewable Energies, Munich, Germany<br />
S. Scherbarth<br />
Friends of the Earth Europe, Brussels, Belgium<br />
E. Giovannetti<br />
<strong>European</strong> Renewable Energy Council, Brussels, Belgium<br />
M. Black<br />
Ninja Tune, London, United Kingdom<br />
R. Blakeborough<br />
Brightonart, Brighton, United Kingdom<br />
B. Steirer<br />
Elevate, Graz, Austria<br />
E. Bischof<br />
4youreye, Graz, Austria<br />
A. Schuster<br />
Green City, Munich, Germany<br />
T. Holoda<br />
Wilsonic, Bratislava, Slovak Republic<br />
The <strong>European</strong> Intelligent Energy Promotion Tour<br />
(Energy Union)<br />
VP5.6.22 S. Caneva, I. Weiss, W. Hiegl, R. Janssen, D. Rutz,<br />
P. Helm<br />
WIP-Renewable Energies, Munich, Germany<br />
W. Kirchensteiner<br />
BZS, Munich, Germany<br />
M. Wolf<br />
ALP, Dillingen, Germany<br />
E. Schellekens<br />
AIE, Brussels, Belgium<br />
D. Campogr<strong>and</strong>e<br />
FIEC, Brussels, Belgium<br />
I. Nedelcheva<br />
Vocational High School of Electronics “John Atanas,<br />
Sofia, Bulgaria<br />
M. Papez<br />
School Centre Velenje, Velenje, Slovenia Republic
Visual Presentations<br />
S. Tselepis<br />
Centre for Renewable Energy Sources, Athens, Greece<br />
Y. Magiera<br />
Cracow University of Technology, Krakow, Pol<strong>and</strong><br />
M. Esitini, M. Merrone<br />
ASSISTAL, Milan, Italy<br />
S.A. Pressas, T. Giannadakis<br />
Chamber of Mechanical & Electrical Engineers<br />
of Western Greece, Patras, Greece<br />
<strong>European</strong> Project “Install+RES”: Training Courses<br />
for Trainers <strong>and</strong> Installers of <strong>Biomass</strong> Systems<br />
in Buildings<br />
VP5.6.23 M. MacGregor, M. Adams, P. Duinker<br />
Dalhousie University, Halifax, Canada<br />
Woodl<strong>and</strong> Owners’ Attitudes towards Energy<br />
from Forest <strong>Biomass</strong> Implications for Meeting<br />
Renewable Energy Targets<br />
VP5.6.27 C. da Costa Gomez<br />
Fachverb<strong>and</strong> Biogas, Freising, Germany<br />
Situation, Potential, Prospective <strong>and</strong> Legal Frame<br />
of Biogas as a Sustainable Bioenergy Source Using<br />
the Sample of Germany<br />
VP5.6.28 F.A. Batzias, O. Kopsidas, Y. Pollalis<br />
University of Pireaus, Greece<br />
Determination of Optimal Subsidies for Balancing<br />
Local Supply/Dem<strong>and</strong> of <strong>Biomass</strong> Products Within<br />
a Regional Development Strategic Plan<br />
VP5.6.29 S. Turn, P. Thompson<br />
University of Hawaii, Honolulu, USA<br />
M. Tome<br />
Hawaii State Energy Office, Honolulu, USA<br />
Hawaii Bioenergy Master Plan Project<br />
VP5.6.36 F.A. Toro, F. Reitze<br />
Institute IREES, Karlsruhe, Germany<br />
W. Eichhammer<br />
Fraunhofer ISI, Karlsruhe, Germany<br />
Ex-Post Quantification of the Policy Effects<br />
on Greenhouse Gas Emissions Reduction:<br />
The Case of The Biofuel Directive<br />
VP5.6.37 R. Offermann, T. Seidenberger<br />
German <strong>Biomass</strong> Resarch Centre, Leipzig, Germany<br />
D. Thrän<br />
German <strong>Biomass</strong> Resarch Centre; Helmholtz Centre Uf,<br />
Leipzig, Germany<br />
Analysis of the Development of <strong>Biomass</strong> Production<br />
<strong>and</strong> Use in German “bioenergy regions”
Visual Presentations<br />
VP5.6.38 A.M.I. Kallio, M. McCormick<br />
The Finnish Forest Research Institute, Vantaa, Finl<strong>and</strong><br />
P. Anttila, A. Asikainen<br />
The Finnish Forest Research Institute, Joensuu, Finl<strong>and</strong><br />
Assessing the Achievability <strong>and</strong> the Costs<br />
of the Finnish Target for the Energy Use of Forest<br />
Chips in 2020<br />
VISUAL PRESENTATIONS VP T1.3<br />
13:15 - 14:40 Energy crops<br />
VP1.3.2 S. Traoré, A. Diarra<br />
University of Conakry, Guinea Republic<br />
M. Traoré<br />
University of Sonfonia, Conakry, Guinea Republic<br />
S. Magassouba<br />
Institute of Medical Plants, Dubreka, Guinea Republic<br />
Potential <strong>and</strong> Energy Renewability of Jatropha<br />
Curcas Oil<br />
VP1.3.3 B. Adelekan<br />
Federal College of Agriculture, Ibadan, Nigeria<br />
An Evaluation of the Global Potential of Cocoyam<br />
(Colocasia <strong>and</strong> Xanthosoma species) as an Energy<br />
Crop<br />
VP1.3.4 G. Siri-Prieto<br />
Facultad de Agronomía, Udelar, Pays<strong>and</strong>ú, Uruguay<br />
Impact of Nitrogen <strong>and</strong> Phosphorus Applications<br />
on <strong>Biomass</strong> Production <strong>and</strong> Nutrient Balance<br />
for Three C4 Bioenergy Crops<br />
VP1.3.5 A .A. Saita<br />
University of Catania, Italy<br />
C. Patanè<br />
CNR-ISAFOM,USO, Catania, Italy<br />
Genotypes Screening for Thermal Requirements<br />
During Germination in Sorghum [Sorghum Bicolor<br />
(L.) Moench] <strong>Biomass</strong> for Energy<br />
VP1.3.6 K. Wünsch, S. Gruber, W. Claupein<br />
University of Hohenheim, Stuttgart, Germany<br />
Identification of the Optimal Harvest Date<br />
for the Energy Crops Sudan Grass (Sorghum<br />
Bicolor) <strong>and</strong> Jerusalem Artichoke (Helianthus<br />
Tuberosus L.)<br />
VP1.3.7 S.L. Cosentino, D. Scordia, V. Copani, G. Testa<br />
University of Catania, Italy<br />
Promising Perennial Grass Dedicated for <strong>Biomass</strong><br />
Production in the Semi-Arid Mediterranean<br />
Environment
Visual Presentations<br />
VP1.3.8 K. Chen, M. Gong<br />
Yunnan Normal University, Kunming, P.R. China<br />
Involvement of Osmoregulation <strong>and</strong> their Biochemi-<br />
cal Pathways in Drought Hardening-Enhanced<br />
Drought Resistance in the Energy Plant Jatropha<br />
Curcas L.<br />
VP1.3.9 Mr. Kondor<br />
Agricultural <strong>and</strong> Rural Develpoment Agency,<br />
Nyíregyháza, Hungary<br />
Dr. Lenti<br />
Collage of Nyíregyháza, Hungary<br />
Nutrient Supply of the “Energy Willow”<br />
with Nitrogen-, Phosphorus <strong>and</strong> Potassium Fertilizer<br />
in Szabolcs-Szatmár-Bereg Country in Hungary<br />
VP1.3.10 M. Mastrorilli, P. Campi, D. Palumbo, A. Navarro,<br />
F. Modugno, V. Turci<br />
CRA-SCA, Bari, Italy<br />
Sorghum Cultivated for Energy <strong>and</strong> Water Use<br />
Efficiency in Mediterranean Environments<br />
VP1.3.11 L. Poisa, E. Ubars, A. Adamovics<br />
Latvia University, Jelgava, Latvia<br />
Quality Analysis of Natural Reed Canary <strong>and</strong> the<br />
Cultivated Reed Canary Grass for Production<br />
of Solid Biofuel in Latvia<br />
VP1.3.13 R. Barro, P. Ciria, E. Maletta, M. Fernández, J. Pérez,<br />
J. Losada, J.E. Carrasco<br />
CEDER-CIEMAT, Lubia, Spain<br />
Variability on the Properties of Triticale <strong>and</strong> Rye<br />
<strong>Biomass</strong> Due to the Different Varieties <strong>and</strong> Growing<br />
Conditions<br />
VP1.3.14 G. De Mastro, N. Grassano, L. D’Andrea<br />
University of Bari Aldo Moro, Italy<br />
A.D. Palumbo<br />
CRA-SCA, Bari, Italy<br />
GIS-Based Evaluation of Cardoon (Cynara<br />
Cardunculus L. Var. Altilis DC.) Suitability in Apulia<br />
Region<br />
VP1.3.15 P. Ciria, C.S. Ciria, P. Pérez, J.E. Carrasco<br />
CEDER-CIEMAT, Lubia, Spain<br />
Energy Analysis of Agricultural Exploitations under<br />
Rain-Fed Continental Conditions in Central Spain<br />
VP1.3.16 M. Sanz, F. Mosquera, G. Sánchez, M. Barreiro,<br />
P.L. Aguado, M.D. Curt, J. Fernández, J.Sánchez<br />
Polytechnic University of Madrid, Spain<br />
<strong>Biomass</strong> Potential of Triticale <strong>and</strong> Rye in Two<br />
Different Phenological Stages <strong>and</strong> Energy<br />
Characterization
Visual Presentations<br />
VP1.3.17 M.D. Curt, F. Sánchez, J. Sánchez, P. Aguado,<br />
J. Fernández<br />
Polytechnic University of Madrid, Spain<br />
M. Uceda, G. Zaragoza, J.M. Agüeda<br />
Fundación Cajamar, Almeria, Spain<br />
Allometric Method for the Evaluation of Prickly Pear<br />
(Opuntia ficus- indica (L.) Mill.) <strong>Biomass</strong> Weight:<br />
Comparison between Seasonal Data<br />
VP1.3.18 M. Sanz, M.D. Curt, J. Fernández<br />
Polytechnic University of Madrid, Spain<br />
A. Plaza, M. García- Müller<br />
IMIDRA, Madrid, Spain<br />
Assessment of Siberian Elm Coppicing Cycle<br />
VP1.3.19 G. Facciotto, S. Bergante<br />
CRA-PLF, Casale Monferrato (AL), Italy<br />
Production Performances of Robinia Pseudoacacia<br />
L. <strong>and</strong> Paulownia Tomentosa Steud. Cultivated with<br />
High <strong>and</strong> Very High Density Model in Northern Italy<br />
VP1.3.21 J. Bubenik, J. Weger<br />
Silva Tarouca Research Institute for L<strong>and</strong>scape,<br />
Pruhonice, Czech Republic<br />
<strong>Biomass</strong> Production of Willow Short Rotation<br />
Coppice in Four Three Year Rotation Cycles<br />
VP1.3.22 G. Nervo, G. Facciotto<br />
CRA-PLF, Casale Monferrato (AL), Italy<br />
<strong>Biomass</strong> Production of Fast Growing Species<br />
in a Short Rotation Coppice in Sicily (Italy)<br />
VP1.3.23 M.V. Lasorella, N. Nassi o Di Nasso, C. Tozzini,<br />
G. Ragaglini, E. Bonari<br />
Scuola Superiore Sant’Anna, Pisa, Italy<br />
Evaluation of Switchgrass Varieties under<br />
the Mediterranean Environment: Preview Results<br />
VP1.3.24 R.I. Nazli<br />
University of Cukurova, Adana, Turkey<br />
I. Lew<strong>and</strong>owski<br />
University of Hohenheim, Stuttgart, Germany<br />
Evaluation of Lodging Under Effects of Different<br />
Nitrogen Fertilization Levels <strong>and</strong> Genotypes<br />
in Miscanthus <strong>and</strong> Switchgrass<br />
VP1.3.26 N. Piquero, M.D. Curt, J. Fern<strong>and</strong>ez<br />
Universidad Politecnica de Madrid, Spain<br />
Performance of Wheatgrass <strong>and</strong> Four Close Relative<br />
Perennial Species Over One Growth Cycle in a Small<br />
Scale Experiment
Visual Presentations<br />
VP1.3.27 M. Di C<strong>and</strong>ilo, E. Ceotto<br />
CRA-CIN, Bologna, Italy<br />
F. Grassi, C. Soave<br />
University of Milan, Italy<br />
Assessment of Phenotypic <strong>and</strong> Genotypic<br />
Characteristics of 22 Giant Reed Ecotypes (Arundo<br />
Donax L.) of Different Regions<br />
VP1.3.29 M. Di C<strong>and</strong>ilo, E. Ceotto<br />
CRA-CIN, Bologna, Italy<br />
<strong>Biomass</strong> Yield of Sweet <strong>and</strong> Fiber Sorghum<br />
(Sorghum Bicolor L. Moench) under Six<br />
Combinations of Sowing <strong>and</strong> Harvest Timing<br />
VP1.3.30 N. Di Virgilio, O. Facini, T. Georgiadis, F. Rossi<br />
National Research Council of Italy, Bologna, Italy<br />
A. Monti<br />
University of Bologna, Italy<br />
The Eddy Covariance Technique for Carbon Balance<br />
<strong>and</strong> Water Exchange Assessment in <strong>Biomass</strong> Crops<br />
VP1.3.31 G. Florio, M. Borin<br />
University of Padua, Italy<br />
A. C. Barbera, G. L. Cirelli<br />
University of Catania, Italy<br />
R. Albergo, S. Palazzo<br />
ENEA, Matera, Italy<br />
Preliminary Evaluation of Macrophyte Wetl<strong>and</strong><br />
<strong>Biomass</strong>es to Obtain Second Generation Ethanol<br />
VP1.3.32 V. Copani, S.L. Cosentino, U. Anastasi, O. Sortino,<br />
S. Virgillito<br />
University of Catania, Italy<br />
L. Lazzeri<br />
CRA-CIN, Bologna, Italy<br />
Ethiopian Mustard as a Novel Multifunctional Crop<br />
for the Mediterranean Environment<br />
VP1.3.33 V. Dubrovskis, A. Adamovics, I. Plume<br />
Latvia University of Agriculture, Jelgava, Latvia<br />
Biogas Yield from Untraditional Energy Crops<br />
in Latvia<br />
VP1.3.35 B. Formowitz<br />
Technologie- und Förderzentrum (TFZ), Straubing,<br />
Germany<br />
Exploitation of Biogas Digestates to Meet Nutrient<br />
Dem<strong>and</strong>s of Different Cultivars in a Crop Rotation<br />
VP1.3.36 C. Nati, R. Spinelli<br />
CNR-IVALSA, Sesto Fiorentino, Italy<br />
G. Picchi<br />
CNR-IVALSA, San Michele all’Adige, Italy<br />
Quality of <strong>Biomass</strong> from Different SRC Species
Visual Presentations<br />
VP1.3.37 G. Picchi<br />
CNR-IVALSA, San Michele all’Adige, Italy<br />
R. Spinelli<br />
CNR-IVALSA, Sesto Fiorentino, Italy<br />
Restoration of Farml<strong>and</strong> after Short Rotation<br />
Coppice (SRC) Productive Cycle<br />
VP1.3.38 R. Spinelli, N. Magagnotti, C. Nati<br />
CNR-IVALSA, Sesto Fiorentino, Italy<br />
G. Picchi<br />
CNR-IVALSA, San Michele all’Adige, Italy<br />
Overview of Short Rotation Coppice Harvesters<br />
in Italy<br />
VP1.3.39 C. Freda, F. Zimbardi, F. Nanna, V. Valerio, G. Braccio<br />
ENEA, Rotondella, Italy<br />
Is Thermogravimetric Analysis Helpful to Determine<br />
<strong>Biomass</strong> Composition?<br />
VP1.3.40 M. Kulyk<br />
Poltava State Agrarian Academy, Ukraine<br />
R. Poppens, W. Elbersen<br />
Wageningen UR F&BR, The Netherl<strong>and</strong>s<br />
L. Lerminiaux<br />
Phytofuels Investments, Kiev, Ukraine<br />
V. Kurilo<br />
Institute of Bioenergy Crops <strong>and</strong> Sugar Beet, Kiev,<br />
Ukraine<br />
Switchgrass for Pellets Production in Ukraine.<br />
First Results<br />
VP1.3.41 J.E. Ndzana, R. Otterpohl<br />
Hamburg University of Technology, Germany<br />
Bamboo <strong>Biomass</strong> Production as a Function<br />
of Human Urine Fertilization<br />
VP1.3.42 V. Tilvikiene, Z. Kadziuliene, Z. Dabkevicius<br />
Lithuanian Research Center for Agriculture <strong>and</strong> Forestry,<br />
Kedainiai, Lithuania<br />
The Variation of <strong>Biomass</strong> Yield <strong>and</strong> Quality<br />
of Perennial Grasses as Energy Crops<br />
VP1.3.43 Z. Kadziuliene, L. Sarunaite, A. Kryzeviciene,<br />
V. Tilvikiene, Z. Dabkevicius<br />
Lithuanian Research Center for Agriculture <strong>and</strong> Forestry,<br />
Kedainiai, Lithuania<br />
<strong>Biomass</strong> Accumulation of Alternative Crops<br />
for Combustion<br />
VP1.3.44 J. Carli, G. Allison, I. Donnison<br />
IBERS, Aberystwyth, United Kingdom<br />
Manipulation of Lignin in the Energy Grass<br />
Miscanthus
Visual Presentations<br />
VP1.3.45 A. Kumar<br />
University of Rajasthan, Jaipur, India<br />
Metabolic Engineering <strong>and</strong> Production<br />
of Next-Generation Bio-Fuels<br />
VP1.3.46 Ashwani Kumar<br />
University of Rajasthan, Jaipur, India<br />
Production <strong>and</strong> Demonstration of High Quality Plant<br />
Material of Jatropha Curcas<br />
VP1.3.47 A. Kumar, V. Rani Kumar<br />
University of Rajasthan, Jaipur, India<br />
New <strong>and</strong> Renewable Source of Energy: Salicornia<br />
spp. a Halophyte has Potential for <strong>Biomass</strong> Yield<br />
in Coastal Areas of the World<br />
VP1.3.48 K. Giannoulis<br />
University if Thessaly, Larisa, Greece<br />
A. Molla, N.G. Danalatos<br />
University of Thessaly, Volos, Greece<br />
Switchgrass as a Promising <strong>Biomass</strong> Crop<br />
with Soil Improvement Characteristics<br />
VP1.3.49 K. Giannoulis<br />
University of Thessaly, Larisa, Greece<br />
N.G. Danalatos, M. Sakellariou<br />
University of Thessaly, Volos, Greece<br />
Switchgrass, Cardoon <strong>and</strong> Miscanthus Perennial<br />
Crops as Alternatives for Solid Bio-fuel Production<br />
in Central Greece<br />
VP1.3.50 E. Skoufogianni, D. Bartzialis, N.G. Danalatos<br />
University of Thessaly, Volos, Greece<br />
P. Efthimiadis<br />
University of Athens, Greece<br />
Nitrogen Use of Sunflower Grown on a S<strong>and</strong>y Soil<br />
as Affected by Crop Rotation in Central Greece<br />
VP1.3.51 E. Skoufogianni, D. Bartzialis, N.G. Danalatos<br />
University of Thessaly, Volos, Greece<br />
P. Efthimiadis<br />
Agricultural University of Athens, Greece<br />
The Effect of Crop Rotation on Nitrogen Use<br />
of Maize on a Clay Soil In Central Greece<br />
VP1.3.52 D.F. Beslemes<br />
University ot Thessaly, Volos, Greece<br />
E. Skoufogianni, N.G. Danalatos<br />
University of Thessaly, Volos, Greece<br />
P. Efthimiadis<br />
Agriculture University of Athens,, Greece<br />
The Effect of Vicia Faba as a Cover Crop on <strong>Biomass</strong><br />
Production <strong>and</strong> N Use of Sorghum <strong>and</strong> Maize<br />
on Poor S<strong>and</strong>y Soils
Visual Presentations<br />
VP1.3.53 D.F. Beslemes, N.G. Dalalatos<br />
University of Thessaly, Volos, Greece<br />
P. Efthimiadis<br />
Agriculture University of Athens,, Greece<br />
Nitrogen Use And <strong>Biomass</strong> Production in two<br />
Different Energy Crop/legume Intercrop Systems<br />
in Central Greece<br />
VP1.3.54 E.L. Tigka, N.G. Danatalos, S. Tzorzios<br />
University of Thessaly, Volos, Greece<br />
Nitrogen Uptake <strong>and</strong> <strong>Biomass</strong> Productivity of Zea<br />
Mays <strong>and</strong> Hibiscus Cannabinus under Different<br />
Treatments of L.Culinaries as Cover Crop<br />
in a S<strong>and</strong>y Soil<br />
VP1.3.55 E.L. Tigka, S. Tzortzios<br />
University of Thessaly, Volos, Greece<br />
N.G. Danalatos<br />
Universtity of Thessaly, Volos, Greece<br />
the Evaluation of L.Culinaries Rotation <strong>and</strong> Green<br />
Manure on Nitrogen Use of Kenaf (Hibiscus<br />
Cannabinus, L.) <strong>and</strong> Maize (Zea Mays) on a Clay<br />
Soil in Central Greece<br />
VP1.3.56 N. Tsitsibikou, D. Bartzialis, S. Tzortzios, N.G. Danalatos<br />
University Of Thessaly, Volos, Greece<br />
O. Dichala, S.V. Archontoulis, P.C. Struik<br />
Wageningen University, The Netherl<strong>and</strong>s<br />
Sorghum <strong>and</strong> Maize <strong>Biomass</strong>, Protein,<br />
<strong>and</strong> Bioethanol Yields in a Semi-Arid Environment<br />
of Central Greece<br />
VP1.3.57 J.A.J. van Eijck, E.M.W. Smeets, A.P.C. Faaij<br />
Copernicus Institute, Utrecht University, The Netherl<strong>and</strong>s<br />
H.A. Romijn<br />
Eindhoven University of Technology, The Netherl<strong>and</strong>s<br />
A Review of the Socio-economic Feasibility<br />
of Jatropha Cultivation<br />
VP1.3.58 J. Weger<br />
Silva Tarouca Research Institute for L<strong>and</strong>scape,<br />
Pruhonice, Czech Republic<br />
M. Sir<br />
Institute of Hydrodynamics, Praha, Czech Republic<br />
Evaluation of Climatic Efficiency of Short Rotation<br />
Coppice in L<strong>and</strong>scape<br />
VP1.3.59 M.V. Lasorella<br />
Scuola Superiore Sant’Anna, Pisa, Italy<br />
A. Monti<br />
University of Bologna, Italy<br />
E. Alexopoulou<br />
Center for Renewable Energy Sources, PIkermi, Greece
Visual Presentations<br />
A. Riche<br />
Plant <strong>and</strong> Invertebrate Ecology Department Rothamsted<br />
Research, United Kingdom<br />
N. Sharma<br />
ENEA, Rotondella (MT), Italy<br />
S. Cadoux<br />
INRA Agro-Impact, Estrées-Mons, France<br />
K. van Diepen, B. Elbersen<br />
Wageningen UR-Alterra, The Netherl<strong>and</strong>s<br />
H.W. Elbersen<br />
Wageningen UR - Agrotechnology <strong>and</strong> Food Innovations,<br />
The Netherl<strong>and</strong>s<br />
Yield Comparison between Switchgrass<br />
<strong>and</strong> Miscanthus Based on Multi-Year Side<br />
by Side Comparisons in Europe<br />
VP1.3.61 S.L. Cosentino, V. Copani, G. M. D’Agosta,<br />
P. Guarnaccia<br />
University of Catania, Italy<br />
Arundo Donax L. Agamic Propagation Options:<br />
Energetic <strong>and</strong> Life Cycle Analysis<br />
VP1.3.62 H. Cheng, Y. Benjamin, J.F. Gorgens<br />
University of Stellenbosch, South Africa<br />
Screening of Bagasse from Sugarcane Varieties<br />
in a Small Scale Dilute Acid Pretreatment<br />
for Bioethanol Production<br />
VP1.3.63 M. Mos, P. Robson, I. Donnison<br />
IBERS Aberystwyth University, United Kingdom<br />
Senescence Control in the Energy Grass<br />
Miscanthus - The Promising Way for Biological<br />
<strong>and</strong> Termochemical Conversion of <strong>Biomass</strong><br />
VP1.3.65 G. Ciuffreda, M. Caliceti<br />
BETA Research in Agriculture, Malborghetto di Boara,<br />
Italy<br />
Production of Methane from Sugar Beet<br />
VP1.3.66 A. Schank, M. Hänel, G. Schories<br />
ttz Bremerhaven, Germany<br />
Short Rotation Coppice - Network (SRC - Network)<br />
VP1.3.67 E. Ceotto, M. Di C<strong>and</strong>ilo<br />
Research Center for Industrial Crops, Bologna, Italy<br />
V. Marletto<br />
Arpa-Emilia Romagna, Bologna, Italy<br />
Canopy Cover <strong>and</strong> Solar Radiation Conversion<br />
Efficiency of the Herbaceous Perennial Giant Reed<br />
(Arundo Donax L.)<br />
VP1.3.68 L. Nissen, A Monti<br />
University of Bologna, Italy<br />
Boosting Alternative Crops for the Biodiesel of Next<br />
Tomorrow: Has Europe Lagged Behind?
Visual Presentations<br />
VP1.3.69 C. Ruta, G. Brunetti, D. Cassano, I. Morone-Fortunato,<br />
G. De Mastro<br />
Università Aldo Moro, Bari, Italy<br />
Potential Energetic Utilization of Phytoremediation<br />
By-Product<br />
VP1.3.70 V. Copani, S. Cosentino, P. Guarnaccia, G. Scalici,<br />
S. Sc<strong>and</strong>urra<br />
University of Catania, Italy<br />
Influence of Propagation System on Arundo Donax<br />
L. Yield in the First Two Years of Cultivation<br />
VP1.3.71 M.J. Stolarski, M. Krzy|aniak<br />
University of Warmia <strong>and</strong> Mazury in Olsztyn, Pol<strong>and</strong><br />
Short Rotation Coppices Production as an Industrial<br />
Feedstock for Lignocellulosic Biorefineries<br />
VP1.3.72 A. Berthelot, C. Ginet<br />
FCBA, Charrey sur Saône, France<br />
N. Nguyen-The<br />
FCBA, Grenoble, France<br />
Mapping of Areas Suitable for Poplar in SRC<br />
VP1.3.73 J. González Cortés, J. Matías, L. Royano, J. Cabanillas<br />
Centro de Investigación Agraria La Orden Valdesequera,<br />
Badajoz, Spain<br />
Seed Production of Cynara Cardunculus L. Cultivars<br />
selected in Southwetern Spain<br />
VP1.3.74 J. González Cortés, J. Matías, L. Royano, J. Cabanillas<br />
Centro de Investigación Agraria La Orden Valdesequera,<br />
Badajoz, Spain<br />
<strong>Biomass</strong> yield, energy <strong>and</strong> greenhouse gas balances<br />
of Arundo donax L. crop in Southwestern Spain<br />
VP1.3.75 I. Pérez, J. Pérez, J.E. Carrasco, P. Ciria<br />
CEDER-CIEMAT, Lubia, Spain<br />
Ulmus Pumila under Irrigate <strong>and</strong> Rain-fed<br />
Continental Conditions in the First Year of Growth<br />
VP1.3.76 P. Pérez, R. Barro, P. Ciria, L.S. Esteban, J.E. Carrasco<br />
CEDER-CIEMAT, Lubia, Spain<br />
Behaviour of Poplar Stored Outdoors as Chips<br />
or Sticks<br />
VP1.3.77 E. Alexopoulou, M. Christou, C. Panoutsou<br />
Centre for Renewable Energy Sources, Pikermi Attiki,<br />
Greece<br />
Cynara Cardunculus L - can be Considered<br />
a Promising Perennial Crop for the Mediterranean<br />
Region when it is Cultivated in Marginal L<strong>and</strong>s
Visual Presentations<br />
VP1.3.78 S. Braconnier, S. Gutjhard, G. Trouche<br />
International Centre in Agricultural Research<br />
for Development, France<br />
B. Reddy, S. Rao<br />
International Crops Research Institute for Semi Arid<br />
Tropics, India<br />
R. Schaffert, R. Parrella<br />
Brazilian Agricultural Research Corporation, Brazil<br />
A. Zacharias<br />
KWS SAAT AG, Germany<br />
N. Rettenmaier, G. Reinhardt<br />
Institute for Energy <strong>and</strong> Environmental Research,<br />
Germany<br />
A. Monti<br />
University of Bologna, Italy<br />
S. Amaducci, A. Marocco<br />
Catholic University of Sacro Cuore, Italy<br />
W. Snijman, H. Terblanche<br />
Agricultural Research Council, South Africa<br />
F. Zavala-García<br />
Autonomous University of Nuevo León, Mexico<br />
R. Janssen, D. Rutz<br />
WIP-Renewable Energies, Munich, Germany<br />
Definition of New Sorghum Ideotypes to meet<br />
the Increasing Dem<strong>and</strong> of Biofuel<br />
VISUAL PRESENTATION VP T1.4<br />
13:15 - 14:40 Algae <strong>and</strong> novel crops<br />
VP1.4.2 H. Chu, C. M. Su, W. C. Cheng<br />
National Cheng Kung University, Tainan, Taiwan<br />
H. T. Hsueh, H. H. Chen<br />
Sustainable Environment Research Center, Tainan,<br />
Taiwan<br />
Carbon Fixation by a Hot Spring Cyanobacterium<br />
in the Absorbed Solution from a Wet Scrubber<br />
<strong>and</strong> its Bio-fuel Production Potential<br />
VP1.4.3 L.-J. Chien<br />
Ming Chi University of Technology, Taipei, Taiwan<br />
H.-J. Hsieh<br />
Industrial Technology Research Institute, Hsinchu,<br />
Taiwan<br />
A Genetic Approach to Enhance Lipid Content<br />
in Microalgae, Chlorella<br />
VP1.4.4 J.P. Brink<br />
Sasol Petroleum International, Rosebank, South Africa<br />
S. Marx<br />
North-West University, Potchefstroom, South Africa<br />
Feasibility of Cultivating Hartbeespoort Dam<br />
Microalgae
Visual Presentations<br />
VP1.4.5 J.P. Brink<br />
Sasol Petroleum International, Rosebank, South Africa<br />
S. Marx<br />
North-West University, Potchefstroom, South Africa<br />
Four Novel Methods for Harvesting of Micro-algal<br />
<strong>Biomass</strong><br />
VP1.4.6 J.P. Brink<br />
Sasol Petroleum International, Rosebank, South Africa<br />
S. Marx<br />
North-West University, Potchefstroom, South Africa<br />
Conceptual Cost of an Integrated <strong>Biomass</strong>-to-<br />
Liquids Facility<br />
VP1.4.7 M. Hingsamer, G. Jungmeier, K. Könighofer<br />
Joanneum Research Forschungsgesellschaft GmbH,<br />
Graz, Austria<br />
R. Rauch, A. Flammini<br />
Vienna University of Technology, Austria<br />
G. Bochmann<br />
University of Natural Resources <strong>and</strong> Life Sciences,<br />
Vienna, Austria<br />
D. Bacovsky, A. Sonnleitner<br />
Bioenergy2020+, Wieselburg-L<strong>and</strong>, Austria<br />
Algae for Energy - Identification of the Most<br />
Promising Algal-Based Pathways for Fuels, Power<br />
<strong>and</strong> Heat in Austria<br />
VP1.4.8 A. Weiss, A. Patyk, L. Schebek<br />
Karlsruhe Institute of Technology, Eggenstein-<br />
Leopoldshafen, Germany<br />
Biofuels from Algae - A Systems Analysis<br />
VP1.4.9 T. Thiel, K. Fricke<br />
Technical University of Braunschweig, Germany<br />
Use of Fermentation Output Material to Grow Algae<br />
Sustainably<br />
VP1.4.10 D. Azevedo Pereira, A. Costa Kiperstok, E. Andrade<br />
Sales, O. Jorquera Cortes, L. Wessels Perelo<br />
Federal University of Bahia, Salvador, Brazil<br />
Microalgae Growth Potential in Brazilian Semi-Arid<br />
Region<br />
VP1.4.11 D. Chiaramonti, A.M. Rizzo, M. Prussi<br />
CREAR, RE-CORD, University of Florence, Italy<br />
Oily Products from Pyrolytic Processing<br />
of Microalgae: an Overview<br />
VP1.4.12 J. Olivares, E. Sullivan<br />
Los Alamos National Laboratory, USA<br />
Challenges <strong>and</strong> Opportunities in Algal Biofuels<br />
Development
Visual Presentations<br />
VP1.4.14 E. Concha, C. Toro, G. Ciudad, R. Navia<br />
Universidad de La Frontera, Temuco, Chile<br />
Comparison of Oils Extraction Methods<br />
from Microalgae <strong>Biomass</strong> for Fuel Production<br />
VP1.4.15 T. Vianna Barduke, L. Matos Queiroz, E. Andrade Sales,<br />
O. Jorquera Cortes, L. Wessels Perelo<br />
Federal University of Bahia, Salvador, Brazil<br />
Culture of Microalgae Chlorella Sp. in Fertilizer<br />
Industrial Wastewater<br />
VP1.4.17 F. Omarov<br />
Agrohayat, Antalya, Turkey<br />
Possibilities <strong>and</strong> Real Potential of Algae-industry<br />
in Turkey<br />
VP1.4.19 M. Braun-Unkhoff, U. Riedel<br />
DLR - German Aerospace Center, Stuttgart, Germany<br />
F. Langguthm, D. Müller, H. Polhardt, C. Griehl<br />
Anhalt University of Applied Sciences, Köthen, Germany<br />
Microalgae Growth Using Carbon Dioxide<br />
from Turbine Flue Gases<br />
VP1.4.20 S. Dutta, F. Neto, M.C. Coelho, P.P. Goncalves, S. Kopil,<br />
J. Gracio, A.C.M. Sousa<br />
University of Aveiro, Portugal<br />
Analysis of Potential of High Quality Biodiesel<br />
Production from Microalgae<br />
VP1.4.21 M. Göttel, C. Eing, C. Gusbeth, W. Frey<br />
Karlsruhe Institute of Technology (KIT), Germany<br />
Outflow of Intracellular Compounds from Microalgae<br />
after Pulsed Electric Field Treatment<br />
VP1.4.22 A.B. Ross, P. Biller<br />
University of Leeds, United Kingdom<br />
Catalytic Hydrothermal Processing of Microalgae<br />
with Integrated Nutrient Recycling<br />
VP1.4.24 I. Niizawa, J.M. Heinrich, F.A. Botta, I. Ferrero,<br />
A.R. Trombert, H.A. Irazoqui<br />
Universidad Nacional del Litoral, Santa Fe, Argentina<br />
Analysis <strong>and</strong> Design of Photobioreactors (PBRs)<br />
for the Production of <strong>Biomass</strong> <strong>and</strong> High-Value<br />
Metabolites Derived from Microalgae
Visual Presentations<br />
VISUAL PRESENTATIONS VP T3.3<br />
15:00 - 16:25 Production <strong>and</strong> supply of first generation<br />
liquid biofuels<br />
VP3.3.1 H.W. Kazembe-Phiri, W.I. Makumba<br />
Ministry of Agriculture <strong>and</strong> Fisheries, Lilongwe, Malawi<br />
First-Order Ethanolysis Kinetics of Jatropha Oil<br />
Feedstock Pretreated With Glycerol <strong>and</strong> Calcium<br />
Hydroxide for Biodiesel Production in Malawi<br />
VP3.3.2 T. Kai, T. Nakazato, H. Takanashi<br />
University of Kagoshima, Japan<br />
T. Funakawa, M. Iba, M. Mayurama<br />
Cameron Japan, Chiyoda Ward, Japan<br />
Purification of Crude Biodiesel Fuel by Electrical<br />
Fields - Part II a model for Analysis of a New<br />
Separator Using Simplified Concept of Multi<br />
Extraction Stages<br />
VP3.3.3 R. Andre, G. Defosse, P. Le Parlouer<br />
SETARAM Instrumentation, Caluire, France<br />
Monitoring of Biodiesel Synthesis Reactions<br />
by Isothermal Microcalorimetry<br />
VP3.3.4 V. Kampars, R. Kampare<br />
Riga Technical University, Riga, Latvia<br />
Oxidative <strong>and</strong> Storage Stability of Biodiesel Made<br />
from Rapeseed Oil<br />
VP3.3.5 H. Takanashi, R. Kubo, T. Nakajima, A. Ohki, T. Kai<br />
University of Kagoshima, Japan<br />
T. Funakawa, M. Iba, M. Maruyama<br />
Cameron Japan Ltd, Chiyoda Ward, Japan<br />
Purification of Crude Biodiesel Fuel by Electrical<br />
Fields - Part I a new Separator Using Simplified<br />
Concept of Multi Extraction Stages<br />
VP3.3.6 T. Tsoutsos, I. Sarantopoulos, N. Ouchab<br />
Technical University of Crete, Chania, Greece<br />
Sustainable Biodiesel Production from Olive<br />
<strong>and</strong> Meat Industry Byproducts<br />
VP3.3.7 Y. Matsumura, Y. Yamashita<br />
University of Hiroshima, Higashi, Japan<br />
T. Yanagida<br />
National Institute of Advanced Industrial Science<br />
<strong>and</strong> Technology, Hiroshima, Japan<br />
N, P, K Recovery by Wet Oxidation of Fermentation<br />
Residue for Renewable Re-Generation of Yeast<br />
VP3.3.8 E. Viola, V. Valerio, I. Guidi, A. Blasi, F. Zimbardi<br />
ENEA, Rotondella, Italy<br />
Efficiency of Solid Basic Catalyst<br />
in the Transesterification of Fried Vegetable Oils
Visual Presentations<br />
VP3.3.9 L.A. Rios, F. Cardeño, L. J. Gallego Morales,<br />
R.D. Toro Alvarez, C.A. Vasquez<br />
Universidad de Antioquia, Medellin, Colombia<br />
Alternative Processes for Glycerin Phase<br />
Purification from Biodiesel Manufacture<br />
VP3.3.10 F. Barontini, M. Simone, A. Mancini, S. D’Alvano,<br />
C. Nicolella<br />
University of Pisa, Italy<br />
G. Ragaglini, F. Triana<br />
Scuola Superiore Sant’Anna, Pisa, Italy<br />
From Crop to Biofuels: a Case Study of Sunflower<br />
Crude Oil Production in Tuscany<br />
VP3.3.12 C. Tóth, P. Baladincz, J. Hancsók<br />
University of Pannonia, Veszprém, Hungary<br />
I. Wáhlné Horváth<br />
MOL - Hungarian Oil <strong>and</strong> Gas, Százhalombatta, Hungary<br />
Co-Processing of Rapeseed Oil <strong>and</strong> Gas Oil Mixture<br />
to Produce Diesel Fuel<br />
VP3.3.14 P. Solymosi, P. Baladincz, J. Hancsók<br />
University of Pannonia, Veszprém, Hungary<br />
Production of Motor Fuels by Hydrogenation of Seed<br />
Rape Oil with High Euric Acid Content<br />
VP3.3.17 N. Dupassieux, T. Chapus, A. Daudin<br />
IFP Energies Nouvelles, Solaize, France<br />
Production of Jet Fuel from Vegetable Oil through<br />
Selective Hydrodeoxygenation <strong>and</strong> Hydroisomerisa-<br />
tion Conversions Steps<br />
VP3.3.18 A. Blasi, E. Viola, F. Zimbardi<br />
ENEA, Rotondella, Italy<br />
Screening of Different Feedstock for Biodiesel<br />
Production by Process Simulation<br />
VP3.3.19 L. Azócar, G. Ciudad, R. Muñoz, R. Navia<br />
University of La Frontera, Temuco, Chile<br />
H.J. Heipieper<br />
Helmholtz Centre for Environmental Research-UFZ,<br />
Leipzig, Germany<br />
Lipase Catalyzed Process in an Anhydrous Medium<br />
with Enzyme Reutilization to Produce Biodiesel<br />
with Low Acid Value
Visual Presentations<br />
VISUAL PRESENTATION VP T3.5<br />
15:00 - 16:25 Production <strong>and</strong> supply of second<br />
generation biofuels<br />
VP3.5.1 N. Abatzoglou, J. Blanchard<br />
Université de Sherbrooke, Canada<br />
Phenomenological Kinetics of a Solid-Fluid Catalytic<br />
Reaction: the Case of Fischer-Tropsch Synthesis<br />
with Plasma-Spray Derived Nano-Iron Carbides<br />
VP3.5.3 F. Hasegawa, S. Yokoyama, K. Imou<br />
University of Tokyo, Japan<br />
S. Yano<br />
National Institute of Advanced Industrial Science<br />
<strong>and</strong> Technology, Hiroshima, Japan<br />
Ethanol Production from Kraft Pulp<br />
VP3.5.4 A. Artigues, N. Puy, E. Fábregas, J. Bartrolí<br />
Universitat Autònoma de Barcelona, Cerdanyola<br />
del Vallès, Spain<br />
Bio-oil Upgrading using Nanomaterials (CNTs). Step<br />
1- Characterisation of <strong>Biomass</strong>-based Pyrolysis<br />
Product<br />
VP3.5.5 T. Schulzke, C. Unger, K. Girod<br />
Fraunhofer UMSICHT, Oberhausen, Germany<br />
Technological Pathways <strong>and</strong> Economics of DME-<br />
Production from “Dry” <strong>Biomass</strong><br />
VP3.5.6 D.K. Sidiras<br />
University of Piraeus, Greece<br />
Simulation of Barley Straw Acid Hydrolysis<br />
to Fermentable Oligosaccharides <strong>and</strong> Monosaccha-<br />
rides for Bioethanol Production<br />
VP3.5.8 L. Wang, R.J. Murphy, R. Templer<br />
Imperial College London, United Kingdom<br />
High-Solid Loading Enzymatic Hydrolysis of Various<br />
Paper Wastes<br />
VP3.5.10 M. Jensen, A. Thygesen, Z. Kádár, J.E. Schmidt<br />
Risø DTU, Roskilde, Denmark<br />
T. Didion<br />
DLF Trifolium, Danish Plant Breeding Research, Store<br />
Heddinge, Denmark<br />
K.S. Johansen<br />
Novozymes, Bagsværd, Denmark<br />
Combined Silage Treatment <strong>and</strong> Enzymatic<br />
Hydrolysis of Energy Grass as Pretreatment Method<br />
for 2nd Generation Bioethanol Production
Visual Presentations<br />
VP3.5.11 A. George<br />
Joint BioEnergy Institute, Emerville, USA<br />
K. Tran, B.A. Simmons, B.M. <strong>Holm</strong>es<br />
S<strong>and</strong>ia National Laboratories, Emeryville, USA<br />
P. Benke<br />
Lawrence Berkeley National Laboratories, Berkeley, USA<br />
T. Morgan, E. Lorente<br />
Imperial College London, United Kingdom<br />
Influence of Ionic Liquids on the Macrostructure<br />
of Solvated Lignins<br />
VP3.5.12 R. Bortolo, G. Giovarruscio, P. Paganini, D. Bianchi<br />
ENI S.p.A., Novara, Italy<br />
2-Naftalenesulfonic Acid As Catalyst<br />
for Lignocellulosic Pretreatment: Study of Optimum<br />
VP3.5.13 J. Hoffman, S.S. Toor, L.A. Rosendahl<br />
Aalborg University, Denmark<br />
Upgrading of Bio-oil Derived from Catalytic<br />
Hydrothermal Conversion of <strong>Biomass</strong><br />
VP3.5.14 T.H. Ng, J. Song, K. Tarverdi<br />
Brunel University West London, Middlesex,<br />
United Kingdom<br />
Cereal Straw Pre-Treatment for Bio-Fuel<br />
Application: Comparison Between Extrusion<br />
<strong>and</strong> Conventional Steam Explosion<br />
VP3.5.15 C. Reyes Valle<br />
Foundation Advanced Technological Centre<br />
for Renewable Energy, Sevilla, Spain<br />
P. Haro, A.L. Villanueva Perales, P. Ollero<br />
Escuela Superior de Ingenieros de Sevilla, Spain<br />
J. Caraballo, J.A. García Redondo, R. Arjona<br />
Abengoa Bioenergy New Technologies, Sevilla, Spain<br />
Techno-economic Assessment of SNG-Ethanol<br />
Co-production (Bio SNG-Ethanol) via Thermochemi-<br />
cal Conversion of <strong>Biomass</strong> by Indirectly Heated CFB<br />
Gasifier<br />
VP3.5.16 I. De Bari, A. Villone, F. Liuzzi, G. Braccio<br />
ENEA Italian National Agency for New Technologies,<br />
Energy <strong>and</strong> Sustainable Economic Development,<br />
Rotondella, Italy<br />
Arundo Donax Pre-Treatment in Steam Explosion<br />
Batch Plant for Bioethanol Production
Visual Presentations<br />
VISUAL PRESENTATIONS VP T3.4<br />
16:45 - 18:10 Production <strong>and</strong> supply of gaseous biofuels<br />
VP3.4.2 X.J. Li, Y.Z. Pang, B.N. Zhu, Y.P. Liu, D.X. Zou, D. Feng<br />
Beijing University of Chemical Technology, P.R. China<br />
Biogas Production from Crop Stalks in China<br />
VP3.4.4 A. Gupta, V.K. Vijay, S. Sharma<br />
Indian Institute of Technology, New Delhi, India<br />
Use of Non Traditional <strong>Biomass</strong> for Biogas<br />
Production<br />
VP3.4.6 C. Salomoni, A. Caputo, M. Bonoli<br />
Biotec Sys, Bologna, Italy<br />
O. Francioso, M. T. Rodriguez-Estrada<br />
University of Bologna, Italy<br />
D. Palenzona<br />
University of Bologna, Italy<br />
Co-fermentation of Sewage Sludge <strong>and</strong> CO2 boosted<br />
by Alcohol-containing Bioliquids: Enhancing<br />
Biomethane Production in a Two-phase Anaerobic<br />
Digestion Process<br />
VP3.4.7 Y. Liu, B.N. Zhu, D.X. Zou, G. Fang, J.J. Mao, X.J. Li<br />
Beijing University of Chemical Technology, P.R. China<br />
Performance of Vegetable Wastes Anaerobic<br />
Digestion at different Inoculums <strong>and</strong> Organic Loads<br />
VP3.4.8 C. Salomoni, A. Caputo, M. Bonoli<br />
Biotec Sys, Bologna, Italy<br />
O. Francioso, M.T. Rodriguez-Estrada, D. Palenzona<br />
University of Bologna, Italy<br />
Biomethane Production from Cheese Whey in a Two-<br />
Phase Anaerobic Digestion System: Integration<br />
of Sewage Sludge Treatment <strong>and</strong> Dairy By-Products<br />
Recovery<br />
VP3.4.9 A.H. Seifert, C. Herwig<br />
Vienna University of Technology, Austria<br />
Biomethane Production from Gaseous Substrates<br />
Using Methanogenic Archea<br />
VP3.4.10 L. Forlin, S. Silvestri<br />
Fondazione Edmund Mach, Trento, Italy<br />
A. Fuganti, M. Tassan<br />
Centro Ricerche Fiat, Trento, Italy<br />
From Manure to Biomethane: When a Problem Turns<br />
into an Opportunity<br />
VP3.4.11 A.-M. Wonneberger, F. Graf<br />
DVGW - Research Centre at the EBI, KIT, Karlsruhe,<br />
Germany<br />
A. Lemmer<br />
University of Hohenheim, Stuttgart, Germany
Visual Presentations<br />
M. Flamme, T. Kolb, R. Reimert<br />
Karlsruhe Institute of Technology, Germany<br />
Two- Phase Pressure Fermentation - Optimising<br />
Biogas Production for Injection into a Natural Gas<br />
Grid<br />
VP3.4.13 G. Rivera, S. Bettoli, M. Bernardi, G. Sassi, B. Ruggeri<br />
Politecnico di Torino, Italy<br />
T. Tommasi<br />
Istituto Italiano di Tecnologia, Torino, Italy<br />
Preliminary Tests on: Effects of Chemical<br />
<strong>and</strong> Thermal Pre-treatment<br />
VP3.4.15 E. Massi, O. Martinelli<br />
University of Rome “La Sapienza”, Italy<br />
R. Ciccoli, A. Moreno<br />
ENEA, Rome, Italy<br />
Preliminary Studies for the Integration of Anaerobic<br />
Digestion Process with MCFC System<br />
VP3.4.16 R. Ciccoli, E. Massi, C. Matano, A. Sprocati, A. Moreno<br />
ENEA, S.M. di Galeria, Italy<br />
R. Pomi, A. Polettini<br />
University of Rome “La Sapienza”, Italy<br />
Exploring the Thermophilic <strong>and</strong> Mesophilic Fields<br />
in Pig Slurry Anaerobic Digestion System. Energetic<br />
Evaluation for a Succesful Integration with Molten<br />
Carbonate Fuel Cell System<br />
VP3.4.17 J.B. Müller, F. Vogel<br />
PSI, Villigen, Switzerl<strong>and</strong><br />
Hydrothermal SNG Production from Wet <strong>Biomass</strong>:<br />
Underst<strong>and</strong>ing <strong>and</strong> Inhibition of Coke Formation<br />
VP3.4.18 S. Fendt, M. Gaderer, H. Spliethoff<br />
Technische Universität München, Garching, Germany<br />
SNG - State-Of-The-Art Technology <strong>and</strong> Application<br />
Review<br />
VP3.4.19 V. Rosner, H.-J. Wagner<br />
Ruhr-University Bochum, Bochum, Germany<br />
Photobiological Hydrogen Production - Process<br />
Development <strong>and</strong> Assessment<br />
VP3.4.20 M. Schwarz, M. Carstensen, H. Schneider, J. Born<br />
Flensburg University of Applied Sciences, Germany<br />
Repowering of Biogas Plants<br />
VP3.4.21 A. Gipperich, G.L. Schwebel, D. Hein, W. Krumm<br />
University of Siegen, Germany<br />
Hydrogen Production from Steam Conversion<br />
(HPSC) Integrated in Chemical-Looping Combustion<br />
of Solid Biofuels
Visual Presentations<br />
VP3.4.22 I. Ardic<br />
CMT, Ankara, Turkey<br />
H. Ates, F. Taner<br />
Mersin University, Mersin, Turkey<br />
Investigating the Biogas Production Yield<br />
of the Cattle Manure by Thermochemical<br />
Pretreatment<br />
VP3.4.23 V. Calabro’, S. Curcio, F. Ferraro, A. Saraceno<br />
University of Calabria, Rende, Italy<br />
Biogas Production with Bioconversion of Organic<br />
Solid Wastes (Manure) <strong>and</strong> Husks Residual<br />
from Olive Oils Mills<br />
VP3.4.26 E.C. Dioha, S. Burgheim<br />
University of Goettingen, Germany<br />
J. Dioha<br />
Energy Commission of Nigeria, Abuja, Nigeria<br />
Comparative Studies of the Production of Biogas<br />
from Cattle Dung <strong>and</strong> Cattle Abdominal Waste<br />
VP3.4.27 D. Rutz, R. Janssen<br />
WIP-Renewable Energies, Munich, Germany<br />
U. Hoffstede, H. Hahn<br />
Fraunhofer IWES, Kassel, Germany<br />
B. Kulisic<br />
Hrvoje Pozar Energy Institute, Zagreb, Croatia<br />
P. Haider<br />
Polish Biogas Association, Bytów, Pol<strong>and</strong><br />
A.S. Martins, M.A. Nogueira<br />
IrRADIARE, Lisbon, Portugal<br />
M. Martins<br />
Camara Municipal de Abrantes, Abrantes, Portugal<br />
I. Dzene<br />
Ekodoma, Riga, Latvia<br />
D. Durica<br />
City of Zagreb, Croatia<br />
M. Niklass<br />
North Vidzeme Waste Management Organisation,<br />
Valmiera, Latvia<br />
D. Schinnerl<br />
Graz Energy Agency, Austria<br />
K. Kal<strong>and</strong>yk<br />
Podkarpacka Energy Management Agency, Rzeszów,<br />
Pol<strong>and</strong><br />
Organic Waste for Biogas Production in Urban Areas<br />
VP3.4.28 P. Busato, R. Berruto<br />
Università di Torino, Grugliasco, Italy<br />
D.D. Bochtis<br />
University of Aarhus, Tjele, Denmark<br />
Biogas Slurry Logistics: Traditional vs. Umbilical<br />
System Assessment
Visual Presentations<br />
VP3.4.29 A. Basile, V. Calabro’, A. Saraceno<br />
University of Calabria, Rende, Italy<br />
P. Pinacci, F. Drago, S. Liguori<br />
RSE S.p.A., Milano, Italy<br />
A. Iulianelli<br />
University of Calabria, Milano, Italy<br />
An Application of Water Gas Shift Reaction<br />
via PSS Supported Pd-based Membrane Reactor<br />
for Hydrogen Production