Poster Overview
Here you will find a preliminary overview on the posters to be displayed and presented during the conference.
Poster I.1 | Andrés Álvarez-Murillo (University of Extremadura, Spain) Good practices for a proper characterization of HTC liquid phase |
Poster I.2 | Gözde Duman Tac (Ege University, Turkey) Comparative evaluation of hydrothermal carbonization and pyrolysis of olive wastes |
Poster I.3 | Iskender Gökalp (CNRS, France) Characterization of solid and aqueous phase products from hydrothermal carbonization of orange pomace |
Poster I.4 | Jakob Köchermann (DBFZ Leipzig, Germany) Hydrothermal conversion of D-xylose and organosolv hemicellulose catalyzed by a Keggin-type heteropoly acid under N2 and CO2 atmosphere |
Poster I.5 | Ivan Kozyatnyk – will be presented by Kenneth Latham (Umeå University, Sweden) Hydrothermal carbonization of humic acids: Physical and functional properties |
Poster I.6 | Nader Marzban (Leibniz Institute for Agricultural Engineering and Bioeconomy Potsdam, Germany) Reaction kinetic modelling of the hydrothermal carbonization of plant-based feedstocks: Identification of reaction mechanisms |
Poster I.7 | Eduardo Sabio (University of Extremadura, Spain) Kinetics of the hydrothermal carbonization of safflower cane |
Poster I.8 | Charles Coronella (University of Nevada, USA) Nutrient solubilization by hydrothermal carbonization |
Poster I.9 | Pierpaolo Modugno (Queen Mary University of London, UK) Influence of reaction conditions on hydrothermal conversion of biomass |
Poster I.10 | Daniela Moloeznik Paniagua (TU Berlin, Germany) Partitioning of inorganics in the HTC process: The effect of process parameters |
Poster II.1 | Hande Alptekin (Queen Mary University of London, UK) Structure-performance correlations in hard carbons for Na-ion batteries |
Poster II.2 | Heather Au (Imperial College London, UK) Development of hard carbon anodes for sodium-ion batteries |
Poster II.3 | Daniele Basso (Free University of Bolzano, Italy) Preliminary tests on the thermochemical conversion of hydrochar produced from AD digestate and sewage sludge |
Poster II.4 | Richard Lobo (Queen Mary University of London, UK) Fabrication of a freestanding doped-graphene grafted onto PAN nanofiber mat alkaline fuel cell cathodes via one-pot HTC reaction |
Poster II.5 | Zhenyu Guo (Queen Mary University of London, UK) Amorphous carbons as anodes for sodium ion batteries |
Poster II.6 | Beatriz Ledesma – will be presented by Silvia Román Suero (University of Extremadura, Spain) Effect of aluminum alloy shavings scraps on physical-chemical properties of hydrochars derived from several biomass wastes |
Poster II.7 | Sabina Alexandra Nicolae (Queen Mary University of London, UK) Biomass based carbon materials for gas storage and separation |
Poster II.8 | Mo Qiao (Queen Mary University of London, UK) Engineering the interface of carbon electrocatalysts at the triple point for enhanced oxygen reduction reaction |
Poster II.9 | withdrawn – Yahaya Balarabe Umar (University of Leeds, UK) Hydrothermal carbonization of waste textile: Effect of reaction temperature and residence time |
Poster II.10 | Zhen Xu (Queen Mary University of London, UK) Carbon materials inspired by hierarchical forms of cellulose as electrodes for sodium-ion hybrid capacitors |
Poster III.1 | Chinnathan Areeprasert (Kasetsart University, Thailand) Possibility of MSW and EFB pellets produced from hydrothermal carbonization in biomass pellet market |
Poster III.2 | Huyen Chau Dang (TU Dresden, Germany) Reuse of spent coffee grounds to produce charcoal briquettes by using hydrothermal carbonization process |
Poster III.3 | Elisabeth Kleiber (Leibniz Institute for Agricultural Engineering and Bioeconomy Potsdam, Germany) Experimental investigation of the drying kinetics of hydrochar derived from coffee grounds on the laboratory scale |
Poster III.4 | James Hammerton (University of Leeds, UK) Utilization of hydrochar slurries as a fuel |
Poster III.5 | Jackie Massaya (University of Bath, UK) Developing a biorefinery from spent coffee grounds: Using subcritical water and hydrothermal carbonization to derive value from a major by-product of the coffee |
Poster III.6 | Carla Pérez (Umeå University, Sweden) Hydrothermal carbonization of biosludge from the pulp and paper industry |
Poster III.7 | Gabriel Gerner (Zurich University of Applied Sciences, Switzerland) HTC-Innovation Campus in Switzerland |
Poster III.8 | Fabian Gievers (University of Applied Sciences and Arts Hildesheim, Germany) Environmental impacts of sewage sludge treatment by hydrothermal carbonization |
Poster III.9 | Giulia Ischia (University of Trento, Italy) Realization of a solar hydrothermal reactor: A hybrid solution to develop a zero-energy technology |
Poster III.10 | Vicky Shettigondahalli Ekanthalu (University of Rostock, Germany) Hydrothermal carbonization: An emerging technology to effectively manage sewage sludge – Review |
Poster IV.1 | Avery Brown (Worcester Polytechnic Institute, USA) Changes in the adsorption capacity of hydrothermal chars after thermal, chemical and mechanical activation |
Poster IV.2 | Gareth Davies (University of Sheffield, UK) Effect of alcohol/water mixtures on hydrochar formation for use as adsorbents and catalysts |
Poster IV.3 | Elena Diaz (Universidad Autonoma de Madrid, Spain) Application of activated hydrochar from grape seeds and olive stones for removal of emerging pollutants in aqueous phase |
Poster IV.4 | Changyoon Jeong (Louisiana State University, USA) Effect of hydrochar amendment on tylosin adsorption-desorption and transport in agricultural soils |
Poster IV.5 | Mikko Mäkelä (Aalto University, Finland) Hydrothermal carbonization in producing wood-based activated carbons for organic chlorine removal |
Poster IV.6 | Manuel Nowotny (Carl-von-Ossietzky-University Oldenburg, Germany) Activated biochar made from liquid-solid biomass mixtures |
Poster IV.7 | Silvia Román Suero (University of Extremadura, Spain) Magnetic porous carbon materials from almond shells by Fe assisted hydrothermal carbonization |
Poster IV.8 | Andrew Ross (University of Leeds, UK) Co-processing of digestate with lignocellulosic biomass: Influence of blending on bio-coal properties and biochemical methane potential |
Poster IV.9 | John A. Villamil Martínez (Universidad Autonoma de Madrid, Spain) Integral management of waste sludge by hydrothermal carbonization and anaerobic co-digestion of the process water with primary sewage sludge |
Poster IV.10 | Jale Yanik (Ege University, Turkey) Hydrothermal carbonization of food waste and its digestate |