The chapter provides a thermodynamic analysis of the integrated gasification combine cycle (IGCC) for the production of syngas from waste, and the synthesis of optimal heat-recovery and steam/power generation network.
F.09 Development of a new technological process or technology
COBISS.SI-ID: 15630358Prof. Kravanja and co-workers were invited to present a sequence of the following lectures at international konferences: 1) Integrated LCA-based multi-objective synthesis of processes for the production of bio-fuels : keynote lecture presented at ICOSSE'11, Second international congress on sustainability science and engineering, Tuscon, Arizona, January 9-12, 2011. Tuscon, 2011 [COBISS.SI-ID 14866198]. 2) The Role of Computer-Aided Chemical Engineering Education within the European Bologna Three-Cycle Study System, ICMSAO 2011, 19-21 April 2011, Kuala Lumpur, Malaysia. 3) LCA-based Multi-objective Synthesis of Bio-fuel Supply-chains3rd EBI Biofuels Law and Regulation Conference, 22 April, 2011, University of Illinois at Urbana-Champaign, Illinois, USA. 4) LCA-based mathematical programming approach to sustainable system synthesis : lecture on the 6th Dubrovnik conference on sustainable development of energy water and environment systems, September 25-29, 2011, Dubrovnik, Croatia. 2011; Dubrovnik [COBISS.SI-ID 15502870].
B.04 Guest lecture
LCA-based synthesis of processes for the production of biogas from animal and organic wastes is presented. Single- and multi-criteria optimizations were performed. For the latter, an ε-constraint method, based on a novel concept of eco-profit, was applied. Optimal solutions indicate that the production of biogas from organic and animal wastes is a sustainable production as significant eco-profit was obtained.
F.17 Transfer of existing technologies, know-how, methods and procedures into practice
COBISS.SI-ID: 14903830