Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco, X Vouvakos… - Energy, 2019 - Elsevier
In the present study, a complete thermodynamic model of a two-stroke, low speed, 13.6 MW
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco, X Vouvakos… - ENERGY, 2019 - arts.units.it
In the present study, a complete thermodynamic model of a two-stroke, low speed, 13.6 MW
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco, X Vouvakos… - Energy, 2019 - ideas.repec.org
In the present study, a complete thermodynamic model of a two-stroke, low speed, 13.6 MW
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco, X Vouvakos… - Energy, 2019 - econpapers.repec.org
In the present study, a complete thermodynamic model of a two-stroke, low speed, 13.6 MW
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco… - Energy, 2019 - ui.adsabs.harvard.edu
In the present study, a complete thermodynamic model of a two-stroke, low speed, 13.6 MW
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco, X Vouvakos… - 2018 - ricerca.unityfvg.it
In the frame of the EU-funded project ECCO-MATE, new emission reduction strategies, as
for example Exhaust Gas Recirculation (EGR), have been analyzed in order to decrease low …
for example Exhaust Gas Recirculation (EGR), have been analyzed in order to decrease low …
Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco, X Vouvakos… - 2019 - ricerca.unityfvg.it
In the present study, a complete thermodynamic model of a two-stroke, low speed, 13.6 MW
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
marine Diesel engine of Winterthur Gas & Diesel has been developed using the engine …
[PDF][PDF] Thermodynamic analysis of waste heat recovery using Organic Rankine Cycle (ORC) for a two-stroke low speed marine Diesel engine in IMO Tier II and Tier III …
S Lion, R Taccani, I Vlaskos, P Scrocco, X Vouvakos… - ratio - arts.units.it
abstract In the present study, a complete thermodynamic model of a two-stroke, low speed,
13.6 MW marine Diesel engine of Winterthur Gas & Diesel has been developed using the …
13.6 MW marine Diesel engine of Winterthur Gas & Diesel has been developed using the …