The paper aims to present the main results of a research directed to the development of mathematical models for the design and simulation of combined Gas Turbine-Steam or Diesel-Steam plants for marine applications. The goal of this research is to increase energy conversion efficiency of both gas turbines and diesel engines, adopted in ship propulsion systems, by recovering part of the thermal energy contained in the exhaust gases through Waste Heat Recovery (WHR) dedicated installations. The developed models are used to identify the best configuration of the combined plants in order to optimize, for the different applications, the steam plant pattern and the performance of WHR plant components, such as: Heat Recovery Steam Generator (HRSG)...
In this article, the waste heat recovery (WHR) installations used for the production of saturated st...
In the present paper, the waste heat recovery (WHR) installations used for the production of saturat...
A steam plant layout for the Waste Heat Recovery (WHR) of a marine four-stroke Dual Fuel (DF) engine...
The paper aims to present the main results of a research directed to the development of mathematical...
The paper presents the main results of a research project directed to the development of mathematica...
Currently the increase in fuel costs and the need to reduce CO2 emissions have encouraged the search...
Waste Heat Recovery (WHR) systems are more and more common on board new commercial ships, and their ...
Starting from the availability of performance data regarding a two-stroke marine diesel engine, the ...
Currently the increase in fuel costs and the need to reduce CO2 emissions have encouraged the search...
In this article, some configurations of waste heat recovery systems are described, analysed and comp...
The paper presents an original variable layout steam plant for the Waste Heat Recovery (WHR-VL) from...
During recent research activities carried out also in collaboration with leading industries, the aut...
This paper focuses on potential benefits due to the Waste Heat Recovery (WHR) from marine dual fuel ...
The combined gas and steam turbine (COGAS) power plants are estimated currently the most efficient t...
The paper describes an original Waste Heat Recovery (WHR) variable layout plant to produce steam fro...
In this article, the waste heat recovery (WHR) installations used for the production of saturated st...
In the present paper, the waste heat recovery (WHR) installations used for the production of saturat...
A steam plant layout for the Waste Heat Recovery (WHR) of a marine four-stroke Dual Fuel (DF) engine...
The paper aims to present the main results of a research directed to the development of mathematical...
The paper presents the main results of a research project directed to the development of mathematica...
Currently the increase in fuel costs and the need to reduce CO2 emissions have encouraged the search...
Waste Heat Recovery (WHR) systems are more and more common on board new commercial ships, and their ...
Starting from the availability of performance data regarding a two-stroke marine diesel engine, the ...
Currently the increase in fuel costs and the need to reduce CO2 emissions have encouraged the search...
In this article, some configurations of waste heat recovery systems are described, analysed and comp...
The paper presents an original variable layout steam plant for the Waste Heat Recovery (WHR-VL) from...
During recent research activities carried out also in collaboration with leading industries, the aut...
This paper focuses on potential benefits due to the Waste Heat Recovery (WHR) from marine dual fuel ...
The combined gas and steam turbine (COGAS) power plants are estimated currently the most efficient t...
The paper describes an original Waste Heat Recovery (WHR) variable layout plant to produce steam fro...
In this article, the waste heat recovery (WHR) installations used for the production of saturated st...
In the present paper, the waste heat recovery (WHR) installations used for the production of saturat...
A steam plant layout for the Waste Heat Recovery (WHR) of a marine four-stroke Dual Fuel (DF) engine...