Add to ORKGWaste heat recovery systems can produce power from heat without using fuel or emitting CO2, therefore their implementation is becoming increasingly relevant. The Kalina cycle is proposed as an efficient process for this purpose. The main reason for its high efficiency is the non-isothermal phase change characteristics of the ammonia-water working fluid. The present study investigates a unique type of Kalina process called the Split-cycle, applied to the exhaust heat recovery from large marine engines. In the Split-cycle, the working fluid concentration can be changed during the evaporation process in order to improve the match between the heat source and working fluid temperatures. We present a system analysis to identify the governing mech...
Heat recovery from moderate temperature heat source and convert into electricity is very difficult t...
In this article, some configurations of waste heat recovery systems are described, analysed and comp...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...
Waste heat recovery systems can produce power from heat without using fuel or emitting CO2, therefor...
The temperature of the exhaust gas of a marine diesel engine is generally between 250- 500Co. This h...
In the marine sector there is a strong motivation for increasing the propulsion system energy effici...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
Eighty percent of the growing global merchandise trade is transported by sea. The shipping industry ...
In the context of heat recovery for electric power generation, Kalina cycle (a thermodynamic cycle u...
In the context of heat recovery for electric power generation, Kalina cycle (a thermodynamic cycle u...
Strong motivation exists within the marine sector to reduce fuel expenses and to comply with ever st...
ABSTRACT The Kalina Cycle utilizes a mixture of ammonia and water as the working fluid in a vapor po...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
Heat recovery from moderate temperature heat source and convert into electricity is very difficult t...
In this article, some configurations of waste heat recovery systems are described, analysed and comp...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...
Waste heat recovery systems can produce power from heat without using fuel or emitting CO2, therefor...
The temperature of the exhaust gas of a marine diesel engine is generally between 250- 500Co. This h...
In the marine sector there is a strong motivation for increasing the propulsion system energy effici...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
Eighty percent of the growing global merchandise trade is transported by sea. The shipping industry ...
In the context of heat recovery for electric power generation, Kalina cycle (a thermodynamic cycle u...
In the context of heat recovery for electric power generation, Kalina cycle (a thermodynamic cycle u...
Strong motivation exists within the marine sector to reduce fuel expenses and to comply with ever st...
ABSTRACT The Kalina Cycle utilizes a mixture of ammonia and water as the working fluid in a vapor po...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
Heat recovery from moderate temperature heat source and convert into electricity is very difficult t...
In this article, some configurations of waste heat recovery systems are described, analysed and comp...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...