The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical power. It uses an ammonia–water mixture as a working fluid (like a conventional Kalina cycle) and has a varying ammonia concentration during the pre-heating and evaporation steps. This second feature results in an improved match between the heat source and working fluid temperature profiles, decreasing the entropy generation in the heat recovery system. The present work compares the thermodynamic performance of this power cycle with the conventional Kalina process, and investigates the impact of varying boundary conditions by conducting an exergy analysis. The design parameters of each configuration were determined by performing a multi-variable ...
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...
The paper presents a second-law and thermodynamic analysis of the Kalina cycle, aiming at discoverin...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
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...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
Abstract–Energy-Utilization Diagrams is a graphic method to describe the exergy losses in industrial...
In the marine sector there is a strong motivation for increasing the propulsion system energy effici...
AbstractIn concentrated solar power plants using direct steam generation, the usage of a thermal sto...
ABSTRACT The Kalina Cycle utilizes a mixture of ammonia and water as the working fluid in a vapor po...
With the ever increasing demand for energy, exploiting low-temperature heat sources has seen signifi...
Ammonia-water power cycles are important for efficient utilization of low temperature heat sources s...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
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...
The paper presents a second-law and thermodynamic analysis of the Kalina cycle, aiming at discoverin...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
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...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
Abstract–Energy-Utilization Diagrams is a graphic method to describe the exergy losses in industrial...
In the marine sector there is a strong motivation for increasing the propulsion system energy effici...
AbstractIn concentrated solar power plants using direct steam generation, the usage of a thermal sto...
ABSTRACT The Kalina Cycle utilizes a mixture of ammonia and water as the working fluid in a vapor po...
With the ever increasing demand for energy, exploiting low-temperature heat sources has seen signifi...
Ammonia-water power cycles are important for efficient utilization of low temperature heat sources s...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
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...
The paper presents a second-law and thermodynamic analysis of the Kalina cycle, aiming at discoverin...