Add to ORKGA multi-component (NB3/H2O) Kalina-type cycle that utilizes the exhaust from a gas turbine is investigaed in this paper. The turbine-inlet pressure of 5.96 × 106N/m2 and temperature of 755.372 K were kept constant, as well as the working fluid temperature at the condenser outlet (at 290K). The HN3 mass fraction at the turbine inlet was varied along with the seperator temperature and the effects on the cycle efficiency were studied. The relationships between turbine-inlet flow and the seperator-inlet. How are shown in addition to the upper and lower HN3 mass-fraction bounds. The multi-component working-fluid cycle investigated is 10–20% more efficient than a Rankine cycle with the same boundary conditions
This paper provides an overview of various studies on the Kalina cycle and their applications. The c...
AbstractIn concentrated solar power plants using direct steam generation, the usage of a thermal sto...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...
A multi-component (NB3/H2O) Kalina-type cycle that utilizes the exhaust from a gas turbine is invest...
A multi-component (NB3/H2O) Kalina-type cycle that utilizes the exhaust from a gas turbine is invest...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
A number of studies have shown that the Kalina cycle, using an ammonia-water mixture, can reach high...
This master’s thesis analyses Kalina cycle, a power cycle where ammonia – water solution is used as ...
A number of studies have shown that the Kalina cycle, using an ammonia-water mixture, can reach high...
ABSTRACT The Kalina Cycle utilizes a mixture of ammonia and water as the working fluid in a vapor po...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
Kalina cycle system operates at a heat source temperature up to 600 ºC with an improved heat recover...
This paper provides an overview of various studies on the Kalina cycle and their applications. The c...
AbstractIn concentrated solar power plants using direct steam generation, the usage of a thermal sto...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...
A multi-component (NB3/H2O) Kalina-type cycle that utilizes the exhaust from a gas turbine is invest...
A multi-component (NB3/H2O) Kalina-type cycle that utilizes the exhaust from a gas turbine is invest...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
The Kalina cycle, which uses a varying composition ammonia-water mixture as the working fluid, is an...
A number of studies have shown that the Kalina cycle, using an ammonia-water mixture, can reach high...
This master’s thesis analyses Kalina cycle, a power cycle where ammonia – water solution is used as ...
A number of studies have shown that the Kalina cycle, using an ammonia-water mixture, can reach high...
ABSTRACT The Kalina Cycle utilizes a mixture of ammonia and water as the working fluid in a vapor po...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
The Kalina split-cycle is a thermodynamic process for converting thermal energy into electrical powe...
Kalina cycle system operates at a heat source temperature up to 600 ºC with an improved heat recover...
This paper provides an overview of various studies on the Kalina cycle and their applications. The c...
AbstractIn concentrated solar power plants using direct steam generation, the usage of a thermal sto...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...