چکیده
|
In this research, the integration of an enhanced single flash geothermal cycle with a transcritical organic Rankine
cycle (TORC) is proposed. To discover the feasibility and thermoeconomic improvement, the proposed system is
investigated and compared thermoeconomically with a subcritical ORC integrated to single flash geothermal.
Thermoeconomic evaluation is conducted with consideration Pseudo-critical point effect in supercritical condition
as well as Bauman rule in geofluid turbine. The considered key parameters to conduct a parametric study
are heat source temperature, separator pressure, and geofluid condenser pressure. To perform the thermoeconomic
analysis, the heat transfer areas, as well as overall heat transfer coefficients of all heat exchangers, are
calculated. Moreover, the total cost rate and levelized cost of energy for the considered systems are obtained.
The results reveal that the heat source temperature plays an important role in the power production variation,
while the separator and flash condenser pressures are kept constant. An increment of 20 °C in the heat source
temperature leads to an increase of up to 22% in generated power for both considered systems. Also, based on
the comparative study, a combination of the flash-transcritical ORC cycle has 7.2% higher power production
compared to the combination of flash-subcritical one. A multi-objective optimization based on the genetic algorithm
method is performed. The optimization results show that the energy and exergy efficiencies, exergy
destruction rate, and total cost rate is well improved in single flash-TORC compared to the subcritical one.
|