J C Acevedo-Paez scite author profile

J C Acevedo-Paez

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Thermodynamics performance optimization of a hybrid solar gas turbine power plant in Colombia

Moreno-Gamboa

Acevedo-Paez²,

Sanin-Villa

2022

J. Phys.: Conf. Ser.

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A thermodynamic model is presented for evaluation of a solar hybrid gas-turbine power plant. The model uses variable ambient temperature and estimates direct solar radiation at different day times. The plant is evaluated in Barranquilla, Colombia, with a solar concentration system and a combustion chamber that burns natural gas. The hybrid system enables to maintain almost constant the power output throughout day. The model allows optimizing the different plant parameters and evaluating maximum performance point. This work presents pressure ratio ranges where the maximum values of overall efficiency, power output, thermal engine efficiency and fuel conversion rate are found. The study is based on the environmental conditions of Barranquilla, Colombia. The results obtained shows that optimum pressure ratio range for power output and overall efficiency is between 6.4 and 8.3, when direct solar radiation its maximum at noon. This thermodynamic analysis is necessary to design new generations of solar thermal power plants.

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Effect of a regenerator on hybrid solar gas turbine performance in Barranquilla, Colombia

Moreno-Gamboa

Acevedo-Paez²,

Sanin-Villa

2021

J. Phys.: Conf. Ser.

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A thermodynamic analysis of a hybrid gas turbine solar plant, represented in three basic subsystems related to the power cycle, the combustion chamber subsystem, and the solar concentrator subsystem, allows evaluating the performance of a hybrid cycle from a reduced number of parameters, which include energy losses in each of its components. The solar radiation values are estimated with an evaluated and validated theoretical model, the combustion chamber uses natural gas as fuel and the numerical values of the system are taken from the Solugas experimental plant in Spain. This work presents an integrated model that allows to estimate the operation of a hybrid solar Brayton power plant in any place and day of the year. The evaluation of the plant in Barranquilla, Colombia is shown from the influence of the regenerator has on the plant performance and solar concentrating system. The results show that the regenerator can increase the overall efficiency of the plant by 29% and allows reaching a maximum temperature of the central receiver of the concentrator of 1044 K at noon, when solar radiation is maximum.

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J C Acevedo-Paez

Thermodynamics performance optimization of a hybrid solar gas turbine power plant in Colombia

Effect of a regenerator on hybrid solar gas turbine performance in Barranquilla, Colombia

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