This work presents a configuration of two regenerators in parallel for a power generation Brayton/Rankine cycle where the output power is 10 MW. The working fluids considered for the Brayton and Rankine cycles are air and water, respectively. The addition of a regenerator with the previous existing cycle of this kind resulted in the addition of a second-stage turbine in the Rankine cycle of reheat. The objective of this modification is to increase the thermal efficiency of the combined cycle. In order to examine the efficiency of the new configuration, it is performed a thermodynamic modelling and numerical simulations for both cases: a regular Brayton/Rankine cycle and the one with the proposed changes. At the end of the simulations, the t...
The purpose of this research was to model and analyze a nuclear heated multi-turbine power conversio...
Rankine Cycles are an effective and efficient manner to convert waste thermal energy into power. Num...
The paper aims to contribute to a better understanding of the thermodynamic concept of heat regenera...
Este trabalho apresenta uma configuração de dois regeneradores em paralelo para um ciclo de geração ...
AbstractThis paper proposes combined regenerative Brayton and two parallel inverse Brayton cycles wi...
In this paper combined Brayton–Rankine cycle was mathematically simulated. In the Matlab program pac...
A thermodynamic model of an open combined regenerative Brayton and inverse Brayton cycles with regen...
Supercritical carbon dioxide Brayton cycle is considered one of the most promising systems for waste...
A regenerative Brayton & Inverse Brayton cycle has been already proposed to improve the thermal ...
Many practical cases with waste heat recovery potential such as exhaust gases of reciprocating engin...
Following increasing demand in energy consumption, there is a need to continue to study energy gener...
U ovom radu je prikazana termodinamička analiza kombiniranog Brayton-Rankineovog ciklusa. Opisane su...
The quality of the energy transformation processes focuses on improving the energy efficiency of the...
[EN]This paper presents a general thermodynamic model for hybrid Brayton central tower thermosolar ...
Abstract: The power and efficiency of the open combined Brayton and two parallel inverse Brayton cyc...
The purpose of this research was to model and analyze a nuclear heated multi-turbine power conversio...
Rankine Cycles are an effective and efficient manner to convert waste thermal energy into power. Num...
The paper aims to contribute to a better understanding of the thermodynamic concept of heat regenera...
Este trabalho apresenta uma configuração de dois regeneradores em paralelo para um ciclo de geração ...
AbstractThis paper proposes combined regenerative Brayton and two parallel inverse Brayton cycles wi...
In this paper combined Brayton–Rankine cycle was mathematically simulated. In the Matlab program pac...
A thermodynamic model of an open combined regenerative Brayton and inverse Brayton cycles with regen...
Supercritical carbon dioxide Brayton cycle is considered one of the most promising systems for waste...
A regenerative Brayton & Inverse Brayton cycle has been already proposed to improve the thermal ...
Many practical cases with waste heat recovery potential such as exhaust gases of reciprocating engin...
Following increasing demand in energy consumption, there is a need to continue to study energy gener...
U ovom radu je prikazana termodinamička analiza kombiniranog Brayton-Rankineovog ciklusa. Opisane su...
The quality of the energy transformation processes focuses on improving the energy efficiency of the...
[EN]This paper presents a general thermodynamic model for hybrid Brayton central tower thermosolar ...
Abstract: The power and efficiency of the open combined Brayton and two parallel inverse Brayton cyc...
The purpose of this research was to model and analyze a nuclear heated multi-turbine power conversio...
Rankine Cycles are an effective and efficient manner to convert waste thermal energy into power. Num...
The paper aims to contribute to a better understanding of the thermodynamic concept of heat regenera...