Add to ORKGThe cycle configuration of the energy conversion system in a nuclear power plant tends to have a governing effect on the overall performance and acquisition cost. Interestingly, one factor that could greatly affect the design choice of the cycle configuration which may not have been explored extensively in many literatures reviewed is the choice of the working fluid. This paper presents a technical analysis on the effect of working fluid on selection of the cycle arrangement for a Generation IV nuclear power plant. It provides insight on potential performance gains that justifies the benefit for an additional cost of a complex cycle, and how the working fluid can influence this choice. The study identifies candidate working fluid that may b...
With renewed interest in research and development on the closed-cycle gas turbine technology, it is ...
In this paper the efficiency of three common working fluids in binary cycle geothermal power plants ...
The Department of Energy and the Idaho National Laboratory are developing a Next Generation Nuclear ...
As demands for clean and sustainable energy renew interests in nuclear power to meet future energy d...
The Inventory Control System (ICS) offer unique characteristics when modulating the gas turbine outp...
As demands for clean and sustainable energy renew interests in nuclear power to meet future energy d...
Numerous studies are on-going on to understand the performance of generation IV (Gen IV) nuclear pow...
A gas turbine cycle working fluids group based on their production technology and application is pre...
The Intercooled Cycle (IC) is a simplified novel proposal for Generation IV Nuclear Power Plants (NP...
The aim of this paper is to define general guidelines for fluid and cycle selection for small-scale ...
The thermodynamic analysis of effect of the syngas combustion products (working fluid) thermophysica...
PaperPg. 91-100.The gas turbine, as is used in most applications, does not utilize its maximum poten...
The use of N204 as the working fluid in gas turbine power cycles is recognized as a potential instru...
PaperPg. 91-100.The gas turbine, as is used in most applications, does not utilize its maximum poten...
A significant hurdle in the development of performance simulation tools to analyse and evaluate nucl...
With renewed interest in research and development on the closed-cycle gas turbine technology, it is ...
In this paper the efficiency of three common working fluids in binary cycle geothermal power plants ...
The Department of Energy and the Idaho National Laboratory are developing a Next Generation Nuclear ...
As demands for clean and sustainable energy renew interests in nuclear power to meet future energy d...
The Inventory Control System (ICS) offer unique characteristics when modulating the gas turbine outp...
As demands for clean and sustainable energy renew interests in nuclear power to meet future energy d...
Numerous studies are on-going on to understand the performance of generation IV (Gen IV) nuclear pow...
A gas turbine cycle working fluids group based on their production technology and application is pre...
The Intercooled Cycle (IC) is a simplified novel proposal for Generation IV Nuclear Power Plants (NP...
The aim of this paper is to define general guidelines for fluid and cycle selection for small-scale ...
The thermodynamic analysis of effect of the syngas combustion products (working fluid) thermophysica...
PaperPg. 91-100.The gas turbine, as is used in most applications, does not utilize its maximum poten...
The use of N204 as the working fluid in gas turbine power cycles is recognized as a potential instru...
PaperPg. 91-100.The gas turbine, as is used in most applications, does not utilize its maximum poten...
A significant hurdle in the development of performance simulation tools to analyse and evaluate nucl...
With renewed interest in research and development on the closed-cycle gas turbine technology, it is ...
In this paper the efficiency of three common working fluids in binary cycle geothermal power plants ...
The Department of Energy and the Idaho National Laboratory are developing a Next Generation Nuclear ...