Add to ORKGThis paper discusses a study that was performed to optimize the design of the Target Rock vacuum relief valve for nuclear power plant applications. The valve design optimization was performed using the CFD-ACE+ software package. A key portion of the study was a fully coupled transient simulation of the valve opening that was performed using CFD-ACE+ and MDICE. The moving body simulation was set up to mimic field conditions during the opening of the valve. It was performed to ensure that the valve would perform its required function
Reliable performances of high temperature and high pressure operating steam pressure relief valves (...
The aim of the work is to understand the proper way to address the design and optimization procedure...
The present study was motivated to analyze the complex flow field involving gaseous oxygen (GOX) flo...
In the Swedish nuclear power plants a structural verificatio of the pipe systems is a necessity to e...
A multi-mesh numerical valve model has been developed to analyze the opening characteristic of high-...
In the Swedish nuclear power plants a structural verification of the pipe systems is a necessity to ...
The paper deals with the 3D and 0D simulation of a conical popped pressure relief valve with flow fo...
In this study the dynamic of a six petals reed valves pack is simulated accounting the complex fluid...
Nowadays, environmental and energy problems are becoming increasingly prominent. Nuclear power plant...
Safety relief valves are well established components preventing catastrophic failure of pressurised ...
This paper describes the utilize of a numerical procedure for the analysis and the optimization of a...
The flow force acting on a valve disk plays an important role in the overall performance of pressure...
In this study, a numerical model is developed to investigate the fluid and dynamic characteristics o...
AbstractMany industrial engineering problems require fluid-structure interaction (FSI) analysis and ...
A mathematical modeling approach for the study of a directional valve is proposed in this paper. The...
Reliable performances of high temperature and high pressure operating steam pressure relief valves (...
The aim of the work is to understand the proper way to address the design and optimization procedure...
The present study was motivated to analyze the complex flow field involving gaseous oxygen (GOX) flo...
In the Swedish nuclear power plants a structural verificatio of the pipe systems is a necessity to e...
A multi-mesh numerical valve model has been developed to analyze the opening characteristic of high-...
In the Swedish nuclear power plants a structural verification of the pipe systems is a necessity to ...
The paper deals with the 3D and 0D simulation of a conical popped pressure relief valve with flow fo...
In this study the dynamic of a six petals reed valves pack is simulated accounting the complex fluid...
Nowadays, environmental and energy problems are becoming increasingly prominent. Nuclear power plant...
Safety relief valves are well established components preventing catastrophic failure of pressurised ...
This paper describes the utilize of a numerical procedure for the analysis and the optimization of a...
The flow force acting on a valve disk plays an important role in the overall performance of pressure...
In this study, a numerical model is developed to investigate the fluid and dynamic characteristics o...
AbstractMany industrial engineering problems require fluid-structure interaction (FSI) analysis and ...
A mathematical modeling approach for the study of a directional valve is proposed in this paper. The...
Reliable performances of high temperature and high pressure operating steam pressure relief valves (...
The aim of the work is to understand the proper way to address the design and optimization procedure...
The present study was motivated to analyze the complex flow field involving gaseous oxygen (GOX) flo...