Add to ORKGThis study presents a comparison between two solar power tower receivers. Selecting the optimum location of thousands of heliostats, the most profitable tower height, receiver size and geometric shape remains a challenge. In our case, we are interested in the geometric shape of the receiver. Two solar receivers connected in series and the other in parallel with different cross-sections and identical internal surface areas were studied. We performed a comparison to find the right pipe connection that gives us the good thermal capacity and solar tower efficiency. The heat transfer fluids used are water vapor and molten salts (NaNO3-NaNO2 - KNO3/NaNO3 - KNO3/LiF - NaF - BeF2), the software used for this study is ANSYS CFX with an unstructured ...
The optimum heat transfer condition for a tubular type solar receiver was investigated for various r...
Small scale open solar thermal Brayton cycle with Concentrated Solar Power (CSP) system can provide ...
The object of research is distinguishing the different heat transfer fluids (HTF) in concentrating s...
AbstractSolar receivers used for central tower Concentrated Solar Plants (CSPs) use either a surface...
In the field of conventional cleaner power generation technology, concentrating solar power systems ...
In the field of conventional cleaner power generation technology, concentrating solar power systems ...
In solar tower power plants the receiver is one of the critical components. It converts the solar ra...
Concern over the altering climate due to the release of anthropogenic greenhouse gases has caused a ...
A novel complex geometry solar tower molten salt cavity receiver is presented and investigated with ...
This work compares with a two-step procedure the performance of different Heat Transfer Fluids (HTF)...
AbstractSolar tower based plants are seen as a promising technology to reduce the cost of electricit...
This paper investigates different strategies for the reduction of peak heat fluxes on the receiver o...
A The design of the flow paths in solar external-receivers with molten salt as heat transfer fluid i...
AbstractThe thermo solar central tower power plants are complex systems that consist of a heliostats...
AbstractOne of the main problems of solar power tower plants with molten salt as heat transfer fluid...
The optimum heat transfer condition for a tubular type solar receiver was investigated for various r...
Small scale open solar thermal Brayton cycle with Concentrated Solar Power (CSP) system can provide ...
The object of research is distinguishing the different heat transfer fluids (HTF) in concentrating s...
AbstractSolar receivers used for central tower Concentrated Solar Plants (CSPs) use either a surface...
In the field of conventional cleaner power generation technology, concentrating solar power systems ...
In the field of conventional cleaner power generation technology, concentrating solar power systems ...
In solar tower power plants the receiver is one of the critical components. It converts the solar ra...
Concern over the altering climate due to the release of anthropogenic greenhouse gases has caused a ...
A novel complex geometry solar tower molten salt cavity receiver is presented and investigated with ...
This work compares with a two-step procedure the performance of different Heat Transfer Fluids (HTF)...
AbstractSolar tower based plants are seen as a promising technology to reduce the cost of electricit...
This paper investigates different strategies for the reduction of peak heat fluxes on the receiver o...
A The design of the flow paths in solar external-receivers with molten salt as heat transfer fluid i...
AbstractThe thermo solar central tower power plants are complex systems that consist of a heliostats...
AbstractOne of the main problems of solar power tower plants with molten salt as heat transfer fluid...
The optimum heat transfer condition for a tubular type solar receiver was investigated for various r...
Small scale open solar thermal Brayton cycle with Concentrated Solar Power (CSP) system can provide ...
The object of research is distinguishing the different heat transfer fluids (HTF) in concentrating s...