Add to ORKGSolar–thermal power plants are being deployed world-wide. These plants have traditionally used steel absorber pipes. Two types of fluids have been used in such ventures, synthetic aromatic fluid or water. Fluid flow in parabolic trough systems leads to instability in the tube due to the concentrated solar flux on only one-half of the absorber tube, resulting in temperature asymmetricity. The resulting stresses cause deflection and bending of the tube. This paper deals with direct steam systems and proposes incorporation of internal helical fins within the tube to reduce temperature variation. The fins provide an orderly distribution of flow from the ‘hot ’ to the ‘cold ’ side of the tube. A CFD simulation was carried out for three fin pitch...
The heat transfer performance of a solar external receiver tube with guide vanes was numerically stu...
Direct introduction of solar energy into a Brayton cycle using Solar Tower systems enables a highly ...
Heat and flow enhancement is a critical weapon for the design of highly efficient, compact, and cost...
The heterogeneous incoming heat flux in solar parabolic trough absorber tubes generates huge tempera...
This article analyses the use of a gas as a heat transfer fluid in the absorber tube. The fluid dyna...
This paper has analysed the effect of the utilization of internal finned tubes for the design of par...
AbstractThis paper presents experimental and numerical studies of the turbulent heat transfer in sol...
AbstractVacuum tubular receiver is the core component of parabolic trough solar collectors (PTCs). T...
In order to conserve the environment from pollution, which is caused by the use of the fossil fuels,...
Solar parabolic trough collectors exploit solar energy for power generation in solar thermal power s...
International audienceThe main objective of this work is to study numerically the thermal behavior o...
The high capital costs associated with heat-pipe evacuated tube solar water heating systems can be r...
In the present work, a parabolic trough solar (PTC) collector with inner helical axial fins as swirl...
International audienceThis paper aims to simulate heat generation in two devices, namely the horizon...
AbstractSolar parabolic trough collectors are being widely used to exploit solar energy for both the...
The heat transfer performance of a solar external receiver tube with guide vanes was numerically stu...
Direct introduction of solar energy into a Brayton cycle using Solar Tower systems enables a highly ...
Heat and flow enhancement is a critical weapon for the design of highly efficient, compact, and cost...
The heterogeneous incoming heat flux in solar parabolic trough absorber tubes generates huge tempera...
This article analyses the use of a gas as a heat transfer fluid in the absorber tube. The fluid dyna...
This paper has analysed the effect of the utilization of internal finned tubes for the design of par...
AbstractThis paper presents experimental and numerical studies of the turbulent heat transfer in sol...
AbstractVacuum tubular receiver is the core component of parabolic trough solar collectors (PTCs). T...
In order to conserve the environment from pollution, which is caused by the use of the fossil fuels,...
Solar parabolic trough collectors exploit solar energy for power generation in solar thermal power s...
International audienceThe main objective of this work is to study numerically the thermal behavior o...
The high capital costs associated with heat-pipe evacuated tube solar water heating systems can be r...
In the present work, a parabolic trough solar (PTC) collector with inner helical axial fins as swirl...
International audienceThis paper aims to simulate heat generation in two devices, namely the horizon...
AbstractSolar parabolic trough collectors are being widely used to exploit solar energy for both the...
The heat transfer performance of a solar external receiver tube with guide vanes was numerically stu...
Direct introduction of solar energy into a Brayton cycle using Solar Tower systems enables a highly ...
Heat and flow enhancement is a critical weapon for the design of highly efficient, compact, and cost...