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Ashok Kumar, R. Saini, J. Saini (2015)
Numerical simulation of effective efficiency of a discrete multi V-pattern rib solar air channelHeat and Mass Transfer, 52
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Investigation of the fluid tempera- ture field inside a flat-plate solar collector
A. Mahesh, S. Kaushik, A. Kumaraguru (2013)
Performance study of unglazed cylindrical solar collector for adsorption refrigeration systemHeat and Mass Transfer, 49
Y. Taheri, Kazem Alimardani, Behrooz Ziapour (2015)
Study of thermal effects and optical properties of an innovative absorber in integrated collector storage solar water heaterHeat and Mass Transfer, 51
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Experimental and theoretical investigation of dual purpose solar collectorSolar Energy, 85
Ralph Eismann (2015)
Accurate analytical modeling of flat plate solar collectors: Extended correlation for convective heat loss across the air gap between absorber and cover plateSolar Energy, 122
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Solar energy of thermal pro- cesses
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Theoretical inves- tigation on thermal performance of heat pipe flat plate solar collector with cross flow heat exchanger
S. Kalogirou (2004)
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T. Gorji, A. Ranjbar (2016)
A numerical and experimental investigation on the performance of a low-flux direct absorption solar collector (DASC) using graphite, magnetite and silver nanofluidsSolar Energy, 135
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Process heat collectors
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Experimental studies on heat transfer and friction factor characteristics of thermosyphon solar water heater system fitted with spacer at the trailing edge of twisted tapesApplied Thermal Engineering, 29
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A review of the performance of double pass solar air heaterRenewable & Sustainable Energy Reviews, 16
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Mathematical modeling and thermal performance analysis of unglazed transpired solar collectorsSolar Energy, 81
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The influences of recycle on performance of baffled double-pass flat-plate solar air heaters with internal fins attachedApplied Energy, 86
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Optimization of solar air collector using genetic algorithm and artificial bee colony algorithmHeat and Mass Transfer, 48
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Studies on heat transfer and friction factor characteristics of thermosyphon solar water heating system with helical twisted tapesEnergy, 34
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CFD modeling of transpired solar collectors and characterisation of multi-scale airflow and heat transfer mechanismsSolar Energy, 131
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Design and performance of solar air collector with triangle channel
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A numerical model for pressure drop and flow distribution in a solar collector with U-connected absorber pipesSolar Energy, 134
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Optimization of flow distribution in flat plate solar thermal collectors with riser and header arrangementsSolar Energy, 120
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Thermal performance of an integrated collector storage solar water heater (ICSSWH) with a storage tank equipped with radial fins of rectangular profileHeat and Mass Transfer, 49
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Analysis of exergy and parametric study of a v-corrugated solar air heaterHeat and Mass Transfer, 48
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Experimental and numerical investigations of passive air cooling of a residential flat-plate solar collector under stagnation conditionsSolar Energy, 122
Anil Kumar, R. Saini, J. Saini (2015)
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Experimental study on the water inlet and outlet position of a solar collector reservoir for maximum efficiencyJournal of Mechanical Science and Technology, 29
Design and fabrication of solar collectors with high performance of energy efficiency to convert solar energy to utility energy is vitally important. This article reports the results obtained from design, construction and investigation of the performance of a Combined Multi-Purpose Vacuum Solar Collector (CMPVSC). This collector consists of three sections: the vacuum section, the liquid section and the air section. In the present collector, it is capable of transferring heat to two flows (liquid and air) simultaneously and separate with the possibility of multipurpose applications. The CMPVSC is compared with the existing individual collectors and the effects of different parameters on the efficiency of this collector are examined. Experimental data indicate that high temperature and high performance with a 43% reduction in cost can be obtained using CMPVSC compared to two individual collectors. To increase the efficiency of the collector, triangular and rectangular channels in the air section have been used. The vacuum part is implemented to reduce heat losses. The effect of water inlet temperature, air flow rate, shape of air channel and vacuum part on the heat delivery by air and water have been investigated. Furthermore, as a matter of comparison of CMPVSC with the individual collector, there is a chance of obtaining highest temperature and efficiency with minimum cost and space requirements.
Heat and Mass Transfer – Springer Journals
Published: Mar 28, 2017
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