This paper illustrates the thermal modeling of a flat plate unglazed solar collector with the aim of developing a simplified but accurate method for the collector steady state simulation without requiring a large amount of computational power and time. The 1D+1D model is derived from the Riesz-Galerkin method applied to the approximate analytical solution of the heat equation. The model allows calculating heat transfer rate, fluid outlet temperature, collector efficiency and plate temperature distribution. Accuracy and ability in simulating solar collector are checked using a 2D finite-difference model as a benchmark. The results of the simplified model show very good agreement with those provided by the finite-difference ...
This paper presents a one-dimensional finite-volume model of an unglazed photovoltaic/thermal (PVT) ...
The present research study includes thermal energy performance analysis of a flat plate so...
Different model equations have been proposed in litera-ture for the description of the thermal behav...
This paper illustrates the thermal modeling of a flat plate unglazed solar collector with the aim ...
AbstractThis paper illustrates the thermal modeling of a flat plate unglazed solar collector with th...
In order to predict solar thermal collector’s performance and optimization of control algorithms, pr...
The objective of this work is to study the heat transfer and fluid dynamics phenomena which take pla...
Abstract: The article presents a one-dimensional mathematical model for simulating the tran-sient pr...
Solar energy is becoming an alternative for the limited fossil fuel resources. One of the simplest a...
This paper describes a mathematical model for simulating the transient processes which occur in liqu...
This paper describes a mathematical model for simulating the transient processes which occur in liqu...
The objective of the present work is to conduct analysis of solar collectors’ operation. The study i...
This paper outlines and formulates a compact and effective simulation model, which predicts the perf...
Traditionally, energy capture by non-concentrating solar collectors is calculated using the Hottel-W...
The paper presents a one-dimensional mathematical model for simulating the transient processes which...
This paper presents a one-dimensional finite-volume model of an unglazed photovoltaic/thermal (PVT) ...
The present research study includes thermal energy performance analysis of a flat plate so...
Different model equations have been proposed in litera-ture for the description of the thermal behav...
This paper illustrates the thermal modeling of a flat plate unglazed solar collector with the aim ...
AbstractThis paper illustrates the thermal modeling of a flat plate unglazed solar collector with th...
In order to predict solar thermal collector’s performance and optimization of control algorithms, pr...
The objective of this work is to study the heat transfer and fluid dynamics phenomena which take pla...
Abstract: The article presents a one-dimensional mathematical model for simulating the tran-sient pr...
Solar energy is becoming an alternative for the limited fossil fuel resources. One of the simplest a...
This paper describes a mathematical model for simulating the transient processes which occur in liqu...
This paper describes a mathematical model for simulating the transient processes which occur in liqu...
The objective of the present work is to conduct analysis of solar collectors’ operation. The study i...
This paper outlines and formulates a compact and effective simulation model, which predicts the perf...
Traditionally, energy capture by non-concentrating solar collectors is calculated using the Hottel-W...
The paper presents a one-dimensional mathematical model for simulating the transient processes which...
This paper presents a one-dimensional finite-volume model of an unglazed photovoltaic/thermal (PVT) ...
The present research study includes thermal energy performance analysis of a flat plate so...
Different model equations have been proposed in litera-ture for the description of the thermal behav...