Effect of Heat Capacity of Basin Material and Glass Cover on Distillate Yield of Single Slope Passive Solar still – A Theoretical Investigation

2015 ◽  
Vol 787 ◽  
pp. 43-47
Author(s):  
V. Sivakumar ◽  
E. Ganapathy Sundaram ◽  
B. Sakthikiran ◽  
T. Sanjay Krishnan ◽  
A. Riyaz Hussain
Keyword(s):  
Mathematical Modeling ◽  
Heat Capacity ◽  
Thermal Properties ◽  
Specific Heat ◽  
Thermal Analyses ◽  
Solar Still ◽  
Glass Cover ◽  
Distillate Yield ◽  
Passive Solar Still ◽  
Passive Solar

In most of the thermal analyses to develop a mathematical model for the conventional single slope passive solar still, it is found that heat capacity of the basin and glass cover are neglected to simplify the mathematical modeling. However all the materials have their own specific heat and according to the specific heat the material store some amount of heat energy within it. As a result the heat transfer between the system components of a solar still and thermal losses from the components will vary depending on their thermal properties like heat capacity, absorptance and thermal conductivity of components. Due to this, the temperature variation of the different components of a solar still is not only the function of solar intensity nevertheless also the function of their thermal properties. Subsequently it is necessary to consider the heat capacity of all the components of a conventional still. In this paper, mathematical modeling was developed to study the effect of heat capacity of basin material and glass cover on distillate yield of single slope passive solar still. The study found that considering the heat capacity of the components increase the distillate yield of the single slope passive solar still.

Determination of the Thermal Properties of a PCB by Coupled Numerical and Experimental Approach

2020 ◽  
Author(s):  
Yener Usul ◽  
Mustafa Özçatalbaş
Keyword(s):  
Thermal Conductivity ◽  
Heat Capacity ◽  
Thermal Properties ◽  
Numerical Analysis ◽  
Specific Heat ◽  
Specific Heat Capacity ◽  
Thermal Analyses ◽  
Analysis Model ◽  
Linear Temperature ◽  
Coefficient Of Thermal Conductivity

Abstract Increasing demand for usage of electronics intensely in narrow enclosures necessitates accurate thermal analyses to be performed. Conduction based FEM (Finite Element Method) is a common and practical way to examine the thermal behavior of an electronic system. First step to perform a numerical analysis for any system is to set up the correct analysis model. In this paper, a method for obtaining the coefficient of thermal conductivity and specific heat capacity of a PCB which has generally a complex composite layup structure composed of conductive layers, and dielectric layers. In the study, above mentioned properties are obtained performing a simple nondestructive experiment and a numerical analysis. In the method, a small portion of PCB is sandwiched from one side at certain pressure by jaws. A couple of linear temperature profiles are applied to the jaws successively. Unknown values are tuned in the analysis model until the results of FEM analysis and experiment match. The values for the coefficient of thermal conductivity and specific heat capacity which the experiment and numerical analysis results match can be said to be the actual values. From this point on, the PCB whose thermal properties are determined can be analyzed numerically for any desired geometry and boundary condition.

Effects of wind and choice of cover material on the yield of a passive solar still

2013 ◽  
Vol 52 (1-3) ◽  
pp. 48-56 ◽  
Author(s):  
J. Andrew Jones ◽  
Laura W. Lackey ◽  
Kevin E. Lindsay
Keyword(s):  
Solar Still ◽  
Passive Solar Still ◽  
Passive Solar ◽  
Cover Material

scholarly journals Performance enhancement of modified double slope passive solar still using different water-based nanofluids

2021 ◽  
Vol 1146 (1) ◽  
pp. 012021
Author(s):  
Suresh Kr. Patel ◽  
Vinay Kr. Singh ◽  
Mahindra Singh ◽  
Deepak Singh ◽  
Dhananjay Singh
Keyword(s):  
Performance Enhancement ◽  
Solar Still ◽  
Water Based ◽  
Passive Solar Still ◽  
Passive Solar

Influence of Various Basin Types on Performance of Passive Solar Still: A Review

2021 ◽  
Vol 10 (4) ◽  
pp. 789-802
Author(s):  
Tri Hieu Le ◽  
Minh Tuan Pham ◽  
H Hadiyanto ◽  
Van Viet Pham ◽  
Anh Tuan Hoang
Keyword(s):  
Water Depth ◽  
Thermal Efficiency ◽  
Tracking System ◽  
Design Parameters ◽  
Cylindrical Shape ◽  
Solar Still ◽  
Practical Utilization ◽  
Passive Solar Still ◽  
Passive Solar ◽  
The Impact

Passive solar still is the simplest design for distilling seawater by harnessing solar energy. Although it is undeniable that solar still is a promising device to provide an additional freshwater source for global increasing water demand, low thermal efficiency along with daily distillate yield are its major disadvantages. A conventional solar still can produced 2 to 5 L/m2day. Various studies have been carried out to improve passive solar stills in terms of daily productivity, thermal efficiency, and economic effectiveness. Most of the researches that relate to the daily output improvement of passive solar still concentrates on enhancing evaporation or/and condensation processes. While the condensation process is influenced by wind velocity and characteristics of the condensed surface, the evaporation process is mainly affected by the temperature of basin water. Different parameters affect the brackish water temperature such as solar radiation, design parameters (for example water depth, insulators, basin liner absorptivity, reflectors, sun tracking system, etc). The inclined angle of the top cover is suggested to equal the latitude of the experimental place. Moreover, the decrease of water depth was obtained as a good operational parameter, however, the shallow water depth is required additional feed water for ensuring no dry spot existence. Reflectors and sun-tracking systems help solar still absorb as much solar intensity as possible. The internal reflector can enhance daily yield and efficiency of stepped solar still up to 75% and 56% respectively, whereas, passive solar still with the support of a sun-tracking system improved daily yield up to 22%. Despite large efforts to investigate the impact of the different parameters on passive solar distillation, the effect of the basin liner (including appropriate shapes and type of material), needs to be analyzed for improvement in practical utilization. The present work has reviewed the investigation of the solar still performance with various types of basin liner. The review of solar stills has been conducted critically with rectangular basin, fins basin, corrugated basin, wick type, steps shape, and cylindrical shape basin with variety of top cover shapes. The findings from this work conclude that the basin liner with a cylindrical shape had better performance in comparison with other metal types and provides higher freshwater output. Stepped type, inclined, fin absorber, and corrugated shapes had the efficient performance.  Further exploration revealed that copper is the best-used material for the productivity of passive solar still.

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