Enhancement in Exergoeconomic and Enviroeconomic Parameters for Single Slope Solar Still by Incorporating N Identical Partially Covered Photovoltaic Collectors

2018 ◽  
Vol 140 (5) ◽  
Author(s):  
Desh B. Singh ◽  
Navneet Kumar ◽  
Sanjay Kumar ◽  
Vijay K Dwivedi ◽  
Jeetendra K Yadav ◽  
...  
Keyword(s):  
Flow Rate ◽  
Water Depth ◽  
Unit Cost ◽  
Climatic Conditions ◽  
Environmental Cost ◽  
New Delhi ◽  
Solar Still ◽  
Monetary Value ◽  
Compound Parabolic Concentrator ◽  
Better Than

This paper deals with the enhancement in exergoeconomic and enviroeconomic parameters for single-slope solar still by incorporating N identical partially covered photovoltaic thermal (PVT) collectors. Three cases: (a) single slope solar still incorporating N identical partially covered PVT flat plate collectors (FPC) (N-PVT-FPC-SS), (b) single slope solar still incorporating N identical partially covered PVT compound parabolic concentrator collectors (N-PVT-CPC-SS), and (c) conventional single slope solar still (CSSSS) have been taken to assess the improvement in various parameters. The various parameters have been computed at 0.14 m water depth, selected values of mass flow rate, and number of collectors considering four climatic conditions of New Delhi for each month of year. It has been concluded that N-PVT-FPC-SS performs best followed by N-PVT-CPC-SS and CSSSS on the basis of exergoeconomic and enviroeconomic parameters; however, CSSSS performs better than N-PVT-FPC-SS and N-PVT-CPC-SS on the basis of productivity measured in terms of ratio of monetary value of output and input. The kWh per unit cost based on exergoeconomic parameter is higher by 45.11% and 47.37%; environmental cost is higher by 65.74% and 90.02%; however, the output per unit input based on productivity is higher by 12.09% and lower by 26.83% for N-PVT-FPC-SS than N-PVT-CPC-SS and CSSSS, respectively.

Effect of Cover Inclination and Water Depth on Performance of a Solar Still for Indian Climatic Conditions

2008 ◽  
Vol 130 (2) ◽  
Author(s):  
Anil Kr. Tiwari ◽  
G. N. Tiwari
Keyword(s):  
Convective Heat ◽  
Water Depth ◽  
Convective Heat Transfer Coefficient ◽  
Climatic Conditions ◽  
New Delhi ◽  
Solar Still ◽  
Transfer Coefficients ◽  
Distillate Yield ◽  
Passive Solar Still ◽  
Indian Climatic

Effects of condensing cover inclination and water depth on the convective heat transfer coefficient and yield have been studied for a passive solar still. Three solar stills with an effective basin area of 1m2 each have been studied for three inclinations of condensing cover, namely, 15deg, 30deg, and 45deg. An identical solar still, but with a fixed cover inclination of 30deg, has also been tested to evaluate the effects of varying water depth. Outdoor experiments have been conducted for New Delhi climatic conditions (28°37′N∕77°13′E). Hourly variations of temperatures (water, vapor, and cover) and of distillate yield have been recorded and analyzed to determine convective heat and mass transfer coefficients. The resulting calculative extrapolation of experimental data from clear-day operation shows that the combination of minimum water depth and 15deg inclination of the condensing cover leads to maximum annual distillate yield for the climatic conditions of New Delhi. However, a cover inclination of 45deg is almost equally effective on an annual basis, but with better winter performance.

scholarly journals Exergoeconomic and Enviroeconomic Analysis of Photovoltaic Modules of Different Solar Cells

2014 ◽  
Vol 2014 ◽  
pp. 1-8 ◽  
Author(s):  
Ankita Gaur ◽  
G. N. Tiwari
Keyword(s):  
Solar Cells ◽  
Cost Reduction ◽  
Loss Rate ◽  
Climatic Conditions ◽  
Environmental Cost ◽  
New Delhi ◽  
Net Energy ◽  
Pv Module ◽  
Pv Modules ◽  
The One

The exergoeconomic and enviroeconomic analysis of semitransparent and opaque photovoltaic (PV) modules based on different kinds of solar cells are presented. Annual electricity and net present values have also been computed for the composite climatic conditions of New Delhi, India. Irrespective of the solar cell type, the semitransparent PV modules have shown higher net energy loss rate (Len) and net exergy loss rate (Lex) compared to the opaque ones. Among all types of solar modules, the one based on c-Si, exhibited the minimum Len and Lex. Compared to the opaque ones, the semitransparent PV modules have shown higher CO2 reduction giving higher environmental cost reduction per annum and the highest environmental cost reduction per annum was found for a-Si PV module.

Experimental investigation of Brackish Water Desalination using a Semi Spherical Solar Still

2018 ◽  
Vol 6 (3) ◽  
pp. 69-75
Author(s):  
Ali A. F. Al-Hamadani ◽  
Mohammed G. Al-Azawyb ◽  
Mohammed Hameed Ghareeb Al Dulfi
Keyword(s):  
Climatic Conditions ◽  
Water Desalination ◽  
Distilled Water ◽  
Water Production ◽  
Solar Still ◽  
Black Paint ◽  
Incident Solar Radiation ◽  
Total Irradiation ◽  
Basin Water ◽  
Better Than

The intensity of radiation reaches 930 W/m2 during April, 2016 in Kut city. Thus this city is suitable to use application of solar energy such as solar still. An experimental study was performed to evaluate the production of Semi Spherical Solar Still (SS-SS) with and without Charcoal. It was measured in the climatic conditions of Kut, Wasit (32o N latitude), Iraq. The still consists of square basin of length 0.3 m and area 0.09 m2 made of Aluminum. The square absorber basin is painted with black paint for maximum absorption of incident solar radiation. It was found that the productivity of Semi spherical solar still without charcoal is better than the using of charcoal at depth of basin water (dbw=1.5 & 2cm). The productivity of SS-SS without charcoal was 2.7 lit/m2 for 6 hours at total irradiation 5935 W/m2. Whereas 2.5 lit/m2 for SS-SS with charcoal at total irradiation 5845 W/m2 for dbw=1.5cm. In addition, the instantaneous efficiency reaches 58% without charcoal and 70% with charcoal at dbw=1.5cm at 3:00PM. The salinity of water before desalination in SS-SS was 999.54 ppm and becomes 4.06 ppm after desalination. It could be concluded that the semi spherical solar still can be used for distilled water production

scholarly journals Experimental Study on Various Solar Still Designs

2012 ◽  
Vol 2012 ◽  
pp. 1-10 ◽  
Author(s):  
T. Arunkumar ◽  
K. Vinothkumar ◽  
Amimul Ahsan ◽  
R. Jayaprakash ◽  
Sanjay Kumar
Keyword(s):  
Experimental Study ◽  
Performance Evaluation ◽  
Fresh Water ◽  
Brackish Water ◽  
Maximum Yield ◽  
Underground Water ◽  
Climatic Conditions ◽  
Solar Still ◽  
Water Reservoirs ◽  
Compound Parabolic Concentrator

Humankind has depended for ages on underground water reservoirs for its fresh water needs. But these sources do not always prove to be useful due to the presence of excessive salinity in the water. In this paper, the fabrication of seven solar still designs such as spherical solar still, pyramid solar still, hemispherical solar still, double basin glass solar still, concentrator coupled single slope solar still, tubular solar still and tubular solar still coupled with pyramid solar still and their performance evaluation in converting brackish water into fresh water for drinking are presented. The experiment was constructed and tested during January to May 2011. All the solar stills were operated in the same climatic conditions to analyze the influence of the modifications on the productivity. From the observations, the compound parabolic concentrator-assisted tubular solar still shows the maximum yield.

Performance enhancement using TiO2 nano particles in solar still at variable water depth

2021 ◽  
pp. 1-8
Author(s):  
Ruchir Parikh ◽  
Umang Patdiwala ◽  
Shaival Parikh ◽  
Hitesh Panchal ◽  
Kishor Kumar Sadasivuni
Keyword(s):  
Water Depth ◽  
Performance Enhancement ◽  
Nano Particles ◽  
Solar Still ◽  
Variable Water

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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