Valorization of Algerian Sand for Photovoltaic Application

Boussaa, Sabiha Anas; Kheloufi, A.; Zaourar, Naïma; Kerkar, F.

doi:10.12693/aphyspola.130.133

Cited by 21 publications

(14 citation statements)

References 11 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It can be observed from the pattern that the most intense crystalline quartz peak at 2θ = 26.6° (011) belongs to hexagonal structure. The diffraction peaks were in good agreement with the results reported in the literature [39][40][41][42][43]. XRD analysis can be utilized to evaluate particle size and lattice strain due to dislocation or size reduction in the bentonite clay.…”

Section: Williamson-hall (W-h) Size Analysissupporting

confidence: 87%

Nano-structured natural bentonite clay coated by polyvinyl alcohol polymer for gamma rays attenuation

et al. 2019

View full text Add to dashboard Cite

The main goal of this work is to find natural rock materials that can be used as effective gamma rays shielding at minimal cost, reliability and wide applications. It must be at particular weight and volume (lighter and more protection). Natural bentonite clay can be used as shelters from nuclear waste because of its large availability and low cost. Bentonite clay was used in two forms naturally as it is from its ores and in ground phase. Natural bentonite was cut into cylindrical pellets at different thicknesses; also, the other form pressed into cylindrical pellets with different thicknesses and different pressing pressures (50, 100 and 150 bar). The different samples are coated with polyvinyl alcohol polymer to prevent nuclear waste leakage through porosity of clay. Chemical analysis and density are measured for all samples. Bentonite clay was found naturally in nanometer scale because it is formed from volcanic ash deposits. The nanoparticle size was determined by dynamic light scattering and Williamson-Hall size analysis using XRD patterns and the help of X-powder program. The particle size of natural bentonite was found to be 59.79 nm. The microstructure was characterized by scanning electron microscope and transmission electron microscopy. The linear and mass attenuation coefficients of nano-structured bentonite clay (natural and pressed) were determined at 662 keV energy of 137 Cs; at 1173 and 1332 keV energies of 60 Co, gamma ray sources were determined by using NaI(Tl) scintillation detector. The experimental results showed that the ground bentonite pressed at 150 bar gave the highest linear and mass attenuation coefficients than other samples. The theoretical and the experimental calculations of mass attenuation coefficient were found to be in a good agreement.

show abstract

Section: Williamson-hall (W-h) Size Analysissupporting

confidence: 87%

Nano-structured natural bentonite clay coated by polyvinyl alcohol polymer for gamma rays attenuation

et al. 2019

View full text Add to dashboard Cite

show abstract

“…In 1880, Jacques and Pierre discovered that certain materials can generate electrical energy when subjected to mechanical strain through a phenomenon called piezoelectricity, and the materials exhibiting this characteristic are called piezoelectric materials (PEMs) [1]. One of the naturally occurring PEMs is quartz whose crystalline and amorphous structures are shown in Figure 1a,b, respectively [2].…”

Section: Introductionmentioning

confidence: 99%

Solution Blow Spinning of Polyvinylidene Fluoride Based Fibers for Energy Harvesting Applications: A Review

et al. 2020

View full text Add to dashboard Cite

Polyvinylidene fluoride (PVDF)-based piezoelectric materials (PEMs) have found extensive applications in energy harvesting which are being extended consistently to diverse fields requiring strenuous service conditions. Hence, there is a pressing need to mass produce PVDF-based PEMs with the highest possible energy harvesting ability under a given set of conditions. To achieve high yield and efficiency, solution blow spinning (SBS) technique is attracting a lot of interest due to its operational simplicity and high throughput. SBS is arguably still in its infancy when the objective is to mass produce high efficiency PVDF-based PEMs. Therefore, a deeper understanding of the critical parameters regarding design and processing of SBS is essential. The key objective of this review is to critically analyze the key aspects of SBS to produce high efficiency PVDF-based PEMs. As piezoelectric properties of neat PVDF are not intrinsically much significant, various additives are commonly incorporated to enhance its piezoelectricity. Therefore, PVDF-based copolymers and nanocomposites are also included in this review. We discuss both theoretical and experimental results regarding SBS process parameters such as solvents, dissolution methods, feed rate, viscosity, air pressure and velocity, and nozzle design. Morphological features and mechanical properties of PVDF-based nanofibers were also discussed and important applications have been presented. For completeness, key findings from electrospinning were also included. At the end, some insights are given to better direct the efforts in the field of PVDF-based PEMs using SBS technique.

show abstract

“…However, studies on the brittleness behaviour of glass have become particularly important because recently, the demand for lightweight glass has risen as a result of its application in many products such as building materials, automobiles, bottles, displays, etc. [1]. Lightweight glass is typically obtained by decreasing the thickness of regular glass; however, as the thickness of these glasses decreases, so does their strength, thus creating a serious problem for their applicability [2].…”

Section: Introductionmentioning

confidence: 99%

Mechanical Properties of Soda-Lime-Silica Glasses Doped with Eggshell Powder

et al. 2017

View full text Add to dashboard Cite

In this study, eggshell powder obtained from eggshell waste was used as a dopant in soda-lime-silica glass powders. Various eggshell-doped soda-lime-silica glass samples were produced through melting, and the effect of the eggshell powders on the mechanical properties of the soda-lime-silica glasses was investigated by microVickers indentation tests. The X-ray diffraction results of the eggshell-doped glasses showed that, depending on the dopant content, different phases such as gypsum, nepheline, alunogene, aragonite, cristobalite etc. appeared. These results were different from the X-ray diffraction patterns of pure soda-lime-silica glass powders, where the phases observed included sodium aluminium silicate, sodium aluminum oxide, and silicon oxide. Although the elastic modulus of soda-lime-silica glasses increased with the addition of the eggshell powders, the dopant powders also caused an increase in the hardness of the glasses. Furthermore, it was found that the fracture toughness increased for soda-lime-silica glasses with 0.5 and 1 wt% eggshell powder, while it decreased for samples with eggshell powder contents ≥ 1 wt%. This behaviour could be explained by an increased depolymerization in the network connectivity of the glass when the amount of eggshell dopant increases.

show abstract

Valorization of Algerian Sand for Photovoltaic Application

Cited by 21 publications

References 11 publications

Nano-structured natural bentonite clay coated by polyvinyl alcohol polymer for gamma rays attenuation

Nano-structured natural bentonite clay coated by polyvinyl alcohol polymer for gamma rays attenuation

Solution Blow Spinning of Polyvinylidene Fluoride Based Fibers for Energy Harvesting Applications: A Review

Mechanical Properties of Soda-Lime-Silica Glasses Doped with Eggshell Powder

Contact Info

Product

Resources

About