Your search keyword '"Solar Energy standards"' showing total 8 results

1. Biological impact of lead from halide perovskites reveals the risk of introducing a safe threshold.

Author

Li J, Cao HL, Jiao WB, Wang Q, Wei M, Cantone I, Lü J, and Abate A

Subjects

Calcium Compounds chemistry, Calcium Compounds toxicity, Electronics standards, Lead toxicity, Oxides chemistry, Oxides toxicity, Soil chemistry, Soil Pollutants toxicity, Solar Energy standards, Titanium chemistry, Titanium toxicity, Calcium Compounds standards, Lead standards, Mentha spicata drug effects, Oxides standards, Soil Pollutants standards, Threshold Limit Values, Titanium standards

Abstract

Regulations currently in force enable to claim that the lead content in perovskite solar cells is low enough to be safe, or no more dangerous, than other electronics also containing lead. However, the actual environmental impact of lead from perovskite is unknown. Here we show that the lead from perovskite leaking into the ground can enter plants, and consequently the food cycle, ten times more effectively than other lead contaminants already present as the result of the human activities. We further demonstrate that replacing lead with tin represents an environmentally-safer option. Our data suggest that we need to treat the lead from perovskite with exceptional care. In particular, we point out that the safety level for lead content in perovskite-based needs to be lower than other lead-containing electronics. We encourage replacing lead completely with more inert metals to deliver safe perovskite technologies.

Published

2020

2. Developing High Performance GaP/Si Heterojunction Solar Cells.

Author

Zhang C, Vadiee E, Dahal S, King RR, and Honsberg CB

Subjects

Diffusion, Gallium standards, Microscopy, Atomic Force methods, Phosphines standards, Phosphorus chemistry, Phosphorus standards, Silicones standards, Sunlight, X-Ray Diffraction methods, Phosphines chemical synthesis, Silicones chemical synthesis, Solar Energy standards

Abstract

To improve the efficiency of Si-based solar cells beyond their Shockley-Queisser limit, the optimal path is to integrate them with III-V-based solar cells. In this work, we present high performance GaP/Si heterojunction solar cells with a high Si minority-carrier lifetime and high crystal quality of epitaxial GaP layers. It is shown that by applying phosphorus (P)-diffusion layers into the Si substrate and a SiNx layer, the Si minority-carrier lifetime can be well-maintained during the GaP growth in the molecular beam epitaxy (MBE). By controlling the growth conditions, the high crystal quality of GaP was grown on the P-rich Si surface. The film quality is characterized by atomic force microscopy and high-resolution x-ray diffraction. In addition, MoOx was implemented as a hole-selective contact that led to a significant increase in the short-circuit current density. The achieved high device performance of the GaP/Si heterojunction solar cells establishes a path for further enhancement of the performance of Si-based photovoltaic devices.

Published

2018

3. Finding Relevant Parameters for the Thin-film Photovoltaic Cells Production Process with the Application of Data Mining Methods.

Author

Ulaczyk J, Morawiec K, Zabierowski P, Drobiazg T, and Barreau N

Subjects

Algorithms, Data Mining methods, Power Plants standards, Solar Energy standards

Abstract

A data mining approach is proposed as a useful tool for the control parameters analysis of the 3-stage CIGSe photovoltaic cell production process, in order to find variables that are the most relevant for cell electric parameters and efficiency. The analysed data set consists of stage duration times, heater power values as well as temperatures for the element sources and the substrate - there are 14 variables per sample in total. The most relevant variables of the process have been found based on the so-called random forest analysis with the application of the Boruta algorithm. 118 CIGSe samples, prepared at Institut des Matériaux Jean Rouxel, were analysed. The results are close to experimental knowledge on the CIGSe cells production process. They bring new evidence to production parameters of new cells and further research., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

4. Outdoor Exposure to Solar Ultraviolet Radiation and Legislation in Brazil.

Author

Silva AA

Subjects

Brazil, Humans, Occupational Exposure prevention & control, Radiation Exposure prevention & control, Radiation Monitoring legislation & jurisprudence, Ultraviolet Rays, Government Regulation, Occupational Exposure legislation & jurisprudence, Radiation Exposure legislation & jurisprudence, Radiation Protection legislation & jurisprudence, Radiodermatitis prevention & control, Solar Energy standards

Abstract

The total ozone column of 265 ± 11 Dobson Units in the tropical-equatorial zones and 283 ± 16 Dobson Units in the subtropics of Brazil are among the lowest on Earth, and as a result, the prevalence of skin cancer due to solar ultraviolet radiation is among the highest. Daily erythemal doses in Brazil can be over 7,500 J m. Erythemal dose rates on cloudless days of winter and summer are typically about 0.147 W m and 0.332 W m, respectively. However, radiation enhancement events yielded by clouds have been reported with erythemal dose rates of 0.486 W m. Daily doses of the diffuse component of erythemal radiation have been determined with values of 5,053 J m and diffuse erythemal dose rates of 0.312 W m. Unfortunately, Brazilians still behave in ways that lead to overexposure to the sun. The annual personal ultraviolet radiation ambient dose among Brazilian youths can be about 5.3%. Skin cancer in Brazil is prevalent, with annual rates of 31.6% (non-melanoma) and 1.0% (melanoma). Governmental and non-governmental initiatives have been taken to increase public awareness of photoprotection behaviors. Resolution #56 by the Agência Nacional de Vigilância Sanitária has banned tanning devices in Brazil. In addition, Projects of Law (PL), like PL 3730/2004, propose that the Sistema Único de Saúde should distribute sunscreen to members of the public, while PL 4027/2012 proposes that employers should provide outdoor workers with sunscreen during professional outdoor activities. Similar laws have already been passed in some municipalities. These are presented and discussed in this study.

Published

2016

5. Energy and carbon accounting to compare bioenergy crops.

Author

Borak B, Ort DR, and Burbaum JJ

Subjects

Agriculture statistics & numerical data, Atmosphere chemistry, Biofuels standards, Climate, Crops, Agricultural standards, Photosynthesis, Solar Energy standards, Solar Energy statistics & numerical data, Biofuels statistics & numerical data, Carbon metabolism, Crops, Agricultural metabolism

Abstract

To compare the utility of current and future biofuels and biofuel feedstocks in an objective manner can be extremely challenging. This challenge exists because agricultural data are inherently variable, experimental techniques are crop-dependent, and the literatures usually report relative, rather than absolute, values. Here, we discuss the 'PETRO approach', a systematic approach to evaluate new crops. This approach accounts for not only the capture of solar energy but also the capture of atmospheric carbon (as CO2) to generate a final carbon-based liquid fuel product. The energy yield, per unit area, of biofuel crops grown in different climate zones can thus be benchmarked and quantitatively compared in terms of both carbon gain and solar energy conversion efficiency., (Published by Elsevier Ltd.)

Published

2013

6. Using a mini-Raman spectrometer to monitor the adaptive strategies of extremophile colonizers in arid deserts: relationships between signal strength, adaptive strategies, solar radiation, and humidity.

Author

Miralles I, Jorge-Villar SE, Cantón Y, and Domingo F

Subjects

Cyanobacteria metabolism, Exobiology, Geographic Information Systems, Lichens metabolism, Spectrum Analysis, Raman, Desert Climate, Humidity, Solar Energy standards, Ultraviolet Rays

Abstract

The survival strategies of one cyanobacteria colony and three terricolous lichen species from the hot subdesert of Tabernas, Spain, were studied along with topographical attributes of the area to investigate whether the protective strategies adopted by these pioneer soil colonizers are related to the environmental stressors under which they survive. A handheld Raman spectrometer was used for biomolecular characterization, while the microclimatic and topographic parameters were estimated with a Geographic Information System (GIS). We found that the survival strategies adopted by those organisms are based on different combinations of protective biomolecules, each with diverse ecophysiological functions, such as UV-radiation screening, free-energy quenching, antioxidants, and the production of different types and amounts of calcium oxalates. Our results show that the cyanobacteria community and each lichen species preferentially colonized a particular microhabitat with specific moisture and incident solar radiation levels and exhibited different adaptive mechanisms. In recent years, a number of studies have provided consistent results that suggest a link between the strategies adopted by those extremophile organisms and the microclimatic environmental parameters. To date, however, far too little attention has been paid to results from Raman analyses on dry specimens. Therefore, the results of the present study, produced with the use of our miniaturized instrument, will be of interest to future studies in astrobiology, especially due to the likely use of Raman spectroscopy at the surface of Mars.

Published

2012

7. On the job with solar PV.

Author

Taylor DA

Subjects

Cadmium, Humans, Manufactured Materials adverse effects, Silicon, Occupational Health, Solar Energy economics, Solar Energy standards, Solar Energy statistics & numerical data

Published

2010

8. Evaluation of the goodness of fit of solar simulated radiation to a reference solar spectrum for photobiological experiments.

Author

Schauberger G, Maier H, Cabaj A, and Schmalwieser AW

Subjects

Environment, Controlled, Environmental Monitoring methods, Environmental Monitoring standards, Guidelines as Topic, Radiation Dosage, Radiometry methods, Radiometry standards, Reference Standards, Reproducibility of Results, Sensitivity and Specificity, Models, Statistical, Photobiology methods, Photobiology standards, Solar Energy standards, Spectrophotometry, Ultraviolet methods, Spectrophotometry, Ultraviolet standards, Ultraviolet Rays

Abstract

There is a great need for photochemical and photobiological experiments to mimic the spectral distribution of solar ultraviolet radiation by artificial ultraviolet sources. The spectral distribution of various ultraviolet sources were compared with a reference solar spectrum which represents a realistic maximum solar spectrum under cloudless sky. Various methods to compare the artificial sources with the COLIPA solar reference spectrum were presented. Beside a graphical method which is based on the Lorenz curve also integral indices were used to characterize the deviations from the solar spectrum. Following parameters should be used to characterize an artificial source: (1) total output of the biologically effective irradiance, (2) maximum deviation of the cumulative relative spectral irradiance of the biologically effective solar simulated radiation, (3) spectral distribution of the difference of the cumulative relative spectral irradiance of the biologically effective solar simulated radiation, and (4) the index of the goodness of the spectral fit. Further on upper and lower limit values are suggested to improve the quality of the spectral fit of solar simulated radiation and the irradiance maximum should be limited to the range in which dose reciprocity is known to be conserved.

Published

2004