Functional forms for approximating the relative optical air mass

Rapp-Arrarás, Ígor; Santos, Juan Manuel Domingo

doi:10.1029/2011jd016706

Cited by 11 publications

(4 citation statements)

References 59 publications

(176 reference statements)

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“…Many formulas have been developed by various authors to fit measured data as a function of zenith angle. Rapp-Arraras and Domingo-Santos present a good overview of 26 different functional forms of published air mass models in [74]. Some of the most commonly used air mass models for solar radiation modeling are highlighted below.…”

Section: Air Mass Modelsmentioning

confidence: 99%

Global horizontal irradiance clear sky models : implementation and analysis.

Stein¹,

Hansen²,

Reno³

2012

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Clear sky models estimate the terrestrial solar radiation under a cloudless sky as a function of the solar elevation angle, site altitude, aerosol concentration, water vapor, and various atmospheric conditions. This report provides an overview of a number of global horizontal irradiance (GHI) clear sky models from very simple to complex. Validation of clear-sky models requires comparison of model results to measured irradiance during clear-sky periods. To facilitate validation, we present a new algorithm for automatically identifying clear-sky periods in a time series of GHI measurements. We evaluate the performance of selected clear-sky models using measured data from 30 different sites, totaling about 300 site-years of data. We analyze the variation of these errors across time and location. In terms of error averaged over all locations and times, we found that complex models that correctly account for all the atmospheric parameters are slightly more accurate than other models, but, primarily at low elevations, comparable accuracy can be obtained from some simpler models. However, simpler models often exhibit errors that vary with time of day and season, whereas the errors for complex models vary less over time.4

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Section: Air Mass Modelsmentioning

confidence: 99%

Global horizontal irradiance clear sky models : implementation and analysis.

Stein¹,

Hansen²,

Reno³

2012

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“…For numerical calculations used in this article we adopted and extended the original Fortran code by Huestis ( 2001). The calculation of special functions was performed using the algorithms according to Press et al (1992), which were adapted for double precision calculations. The Fortran code (Fortran 90) for calculation of Chapman function and its analytic approximations in different forms is available along its Python wrapper (Python 3.8) at web address https:// gitlab.…”

Section: Discussionmentioning

confidence: 99%

Accurate analytic approximation for the Chapman grazing incidence function

Vasylyev

2021

Earth Planets Space

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A new analytical approximation for the Chapman mapping integral, $${\text {Ch}}$$ Ch , for exponential atmospheres is proposed. This formulation is based on the derived relation of the Chapman function to several classes of the incomplete Bessel functions. Application of the uniform asymptotic expansion to the incomplete Bessel functions allowed us to establish the precise analytical approximation to $${\text {Ch}}$$ Ch , which outperforms established analytical results. In this way the resource consuming numerical integration can be replaced by the derived approximation with higher accuracy. The obtained results are useful for various branches of atmospheric physics such as the calculations of optical depths in exponential atmospheres at large grazing angles, physical and chemical aeronomy, atmospheric optics, ionospheric modeling, and radiative transfer theory.

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“…The fall-off of brightness for increasing z, associated with vignetting, takes place in nearly every digital photograph, in all optical lens systems, in particular wide-angle and ultrawide-angle lenses like fisheye lenses (Jacobs and Wilson, 2007). Optical and natural vignetting are associated with a smaller lens opening for obliquely incident light and the cos 4 law of illumination falloff, respectively, both inherent to any lens design (Ray, 2002). In general, vignetting increases with the aperture and decreases with the focal length.…”

Section: Vignetting Correctionmentioning

confidence: 99%

“…Sky imaging finds application in determining fractional cloud cover (Johnson and Hering, 1987;Long and DeLuisi, 1998;Slater et al, 2001;Long et al, 2001;Berger et al, 2005;Kassianov et al, 2005;Cazorla et al, 2008b) and macrophysical cloud properties such as cloud brokenness, distribution, number and uniformity (Shields et al, 1997;Kegelmeyer, 1994;Long et al, 2006), in assessing the impact of cloud cover on surface solar irradiance (Pfister et al, 2003), in estimating cloud base height, either from lowcost digital consumer cameras (Seiz et al, 2002;Janeiro et al, 2010) or by means of paired whole sky cameras (Lyons, 1971;Rocks, 1987;Allmen and Kegelmeyer Jr., 1996), in cloud detection and classification (Calbó and Sabburg, 2008;Heinle et al, 2010;Ghonima et al, 2012), in short-term weather forecasting (Chow et al, 2011), in characterizing aerosol (Cazorla et al, 2008a) and in determining cloud-free lines of sight Lund, 1972, 1973;Lund, 1973;Lund et al, 1980). Sky imaging is not new in the field of cirrus investigation as testified by previous works on measurements of the 22 • halo intensity from photographic photometry (Lynch et al, 1985), on the effects of ice crystal structure on halo formation (Sassen et al, 1994) and on the characterization of cirrus through a combination of polarization lidar and photographic observations of cirrus optical displays (Sassen et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

Halo ratio from ground-based all-sky imaging

et al. 2019

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The halo ratio (HR) is a quantitative measure characterizing the occurrence of the 22 • halo peak associated with cirrus. We propose to obtain it from an approximation to the scattering phase function (SPF) derived from allsky imaging. Ground-based fisheye cameras are used to retrieve the SPF by implementing the necessary image transformations and corrections. These consist of geometric camera characterization by utilizing positions of known stars in a camera image, transforming the images from the zenithcentred to the light-source-centred system of coordinates and correcting for the air mass and for vignetting, the latter using independent measurements from a sun photometer. The SPF is then determined by averaging the image brightness over the azimuth angle and the HR by calculating the ratio of the SPF at two scattering angles in the vicinity of the 22 • halo peak. In variance from previous suggestions we select these angles to be 20 and 23 • , on the basis of our observations. HR time series have been obtained under various cloud conditions, including halo cirrus, non-halo cirrus and scattered cumuli. While the HR measured in this way is found to be sensitive to the halo status of cirrus, showing values typically > 1 under halo-producing clouds, similar HR values, mostly artefacts associated with bright cloud edges, can also be occasionally observed under scattered cumuli. Given that the HR is an ice cloud characteristic, a separate cirrus detection algorithm is necessary to screen out non-ice clouds before deriving reliable HR statistics. Here we propose utilizing sky brightness temperature from infrared radiometry: both its absolute value and the magnitude of fluctuations obtained through detrended fluctuation analysis. The brightness temperature data permit the detection of cirrus in most but not all instances.

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Functional forms for approximating the relative optical air mass

Cited by 11 publications

References 59 publications

Global horizontal irradiance clear sky models : implementation and analysis.

Global horizontal irradiance clear sky models : implementation and analysis.

Accurate analytic approximation for the Chapman grazing incidence function

Halo ratio from ground-based all-sky imaging

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