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1.
F. J. Olmo J. Vida I. Foyo-Moreno J. Tovar L. Alados-Arboledas 《Theoretical and Applied Climatology》2001,69(3-4):253-263
Summary
Knowledge of the partition of global solar irradiance in its diffuse and direct beam components is required in different areas
of applied meteorology. In the absence of solar irradiance measurements parametric approaches have to be used instead. In
the present work, the parametric CPCR2 model has been analysed at Granada (37.18° N, 3.58° W, 660 m a.m.s.l), an inland location,
covering a period greater than three years. Only cloudless conditions are analysed. Angstr?m’s α and β coefficients have been
computed from measurements carried out with a sunphotometer. As the study reveals, the best performance of the parametric
model is conditioned to the availability of appropriate information on aerosols, especially when the interest is focused on
the direct and diffuse irradiance.
Received October 18, 1999/Revised December 18, 2000 相似文献
2.
Solar irradiance, sunshine duration and daylight illuminance derived from METEOSAT data for some European sites 总被引:1,自引:0,他引:1
Summary
Radiometric ground truth data from seven Norwegian stations (58–64° N), and from five other European stations (38–61° N),
are compared to satellite-derived data in the present paper. Hourly global irradiance at ground level is estimated by the
Heliosat procedure from the “visible” channel of the geostationary satellite METEOSAT. With increasing latitude this satelllite
sees the earth’s surface at an increasingly unfavourable angle. Nevertheless, in this paper, global irradiance estimates reproduce
high latitude ground truth data with negligible Mean Bias Deviations (MBD) and only minor deviations regarding frequency distributions.
Moreover, the Root Mean Square Deviations (RMSD) are comparable to those typically seen between ground truth stations some
20–30 km apart.
Using a number of auxiliary models, a multiplicity of ground level solar radiation data is obtained from satellite-derived
global irradiance data, and made available at the SATEL-LIGHT www server. The accuracy of the half-hourly data thus derived
from Heliosat global irradiances, using models for diffuse fraction, luminous efficacy and slope/horizontal ratios, is successfully
verified against ground truth data.
Received August 31, 2000/Revised January 31, 2001 相似文献
3.
Summary The aim of this study is the evaluation of models that estimate daily global solar radiation on tilted surfaces from that
measured on horizontal surfaces. Global solar radiation incident on a tilted plane consists of three components: beam radiation,
diffuse radiation and reflected radiation from the ground.
The Klein (1977) method, modified by Andersen (1980), was used for estimating direct solar radiation incident on tilted surfaces
and an isotropic model was used for estimating reflected solar radiation incident on a tilted plane. In contrast models for
the diffuse radiation component show major differences, which justifies a validation study which has been done.
Eight models for derivation of daily slope diffuse irradiance from daily horizontal diffuse irradiance were tested against
recorded slope irradiances at Karaj (35°55′ N; 50°56′ E), Iran. The following models were included: Badescu (2002), Tian et
al. (2001), Reindl et al. (1990), Skartveit and Olseth (1986), Koronakis (1986), Steven and Unsworth (1980), Hay (1979) and
Liu and Jordan (1962).
All the models use the same method for calculating beam radiation as well as ground reflected radiation. However, only diffuse
component of radiation was compared. Statistical indices showed that Reindl’s model gives the most accurate prediction for
the south-facing surface and Koronakis’s model performs best for the west-facing surface. The Relative Root Mean Square Errors
(%RMSE), except for Steven and Unsworth’s model that has unacceptable results, for whole data range from 1.02 to 10.42%. In
general, Reindl’s model produces the best agreement with the measured tilted data. 相似文献
4.
Analysis of 40 year records of solar radiation data in Shanghai,Nanjing and Hangzhou in Eastern China 总被引:8,自引:0,他引:8
Summary In this paper, we analyze global, direct and diffuse solar radiation data on a horizontal surface observed at stations in Shanghai, Nanjing and Hangzhou for the period of 1961 to 2000. The data include monthly averages of the daily clearness index (G/G0: the ratio of global to extraterrestrial solar radiation) and the diffuse fraction (D/G: the ratio of diffuse to global solar radiation. The present study has processed and analyzed the data, including variables or statistics of mean, and annual monthly and daily total, the diurnal variation and the frequency of daily totals of global solar radiation. A correlation between daily values of clearness index and diffuse fraction is obtained and recommended correlation equations were calculated. The annual variations and trend of yearly series are analyzed for daily global, direct and diffuse radiation on a horizontal surface, as well as for daily clearness index and diffuse fraction in Shanghai, Nanjing and Hangzhou. The results show: 1) the east China is characterized by a decrease in global and direct radiation and a little increase in diffuse radiation and a negative linear relationship was obtained between clearness index and diffuse fraction. 2) The annual variations of global, direct and diffuse radiation for Shanghai, Nanjing and Hangzhou are similar with relative low values of global and direct radiation in June due to the Meiyu period. 3) The acceleration of air pollution and decrease of relative sunshine are the possible causes for the decrease of global and direct radiation. 相似文献
5.
Summary At the high-mountain station Jungfraujoch (3576 m a.s.l., Switzerland), measurements of the radiation fluxes were made during 16 periods of six to eight weeks by means of a Robertson—Berger sunburn meter (UVB data), an Eppley UVA radiometer and an Eppley pyranometer. Cloudiness, opacity and altitude of clouds were recorded at 30-minute intervals. A second set of instruments was employed for separate measurement of the diffuse radiation fluxes using shadow bands. The global and diffuse UVA- and UVB radiation fluxes change less with cloudiness than the corresponding total radiation fluxes. When the sun is covered by clouds, the global UVA- and UVB radiation fluxes are also affected less than the global total radiation flux. The roughly equal influence of cloudiness on the UVA- and UVB radiation fluxes suggests that the reduction is influenced more by scattering than by ozone. Also, the share of diffuse irradiance in global irradiance is considerably higher for UVA- and UVB irradiance than for total irradiance. At 50° solar elevation and 0/10 cloudiness, the share is 39% for UVB irradiance, 34% for UVA irradiance and 11% for total irradiance. The increased aerosol turbidity after the eruptions of El Chichon and Pinatubo has caused a significant increase in diffuse total irradiance but has not produced any significant changes in diffuse UVA- and UVB irradiances.With 7 Figures 相似文献
6.
Broadband solar irradiance data obtained in the spectral range 400–940 nm at Kwangju, South Korea from 1999–2000 have been analyzed to investigate the effects of cloud cover and atmospheric optical depth on solar radiation components. Results from measurements indicate that the percentage of direct and diffuse horizontal components of solar irradiance depend largely on total optical depth (TOD) and cloud cover. During summer and spring, the percentages of diffuse solar irradiance relative to the global irradiance were 5.0% and 4.9% as compared to 2.2% and 3.0% during winter and autumn. The diffuse solar irradiance is higher than the direct in spring and summer by 24.2%, and 40.6%, respectively, which may largely be attributed to the attenuation (scattering) of radiation by heavy dust pollution and large cloud amount. In cloud-free conditions with cloud cover ≤2/10, the fraction of the direct and diffuse components were 66.0% and 34.0%, respectively, with a mean daily global irradiance value of 7.92±2.91 MJ m−2 day−1. However, under cloudy conditions (with cloud cover ≥8/10), the diffuse and direct fractions were 97.9% and 2.2% of the global component, respectively. The annual mean TOD under cloudless conditions (cloud cover≤2/10) yields 0.74±0.33 and increased to as much as 3.15±0.67 under cloudy conditions with cloud amount ≥8/10. An empirical formula is derived for estimating the diffuse and direct components of horizontal solar irradiance by considering the total atmospheric optical depth (TOD). Results from statistical models are shown for the estimation of solar irradiance components as a function of TOD with sufficient accuracy as indicated by low standard error for each solar zenith angle (SZA). 相似文献
7.
Gonzalo Gurrea Vicente Blanca-Giménez Vicente Pérez María-Antonia Serrano Juan-Carlos Moreno Solar Radiation Group of the Universitat Politècnica de València 《Asia-Pacific Journal of Atmospheric Sciences》2018,54(4):599-610
The goal of this study was to statistically analyse the variability of global irradiance and ultraviolet erythemal (UVER) irradiance and their interrelationships with global and UVER irradiance, global clearness indices and ozone. A prediction of short-term UVER solar irradiance values was also obtained. Extreme values of UVER irradiance were included in the data set, as well as a time series of ultraviolet irradiance variability (UIV). The study period was from 2005 to 2014 and approximately 250,000 readings were taken at 5-min intervals. The effect of the clearness indices on global irradiance variability (GIV) and UIV was also recorded and bi-dimensional distributions were used to gather information on the two measured variables. With regard to daily GIV and UIV, it is also shown that for global clearness index (kt) values lower than 0.6 both global and UVER irradiance had greater variability and that UIV on cloud-free days (kt higher than 0.65) exceeds GIV. To study the dependence between UIV and GIV the χ2 statistical method was used. It can be concluded that there is a 95% probability of a clear dependency between the variabilities. A connection between high kt (corresponding to cloudless days) and low variabilities was found in the analysis of bi-dimensional distributions. Extreme values of UVER irradiance were also analyzed and it was possible to calculate the probable future values of UVER irradiance by extrapolating the values of the adjustment curve obtained from the Gumbel distribution. 相似文献
8.
This paper focuses on different ways of characterizing the solar radiative regime of a day and the stability of this regime. The days may be stratified in classes of cloud shade, observed total cloud cover amount, daily averaged clearness index, and fractal dimension of the solar global irradiance signal. A new Boolean parameter related to solar irradiance fluctuation is defined, namely the sunshine stability number. The time averaged value of the sunshine stability number is used for the characterization of the radiative regime stability during a given time interval. Ranking the days from the view-point of the stability of their radiative regime is performed by using the daily average value of the sunshine stability number and appropriately defined values of disorder and complexity, respectively. Measurements performed in the Romanian town of Timisoara (latitude 45°46?? N, longitude 21°25?? E and 85?m altitude above mean sea level) are used here. They refer to time series of global and diffuse solar irradiance recorded at 15-s time interval between sunrise and sunset during all the days in 2009. 相似文献
9.
Summary ?A major limitation in predicting the ultraviolet-B irradiance on humans, plant leaves and flowers and aquatic organisms is
the difficulty in estimating exposure. This study analyzes the spatial variability in the daily exposure of narrow band 300 nm
and 368 nm and broadband 290–315 nm (UVB) solar radiation between twelve paired locations in the United States Department
of Agriculture (USDA) UVB Climate Network over two summer growing seasons (May through August of 2000 and 2001). The spatial
correlation of the UVB, 300 nm and 368 nm daily exposures between locations was approximately 0.7 to 0.8 for spacing distances
of 100 km. The 300 nm daily exposure was typically more highly correlated between locations than the 368 nm daily exposure.
Both the diffuse and direct beam components to the 300 nm daily exposure were similarly correlated with distance between locations.
The 368 nm diffuse component of the daily exposures was less correlated with distance than the direct beam component, limiting
the ability to interpolate daily exposures from measurement locations. In general the variability in daily exposures of UVB
in the USDA UVB Climate Network is too large to interpolate daily exposures of solar radiation, with estimated 300 nm, 368 nm
and broadband UVB errors at one-half the mean station spacing of the USDA Network of 22%, 21% and 16% respectively. More accurate
interpolations of UVB exposure from this network will require either the incorporation of cloud cover variability from satellite
imagery for daily exposure or the use of longer periods of accumulated exposure.
Received May 14, 2002; revised October 25, 2002; accepted November 16, 2002 相似文献
10.
Summary
In 1997 the Austrian ultraviolet radiation monitoring network was to built up to measure continuously erythemally-effective
ultraviolet radiation. For this network the necessary measuring sites had to be selected by an objective method. Therefore
a method was used, based on the de-correlation distances, calculated by the daily maximum of the global solar irradiance across
the entire spectrum. For a correlation coefficient of 0.90, de-correlation distances were found to be in the order of 170 km
(East-West) and 40 km (North-South). From this, 7 measuring sites wereselected to derive a total coverage of Austria.
For the visualisation of the measured erythemally-effective solar radiation an optimum interpolation method was used to calculate
the spatial distribution. The topography of Austria was used for height correction. The global solar radiation of 39 stations
is also used to include the spatial distribution of cloud cover and the resulting attenuation of the erythemally-effective
radiation. The combination of these two data sets provides an accuracy estimation of people’s exposure to erythemally-effective
UV radiation within the mountainous country of Austria.
Received September 12, 1999/Revised April 6, 2001 相似文献
11.
Summary ?The analysis of ground-based measurements of solar erythemal ultraviolet (UV) irradiance with a Solar Light 501 biometer,
and total (300–3000 nm) irradiance with an Eppley B&W pyranometer at the Argentine Antarctic Base “Almirante Brown”, Paradise
Bay (64.9° S, 62.9° W, 10 m a.s.l.) is presented. Measurement period extends from February 16 to March 28 2000. A relatively
high mean albedo and a very clean atmosphere characterise the place. Sky conditions were of generally high cloud cover percentage.
Clear-sky irradiance for each day was estimated with model calculations, and the effect of the cloudiness was studied through
the ratio of measured to clear-sky value (r). Two particular cases were analysed: overcast sky without precipitation and overcast sky with rain or slight snowfall, the
last one presenting frequently dense fog. Total irradiance was more attenuated than UV by the homogeneous cloudiness, obtaining
mean r values of 0.54 for erythemal irradiance and 0.30 for total irradiance in the first case (without precipitation) and 0.27
and 0.17 respectively in the second case (with precipitation). Mean r values for the complete period were 0.58 for erythemal irradiance and 0.43 for total irradiance. Erythemal and total daily
insolations reduce quickly at this epoch due to the increase of the noon solar zenith angle and the decrease of daylight time.
Additionally, they were strongly modulated by cloudiness. Measured maxima were 2.71 kJ/m2 and 18.42 MJ/m2 respectively. Measurements were compared with satellite data. TOMS-inferred erythemal daily insolation shows the typical
underestimation with respect to ground measurements at regions of high mean albedo. Measured mean total daily insolation agrees
with climatological satellite data for the months of the campaign.
Received August 9, 2002; revised January 4, 2003; accepted January 28, 2003
Published online May 20, 2003 相似文献
12.
V. Pasquale 《Theoretical and Applied Climatology》1987,38(2):85-92
Summary An analysis is made of the monthly mean global and diffuse irradiance values recorded by the Genoa University Geophysical Institute radiation network to derive characteristic elements of the solar climate in four typical NW Italy locations. Diffuse irradiation was estimated for the stations where diffuse irradiation data were not recorded, by using correlations between measured data with clearness parameter and sunshine index. Local factors which affect the attenuation of global irradiance under cloudless skies are discussed.
This paper is dedicated to the memory of Prof. Mario Bossolasco of whom the author had the honour of being a pupil.
With 2 Figures 相似文献
Zusammenfassung Die vom Strahlungsaufzeichnungsnetz der Geophysikalischen Hochschule Genua aufgenommenen monatlichen Mittelwerte der Global- und Himmelsstrahlung werden untersucht, wobei charakteristische Elemente des Sonnenklimas von vier typischen Stationen in NW-Italien deduziert werden. Die Himmelsstrahlung wird für diejenigen Stationen, wo diese nicht aufgenommen wird, durch Anwendung von Korrelationen zwischen Meßwerten und einem Klarheitsparameter bzw. einer Sonnenscheinzahl geschätzt. Außerdem werden örtliche Faktoren diskutiert, die die Schwächung der Globalstrahlung unter wolkenlosem Himmel bestimmen.
This paper is dedicated to the memory of Prof. Mario Bossolasco of whom the author had the honour of being a pupil.
With 2 Figures 相似文献
13.
Relationships between photosynthetically active radiation and clearness index at Bloemfontein, South Africa 总被引:1,自引:0,他引:1
Summary Relationships between photosynthetically active radiation (PAR) and solar radiation (SR) and between diffuse radiation and global radiation at Bloemfontein, South Africa were investigated. The ratio of PAR to SR (PAR/SR) has been reported from many places in the northern hemisphere, but there were not many PAR/SR measurements documented from the southern hemisphere, including the study region. Based on the present observations, mean PAR/SR in the region (0.48) was not exceptionally different from other reported data (0.45–0.50). The effects of sky condition on PAR/SR were also investigated and confirmed the previous findings. PAR/SR increased as the clearness index (KT=ratio of global to extraterrestrial SR) decreased, as sky conditions varied from clear to cloudy. Thus, PAR/SR can be a simple function of the clearness index (the global PAR model). In this study, PAR/SR was explained by a quadratic function of KT. For the relationship between diffuse and global radiation, a simple linear threshold diffuse PAR model, as a linear function of KT, was proposed for the study region using long-term data of diffuse and global SR. Using the previous findings on the relationship between the ratio of diffuse to global SR (KSR) and the ratio of diffuse to global PAR (KPAR), at high KT, KPAR can be estimated as 30% higher than KSR, while at low KTKPAR is equivalent to KSR. 相似文献
14.
Summary Two UV-Biometer 501A instruments were used to estimate global erythemal irradiance at two locations in southwest Sweden;
the Earth Sciences Centre, University of G?teborg (57.69° N; 11.92° E) and the island of Nordkoster, 200 km to the north (58.83° N;
10.72° E).
A semi-empirical radiative transfer model was used to calculate the global erythemally effective irradiance under clear skies.
A ratio of the hourly measured to clear-sky modelled irradiance was then derived for zenith angles 35–70°. Subsequent comparisons
were then made with routine measurements of sunshine duration at G?teborg and sunshine duration, cloud cover, type and height
at Nordkoster.
Cloud transmission of UV-B irradiance decreases with increasing solar zenith angle, with cloud attenuation being 8% stronger
at Nordkoster Island for zenith angles >>;60°. Transmission also decreases with increasing cloud cover such that overcast
cloud conditions reduce transmissions by an average of 75%. In addition, cloud type affects the amount of ground incident
irradiant flux. Fractus cloud afforded the least UV-B transmission (0.16), while cirrus filaments afforded the most (0.95).
The spatial and temporal distribution of clouds appears tobe non-random. Under conditions of 1 to 3 octas, sky cover, clouds
appear to be concentrated in line with the sensor and Sun on more occasions than that expected given a random cloud distribution.
The same cloud cover condition also resulted in many instances of ground incident irradiance above clear-sky values. The presence
of cumuliform clouds appears to increase the likelihood of the latter phenomena.
Received January 4, 1998 相似文献
15.
V. Badescu 《Theoretical and Applied Climatology》2002,72(1-2):127-136
Summary A model that uses two parameters to describe the state of the sky is presented. The parameters are the total cloud amount
and a new two-value parameter – the sunshine number – stating whether the sun is covered or uncovered by clouds. Regression
formulae to compute instantaneous cloudy sky global and diffuse irradiance on a horizontal surface are proposed. Fitting these
relationships to Romanian data shows low bias errors for global radiation but larger errors for diffuse radiation. The model’s
accuracy is significantly higher than one based on total cloud amount alone. The model is used to generate time-series of
solar radiation data. A first approximate relationship, neglecting auto-correlation of the sunshine number, is used in the
computations.
Received July 17, 2001 Revised November 7, 2001 相似文献
16.
H. F. Assunção J. F. Escobedo A. P. Oliveira 《Theoretical and Applied Climatology》2007,90(3-4):235-248
Summary This work describes a new algorithm to characterize sky condition in intervals of 5 min using four categories of sun exposition:
apparent sun with cloud reflection effects; apparent sun without cloud effects; sun partially concealed by clouds; and sun
totally concealed by clouds. The algorithm can also be applied to estimate hourly and daily sky condition in terms of the
traditional three categories: clear, partially cloudy and cloudy day. It identifies sky conditions within a confidence interval
of 95% by minimizing local climate and measurement effects. This is accomplished by using a logistic cumulative probability
function to characterize clear sky and Weibull cumulative probability function to represent cloudy sky. Both probability functions
are derived from frequency distributions of clearness index, based on 5 minutes-averaged values of global solar irradiance
observed at the surface during a period of 6 years in Botucatu, Southeastern of Brazil. The relative sunshine estimated from
the new algorithm is statistically comparable to the one derived from Campbell-Stocks sunshine recorder for both daily and
monthly values. The new method indicates that the highest frequency of clear sky days occurs in Botucatu during winter (66%)
and the lowest during the summer (38%). Partially cloudy condition is the dominant feature during all months of the year. 相似文献
17.
K. O. Ogunjobi Y. J. Kim J. A. Adedokun S. Y. Ryu J. E. Kim 《Theoretical and Applied Climatology》2002,72(3-4):265-272
Summary ?Daily global and diffuse radiation measurements have been used to characterize the atmosphere optical conditions at Kwangju
(Lat.35.13N, Long.126.53E) and Seoul (Lat.37.57N, Long.126.98E) in South Korea and Ile-Ife (Lat.7.14N, Long.4.56E) in Nigeria.
The clearness index, (CI) which gives the percentage depletion by the sky of the incoming global radiation and the diffuse
ratio, (DR) which represents the effectiveness of the sky in scattering incoming radiation have been analyzed in this study. Results
show an average clearness index value of 0.57 for the year 1999 with maximum values occurring during the wet seasons at Ile-Ife.
The average clearness indexes for Kwangju and Seoul from 1998–2000 was 0.48 and 0.34, respectively, with both stations having
maximum clearness indexes in the winter seasons. The diffuse ratio was higher at Kwangju and Seoul than at Ile-Ife due to
heavy dust pollution from the Gobi desert in the Korea peninsula in spring, and high biomass burning at Kwangju in the fall.
Department of Physics, Obafemi Awolowo University, Ile-Ife, Nigeria
Received May 7, 2001; Revised November 24, 2001 相似文献
18.
H. Z. Che G. Y. Shi X. Y. Zhang J. Q. Zhao Y. Li 《Theoretical and Applied Climatology》2007,89(1-2):83-94
Summary Forty years of daily global and diffuse radiation data have been used to characterize the atmospheric optical conditions at
14 premium radiation stations in China. The clearness index (K
T
), diffuse ratio (K
D
), and diffuse coefficient (K
C
) have been analyzed for long-term and seasonal variations, correlations of relative sunshine (R
S
) versus clearness index and diffuse coefficient, respectively. Two polynomial models have been developed to simulate clearness
index and diffuse ratio by using relative sunshine data and have been shown to be reasonable at most of the 14 stations. The
results show that there are significant declining trends in clearness index and increasing trends in diffuse ratio at most
of the 14 premium radiation stations, but there are no significant trends for diffuse coefficient. The seasonal variations
of clearness index are determined by the regional climate and changes with relative sunshine. 相似文献
19.
EMD analysis of solar insolation 总被引:7,自引:0,他引:7
Summary A new time series analysis technique, Empirical Mode Decomposition (EMD), which has been successfully applied to nonlinear
and nonstationary data, is used to examine paleoclimate cycles in the Pleistocene (1 Ma bp–20 Ka bp). The purpose of this
study is to improve knowledge of the climatic significance of solar insolation. The results show that the eccentricity band
signal is much larger than previously estimated, having an amplitude of about 1% of solar irradiance which is comparable to
the amplitude of the precession and obliquity band signals. This finding implies the need to reconsider the role of solar
radiation on the formation and maintenance of quaternary ice sheet cycles. 相似文献
20.
X. Yin 《Theoretical and Applied Climatology》1999,64(1-2):61-68
Summary Bright sunshine duration (BSD) is of singular importance for estimating solar irradiance, and its data base is small in comparison.
This paper reports a generic algorithm that captures global variation in monthly BSD data in relation to temperature, precipitation
and geographic location. The algorithm depicts BSD in terms of reduction from daylength as a negative exponential function
of standard station pressure, with the exponential reduction rate as proportional to the product of a series of multiplicative
functions reflective of global generalities and regional idiosyncrasies. The algorithm is parameterized by regression fitting
to monthly climate normal data for 729 stations worldwide. It accounts statistically for 85% of the variance in the BSD data,
with a root mean square error of 1.0 hr, or 15% of the data mean. The data fitting tends to be least robust for tropical humid
climates or for tropical and subtropical monsoonal Asia. The spatially-based algorithm projects with a reasonable accuracy
5-yr sequential monthly BSD data for five stations representative of the climate regimes in the conterminous United States:
the absolute error is within ±1.5 hr for 70% to 93% of the 60 monthly mean BSD values for each of the stations.
Received April 22, 1999 相似文献