Zonnestraling in Nederland - Knmi
Zonnestraling in Nederland - Knmi Zonnestraling in Nederland - Knmi
UNESCO/WMO Symposium. Geneva, 30 August - 3 September 1976. WMO- Publication 477, WMO, Genève, 191-197. Dogniaux, R. et Lemoine, M. (1976). Programme de calcul des éclairements solaires énergétiques et lumineux de surfaces orientées et inclinées. Miscellanea Serie C - No 14. Institut Royal Météorologique de Belgique, Bruxelles. Dogniaux, R. et Lemoine, M. (1978). Corrélations entre les expositions énergétiques du rayonnement solaire et 1'ensoleillement a Uccle. Miscellanea Serie B - No. 49. Institut Royal Météorologique de Belgique, Bruxelles. Drummond, A.J. (1958). Notes on the measurement of natural illumination II Daylight and skylight at Pretoria; the luminous efficiency of daylight. Arch. Met. Geoph. Biokl. 9, 149-163. Duffie, J.A. and Beekman, W.A. (1980). Solar engineering of thermal processes. John Wiley & Sons. New York. Erbs, D.G .(1980). Methods for estimating the diffuse fraction of hourly, daily and monthly average global solar radiation. Master's thesis, Univ. of Wisconsin, Madison. Erbs, D.G., Klein, S.A. and Duffie, J.A. (1982). Estimation of the diffuse radiation fraction for hourly, daily and monthly average global radiation. Solar Energy 28, 293-302. Frantzen, A.J. en Raaff, W.R. (1982). De relatie tussen de globale straling en de relatieve zonneschijnduur in Nederland. KNMI Wetenschappelijk Rapport W.R. 82-5, De Bilt. Glover, J. and McCulloch, J.S.G. (1958). The empirical relation between solar radiation and hours of sunshine. Quart. J. Roy. Meteor. Soc. 84, 172-175. Gueymard, C. (1987). An anisotropic solar irradiance model for tilted surfaces and its comparison with selected engineering algorithms. Solar Energy 38, 367- 386. Hay, J.E. (1979). A study of shortwave radiation on non-horizontal surfaces. Final Report Contract Serial Number OSB78 00053. Atmospheric Environment Service, Downsview, Canada, 140 pp. Hay, J.E. and Davies, J.A. (1980). Calculation of the solar radiation incident on an inclined surface. In: Hay, J.E. and Won, T.K. (edit.), Proc. First Canadian Solar Radiation Data Workshop. Atmospheric Environment Service, Downsview, Canada, 59-72. Hay, J.E. and McKay, D.C. (1988). Calculation of solar irradiances for inclined surfaces: verification of models which use hourly and daily data. Draft Final Report, IEA Task IX. Atmospheric Environment Service, Downsview, Canada. Hinzpeter, H. (1959). Vergleichende Prüfung von Formeln zur Berechnung von Globalstrahlungsummen. Arch. Met. Geoph. Biokl. B9, 60-72. IRM (1981). Distribution spectrale du rayonnement solaire a Uccle. Ier semestre 1980 Miscellanea Serie B-No. 52 2ème semestre 1980 Miscellanea Serie B-No. 53 Institut Royal Météorologique de Belgique, Bruxelles. ISSO (1976). Zonstralingstabellen. Publicatie 3 Stichting Instituut voor Studie en Stimulering van Onderzoek op het gebied van verwarming en luchtbehandeling; Den Haag, 49 pp. Jones, R.E. (1980). Effects of overhang shading of windows having arbitrary azimuth. Solar Energy 24, 305-312. Jong, B. de (1973). Net radiation received by a horizontal surface at the Earth. University Press, Delft, 49 pp. 162
Jong, J.B.R.M. de (1980). Een karakterisering van de zonnestraling in Nederland. Deel I Tekst, Deel II: Bijlagen. Afstudeerverslag. Rapportnr. WPS-3-80.05.R306, Vakgroep Warmte- en Stromingstechniek, Afdeling Werktuigbouwkunde, Techn. Univ. Eindhoven. Joseffson, W. (1986). Niet gepubliceerd, gerefereerd in Davies, J.A., McKay, D.C., Abdel-Wahab, M. and Luciani, G. (1988). Kasten, F. (1983). Parametrisierung der Globalstrahlung durch Bedeckungsgrad und Trübungsfaktor. Annalen der Meteor. 20, 49-50. Kasten, F. and Czeplak, G. (1980). Solar and terrestrial radiation dependent on the amount and type of cloud. Solar Energy 24, 177-189. Klein, S.A. and Duffie, J.A. (1978). Estimation of monthly average diffuse radiation. In: Proceed. Annual Meeting American Section of Internat. Solar Energy Soc, Denver, Colorado. Können, G.P. (1985). Polarized light in nature. Cambridge Univ. Press, Cambridge. Lenger, A. (1976, 1977). De berekening van de ingestraalde zonne-energie. Polytechn. Tijdschr. Elektrotechniek/Elektronica 31, 610-615; 32, 578-588; 633- 636. Liu, B.Y.H, and Jordan, R.C. (1960). The interrelationship and characteristic distribution of direct, diffuse and total solar radiation. Solar Energy 4, 1-19. Liu, B.Y.H, and Jordan, R.C. (1963). A rational procedure for predicting the longterm average performance of flat-plate solar-energy collectors. Solar Energy 7, 53-74. Lumb, F.E. (1964). The influence of cloud on hourly amounts of total solar radiation at the sea surface. Quart. J. Roy. Met. Soc. 90, 43-56. Lund, H. (1985). Test reference years TRY, Weather data sets for computer simulations of solar energy systems and energy consumption in buildings. Publication EUR no 9765. Commission of the European Communities, Directorate General XII for Science, Research and Development. Matzke, H. (1933). Beitrage zur Kenntnis der Globalstrahlung in Greifswald. Abh. Meteor. Hydr. Duitsland 16. Minnaert, M. (1968). De natuurkunde van 't vrije veld I. Licht en kleur in het landschap, 5e druk W.J. Thieme & Cie, Zutphen, 408 blz. Oke, T.R. (1987). Boundary layer climates. 2nd edition. Methuen, London, 435 pp. Orgill, J.F. and Hollands, K.G.T. (1977). Correlation equation for hourly diffuse radiation on a horizontal surface. Solar Energy 19, 357-359. Page, J.K. (1961). The estimation of monthly mean values of daily total shortwave radiation on vertical and inclined surfaces from sunshine records for latitudes 40°N-40°S. In: Proceed. UN Conference on New Sources of Energy, Rome, Vol. 4, 378-389. Page, J.K. (1964). The estimation of monthly values of daily total short wave radiation on vertical and inclined surfaces from sunshine records for latitudes 40°N-40°S. Solar Energy 4, 368-382. Page, J.K. (edit.) (1986). Prediction of solar radiation on inclined surfaces. Solar Energy R&D in the European Community. Series F Vol. 3. D. Reidel Publ. Comp., Dordrecht, 459 pp. Palz, W. (edit.) (1984). European solar radiation atlas Vol. 1 and 2. Commission of the European Communities, Verlag TÜV Rheinland GmbH, Keulen. Penman, H.L. (1948). Natural evaporation from open water, bare soil and grass. 163
- Page 105 and 106: — cos (6-B) cos 8 sin co' + -^rrC
- Page 107 and 108: G(y) = 0,408 - 0,323 y' + 0,384 y'
- Page 109 and 110: Hay en McKay (1988) concluderen in
- Page 111 and 112: was gemonteerd gaf de resultaten va
- Page 113 and 114: 30-8 11,62 4,32 6,92 0,38 8,30 2,51
- Page 115 and 116: Vlissingen. Ze zijn daarbij uitgega
- Page 117 and 118: in de atmosfeer beter verstrooid da
- Page 119 and 120: Twee monochromatische lichtbronnen
- Page 121 and 122: 6 APPENDICES 6.1 Berekening van de
- Page 123 and 124: gemiddelde afstand Zon-Aarde die 14
- Page 125 and 126: gebeurt midden op de dag, waarvoor
- Page 127 and 128: wordt echter niet bij zonneënergie
- Page 129 and 130: Van azimut \\f en hoogte y naar uur
- Page 131 and 132: Deze waarden kunnen ook worden gevo
- Page 133 and 134: duurt 24 uur, dus per graad 24 /360
- Page 135 and 136: De waarde van e verloopt in het jaa
- Page 137 and 138: Tabel 6.4 Tijden van zonsopkomst en
- Page 139 and 140: Met algemeen geldende relaties 1 kJ
- Page 141 and 142: Emittantie, radiant exitance, spezi
- Page 143 and 144: In 1913 stelde dr. C.G. Abbott van
- Page 145 and 146: A e e c Tl e e X X n' v>" V K n p p
- Page 147 and 148: In chapter 4 the results are given
- Page 149 and 150: LITERATUUR 1. Inleiding Een element
- Page 151 and 152: air mass. Arch. Met. Geoph. Biokl.
- Page 153 and 154: condities (ISSO, 1986), waarin een
- Page 155: T.R.-642-1013. Solar Energy Researc
- Page 159 and 160: formules voor de berekening van zon
- Page 161 and 162: A TREFWOOR Absolute schaal 147 abso
- Page 163 and 164: p parallelcirkel 127-128 perihelium
Jong, J.B.R.M. de (1980). Een karakteriser<strong>in</strong>g van de zonnestral<strong>in</strong>g <strong>in</strong> <strong>Nederland</strong>.<br />
Deel I Tekst, Deel II: Bijlagen. Afstudeerverslag. Rapportnr. WPS-3-80.05.R306,<br />
Vakgroep Warmte- en Strom<strong>in</strong>gstechniek, Afdel<strong>in</strong>g Werktuigbouwkunde, Techn.<br />
Univ. E<strong>in</strong>dhoven.<br />
Joseffson, W. (1986). Niet gepubliceerd, gerefereerd <strong>in</strong> Davies, J.A., McKay,<br />
D.C., Abdel-Wahab, M. and Luciani, G. (1988).<br />
Kasten, F. (1983). Parametrisierung der Globalstrahlung durch Bedeckungsgrad<br />
und Trübungsfaktor. Annalen der Meteor. 20, 49-50.<br />
Kasten, F. and Czeplak, G. (1980). Solar and terrestrial radiation dependent on the<br />
amount and type of cloud. Solar Energy 24, 177-189.<br />
Kle<strong>in</strong>, S.A. and Duffie, J.A. (1978). Estimation of monthly average diffuse<br />
radiation. In: Proceed. Annual Meet<strong>in</strong>g American Section of Internat. Solar<br />
Energy Soc, Denver, Colorado.<br />
Können, G.P. (1985). Polarized light <strong>in</strong> nature. Cambridge Univ. Press, Cambridge.<br />
Lenger, A. (1976, 1977). De bereken<strong>in</strong>g van de <strong>in</strong>gestraalde zonne-energie.<br />
Polytechn. Tijdschr. Elektrotechniek/Elektronica 31, 610-615; 32, 578-588; 633-<br />
636.<br />
Liu, B.Y.H, and Jordan, R.C. (1960). The <strong>in</strong>terrelationship and characteristic<br />
distribution of direct, diffuse and total solar radiation. Solar Energy 4, 1-19.<br />
Liu, B.Y.H, and Jordan, R.C. (1963). A rational procedure for predict<strong>in</strong>g the longterm<br />
average performance of flat-plate solar-energy collectors. Solar Energy 7,<br />
53-74.<br />
Lumb, F.E. (1964). The <strong>in</strong>fluence of cloud on hourly amounts of total solar<br />
radiation at the sea surface. Quart. J. Roy. Met. Soc. 90, 43-56.<br />
Lund, H. (1985). Test reference years TRY, Weather data sets for computer<br />
simulations of solar energy systems and energy consumption <strong>in</strong> build<strong>in</strong>gs. Publication<br />
EUR no 9765. Commission of the European Communities, Directorate<br />
General XII for Science, Research and Development.<br />
Matzke, H. (1933). Beitrage zur Kenntnis der Globalstrahlung <strong>in</strong> Greifswald.<br />
Abh. Meteor. Hydr. Duitsland 16.<br />
M<strong>in</strong>naert, M. (1968). De natuurkunde van 't vrije veld I. Licht en kleur <strong>in</strong> het<br />
landschap, 5e druk W.J. Thieme & Cie, Zutphen, 408 blz.<br />
Oke, T.R. (1987). Boundary layer climates. 2nd edition. Methuen, London, 435<br />
pp.<br />
Orgill, J.F. and Hollands, K.G.T. (1977). Correlation equation for hourly diffuse<br />
radiation on a horizontal surface. Solar Energy 19, 357-359.<br />
Page, J.K. (1961). The estimation of monthly mean values of daily total shortwave<br />
radiation on vertical and <strong>in</strong>cl<strong>in</strong>ed surfaces from sunsh<strong>in</strong>e records for latitudes<br />
40°N-40°S. In: Proceed. UN Conference on New Sources of Energy, Rome,<br />
Vol. 4, 378-389.<br />
Page, J.K. (1964). The estimation of monthly values of daily total short wave<br />
radiation on vertical and <strong>in</strong>cl<strong>in</strong>ed surfaces from sunsh<strong>in</strong>e records for latitudes<br />
40°N-40°S. Solar Energy 4, 368-382.<br />
Page, J.K. (edit.) (1986). Prediction of solar radiation on <strong>in</strong>cl<strong>in</strong>ed surfaces. Solar<br />
Energy R&D <strong>in</strong> the European Community. Series F Vol. 3. D. Reidel Publ.<br />
Comp., Dordrecht, 459 pp.<br />
Palz, W. (edit.) (1984). European solar radiation atlas Vol. 1 and 2. Commission<br />
of the European Communities, Verlag TÜV Rhe<strong>in</strong>land GmbH, Keulen.<br />
Penman, H.L. (1948). Natural evaporation from open water, bare soil and grass.<br />
163
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