/// <summary>気象状態計算の例</summary>
private static void weatherTest()
{
//東京における太陽を作成
Sun sun = new Sun(Sun.City.Tokyo);
//太陽位置を12月21日12時に調整
DateTime dTime = new DateTime(1983, 12, 21, 12, 0, 0);
sun.Update(dTime);
sun.GlobalHorizontalRadiation = 467;
Console.WriteLine("東京の12月21日12時における");
Console.WriteLine("太陽高度=" + Sky.RadianToDegree(sun.Altitude).ToString("F1") + " 度");
Console.WriteLine("太陽方位=" + Sky.RadianToDegree(sun.Orientation).ToString("F1") + " 度");
Console.WriteLine("水平面全天日射=" + sun.GlobalHorizontalRadiation.ToString("F1") + " W/m2");
//傾斜面を作成(南西の垂直面と東の45°傾斜面)
Incline seInc = new Incline(Incline.Orientation.SE, 0.5 * Math.PI);
Incline wInc = new Incline(Incline.Orientation.W, 0.25 * Math.PI);
//直散分離の手法を取得
Array methods = Enum.GetValues(typeof(Sun.DiffuseAndDirectNormalRadiationEstimatingMethod));
foreach (Sun.DiffuseAndDirectNormalRadiationEstimatingMethod method in methods)
{
//直散分離を実行して太陽に設定
sun.EstimateDiffuseAndDirectNormalRadiation(sun.GlobalHorizontalRadiation, method);
//傾斜面へ入射する直達日射成分を計算する
double cosThetaSE, cosThetaW;
cosThetaSE = seInc.GetDirectSolarRadiationRate(sun);
cosThetaW = wInc.GetDirectSolarRadiationRate(sun);
Console.WriteLine();
Console.WriteLine("直散分離手法 : " + method.ToString());
Console.WriteLine("法線面直達日射=" + sun.DirectNormalRadiation.ToString("F1") + " W/m2");
Console.WriteLine("水平面直達日射=" + (sun.DirectNormalRadiation * Math.Sin(sun.Altitude)).ToString("F1") + " W/m2");
Console.WriteLine("天空日射=" + sun.DiffuseHorizontalRadiation.ToString("F1") + " W/m2");
Console.WriteLine("南西垂直面の直達日射=" + (sun.DirectNormalRadiation * cosThetaSE).ToString("F1") + " W/m2");
Console.WriteLine("東45度面の直達日射=" + (sun.DirectNormalRadiation * cosThetaW).ToString("F1") + " W/m2");
}
Console.Read();
}
/// <summary>Sample program calculating weather state</summary>
private static void weatherTest()
{
//Create an instance of the Sun class. (Location is Tokyo)
Sun sun = new Sun(Sun.City.Tokyo);
//Set date and time information(1983/12/21 12:00)
DateTime dTime = new DateTime(1983, 12, 21, 12, 0, 0);
sun.Update(dTime);
//Create instances of the Incline class. Vertical south east surface and 45 degree west surface.
Incline seInc = new Incline(Incline.Orientation.SE, 0.5 * Math.PI);
Incline wInc = new Incline(Incline.Orientation.W, 0.25 * Math.PI);
//Estimate direct normal and diffuse horizontal radiation from global horizontal radiation (467 W/m2)
sun.EstimateDiffuseAndDirectNormalRadiation(467);
//Calculate insolation rate on the inclined plane.
double cosThetaSE, cosThetaW;
cosThetaSE = seInc.GetDirectSolarRadiationRate(sun);
cosThetaW = wInc.GetDirectSolarRadiationRate(sun);
Console.WriteLine("Location:Tokyo, Date and time:12/21 12:00");
Console.WriteLine("Altitude of sun=" + Sky.RadianToDegree(sun.Altitude).ToString("F1") + " degree");
Console.WriteLine("Orientation of sun=" + Sky.RadianToDegree(sun.Orientation).ToString("F1") + " degree");
Console.WriteLine("Direct normal radiation=" + sun.DirectNormalRadiation.ToString("F1") + " W/m2");
Console.WriteLine("Diffuse horizontal radiation=" + sun.GlobalHorizontalRadiation.ToString("F1") + " W/m2");
Console.WriteLine("Direct normal radiation to SE surface=" + (sun.DirectNormalRadiation * cosThetaSE).ToString("F1") + " W/m2");
Console.WriteLine("Direct normal radiation to W surface=" + (sun.DirectNormalRadiation * cosThetaW).ToString("F1") + " W/m2");
Console.Read();
}