Пример #1
0
# Map design point values
LPCMap.defaults = {}
LPCMap.defaults['alphaMap'] = 0.0
LPCMap.defaults['NcMap'] = 1.00
LPCMap.defaults['PR'] = 1.969
LPCMap.defaults['RlineMap'] = 2.150
LPCMap.RlineStall = 1.0

LPCMap.alphaMap = np.array([0.000, 90.000])
LPCMap.NcMap = np.array([
    0.300, 0.400, 0.500, 0.600, 0.700, 0.750, 0.800, 0.850, 0.900, 0.950,
    1.000, 1.050, 1.100, 1.150
])
LPCMap.RlineMap = np.array([
    1.000, 1.200, 1.400, 1.600, 1.800, 2.000, 2.200, 2.400, 2.600, 2.800, 3.000
])

LPCMap.WcMap = np.array([[[
    17.907, 19.339, 20.749, 22.136, 23.498, 24.833, 26.141, 27.420, 28.669,
    29.887, 31.011
],
                          [
                              24.951, 26.742, 28.485, 30.177, 31.815, 33.397,
                              34.921, 36.385, 37.788, 39.128, 40.405
                          ],
                          [
                              32.682, 34.715, 36.662, 38.520, 40.286, 41.958,
                              43.533, 45.011, 46.390, 47.669, 48.848
                          ],
                          [
Пример #2
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"""Python version of HBTF Fan map from NPSS"""
FanMap = MapData()

# Map design point values
FanMap.defaults = {}
FanMap.defaults['alphaMap'] = 0.0
FanMap.defaults['NcMap'] = 1.0
FanMap.defaults['PR'] = 1.39
FanMap.defaults['RlineMap'] = 2.00
FanMap.RlineStall = 1.0

FanMap.alphaMap = np.array([0.000, 5.000])
FanMap.NcMap = np.array([0.500, 0.600, 0.700, 0.800, 0.900, 0.950, 1.000, 1.050, 1.100])
FanMap.RlineMap = np.array([1.000, 1.250, 1.500, 1.750, 2.000, 2.250, 2.500, 2.750, 3.000, 3.200, 3.250, 3.500]) 

FanMap.WcMap = np.array([[[1104.3380, 1247.2229, 1384.7280, 1514.7731, 1635.3656, 1742.0557, 1829.9553, 1866.5565, 1866.5565, 1866.5565, 1866.5565, 1866.5565],
  [1369.0782, 1519.3645, 1661.7891, 1793.9161, 1913.4485, 2012.9872, 2084.3818, 2125.0225, 2126.4814, 2126.4814, 2126.4814, 2126.4814],
  [1644.4929, 1791.9211, 1929.5121, 2054.8865, 2165.8337, 2252.1497, 2302.7083, 2315.6926, 2315.6926, 2315.6926, 2315.6926, 2315.6926],
  [1919.7177, 2054.9785, 2179.5896, 2291.5830, 2389.1497, 2460.2048, 2491.7344, 2493.1619, 2493.1619, 2493.1619, 2493.1619, 2493.1619],
  [2191.8401, 2304.7476, 2407.9941, 2500.2908, 2580.4556, 2636.5833, 2655.9902, 2655.9902, 2655.9902, 2655.9902, 2655.9902, 2655.9902],
  [2324.3926, 2422.7034, 2512.5652, 2593.0525, 2663.3154, 2712.5415, 2729.2681, 2729.2681, 2729.2681, 2729.2681, 2729.2681, 2729.2681],
  [2446.8806, 2530.6360, 2607.3428, 2676.3726, 2737.1450, 2780.9336, 2798.5239, 2798.8225, 2798.8225, 2798.8225, 2798.8225, 2798.8225],
  [2564.0947, 2632.0720, 2694.6523, 2751.4587, 2802.1399, 2840.2256, 2858.9136, 2860.8069, 2860.8069, 2860.8069, 2860.8069, 2860.8069],
  [2675.1184, 2726.3958, 2774.0383, 2817.8599, 2857.6853, 2889.2947, 2908.2825, 2914.2979, 2914.2979, 2914.2979, 2914.2979, 2914.2979]],
  [[ 883.6700, 1019.1972, 1150.5194, 1275.3372, 1391.4280, 1494.5356, 1580.0111, 1639.0737, 1639.0737, 1639.0737, 1639.0737, 1639.0737],
  [1103.0485, 1250.1055, 1390.6215, 1521.7380, 1640.7301, 1740.2568, 1812.2133, 1853.6100, 1860.6985, 1860.6985, 1860.6985, 1860.6985],
  [1336.1071, 1487.0300, 1629.0968, 1759.2498, 1874.6134, 1964.5132, 2017.2321, 2030.5022, 2030.5022, 2030.5022, 2030.5022, 2030.5022],
  [1576.8409, 1724.1096, 1860.7565, 1983.9010, 2090.8706, 2168.0376, 2200.6162, 2201.4871, 2201.4871, 2201.4871, 2201.4871, 2201.4871],
  [1821.3027, 1957.1122, 2081.6206, 2192.4666, 2287.4802, 2351.2808, 2368.0996, 2368.0996, 2368.0996, 2368.0996, 2368.0996, 2368.0996],
Пример #3
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"""Python version of axi-5.map Compressor map from NPSS"""
AXI5 = MapData()

# Map design point values
AXI5.defaults = {}
AXI5.defaults['alphaMap'] = 0.0
AXI5.defaults['NcMap'] = 1.00
AXI5.defaults['PRmap'] = 5.2000
AXI5.defaults['RlineMap'] = 2.000
AXI5.RlineStall = 1.0

AXI5.alphaMap = np.array([0.000, 90.000])
AXI5.NcMap = np.array(
    [0.400, 0.500, 0.600, 0.700, 0.800, 0.900, 0.950, 1.000, 1.050, 1.100])
# , 4.8430, 5.1909, 5.5289, 5.8564, 6.1729, 6.4780, 6.7714, 7.0525, 7.3212])
AXI5.RlineMap = np.array(
    [1.000, 1.200, 1.400, 1.600, 1.800, 2.000, 2.200, 2.400, 2.600])

AXI5.WcMap = np.array([[[
    4.8430, 5.1909, 5.5289, 5.8564, 6.1729, 6.4780, 6.7714, 7.0525, 7.3212
], [
    6.8115, 7.1360, 7.4477, 7.7462, 8.03130, 8.30260, 8.56000, 8.80330, 9.03230
], [
    8.9765, 9.2855, 9.5780, 9.8535, 10.1121, 10.3536, 10.5781, 10.7855, 10.9760
],
                        [
                            11.0367, 11.4245, 11.7795, 12.1017, 12.3913,
                            12.6485, 12.8738, 13.0679, 13.2314
                        ],
                        [
                            14.5914, 15.1491, 15.6401, 16.0650, 16.4249,
                            16.7213, 16.9563, 17.1322, 17.2515
Пример #4
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NCP01 = MapData()

# Map design point values
NCP01.defaults = {}
NCP01.defaults['alphaMap'] = 0.0  # Unscaled map design point vane angle
NCP01.defaults[
    'NcMap'] = 1.0  # Unscaled map design point corrected speed. Max eff point at 100% speed
NCP01.defaults[
    'RlineMap'] = 2.0  # Unscaled map design point Rline. Max eff point at 100% speed
NCP01.RlineStall = 1.0  # Rline at stall

# Values along map axes
NCP01.alphaMap = np.array([0.0, 90.0])
NCP01.NcMap = np.array(
    [0.5, 0.6, 0.7, 0.8, 0.85, 0.9, 0.95, 1.0, 1.05, 1.1, 1.15])
NCP01.RlineMap = np.array(
    [1.0, 1.2, 1.4, 1.6, 1.8, 2.0, 2.2, 2.4, 2.6, 2.8, 3.0, 3.2])

# Create map arrays
#Nc_data, alpha_data, Rline_data = np.meshgrid(Nc_vals, alpha_vals, Rline_vals, sparse=False)

NCP01.WcMap = np.array(
    [[[
        1129.0825, 1258.8474, 1382.1909, 1498.6384, 1607.7749, 1709.2917,
        1802.8665, 1888.3794, 1965.6499, 2034.6738, 2095.4690, 2148.1226
    ],
      [
          1396.9045, 1546.6948, 1685.6306, 1813.0896, 1928.5979, 2031.8818,
          2122.7800, 2201.2161, 2267.4148, 2321.6023, 2364.1392, 2395.5188
      ],
      [
          1636.3572, 1816.0977, 1977.3179, 2119.2051, 2241.3333, 2343.6414,