core.py

@@ -21,7 +21,6 @@ class Parameter:
     h_arm: float  # 导、地线垂直坐标
     altitude: int  # 海拔，单位米
     max_i: float  # 最大尝试电流，单位kA
-    rated_voltage: float  # 额定电压
 
 
 para = Parameter()
@@ -187,10 +186,7 @@ def solve_circle_line_intersection(
 def min_i(string_len, u_ph):
     # 海拔修正
     altitude = para.altitude
-    if altitude > 1000:
     k_a = math.exp(altitude / 8150)  # 气隙海拔修正
-    else:
-        k_a = 1
     u_50 = 1 / k_a * (530 * string_len + 35)  # 50045 上附录的公式，实际应该用负极性电压的公式
     z_0 = 300  # 雷电波阻抗
     z_c = 251  # 导线波阻抗

main.py

@@ -5,25 +5,29 @@ from loguru import logger
 from core import *
 import timeit
 
-# 打印参数
-def parameter_display(para: Parameter):
-    logger.info(f"额定电压 kV {para.rated_voltage}")
-    logger.info(f"导线弧垂 m {para.h_c_sag}")
-    logger.info(f"地线弧垂 m {para.h_g_sag}")
-    logger.info(f"全塔高 m {para.h_whole}")
-    logger.info(f"串绝缘距离 m {para.insulator_c_len}")
-    logger.info(f"导线串长 m {para.string_c_len}")
-    logger.info(f"地线串长 m {para.string_g_len}")
-    logger.info(f"挂点垂直坐标 m {para.h_arm}")
-    logger.info(f"挂点水平坐标 m {para.gc_x}")
-    logger.info(f"地面倾角 ° {[an*180/math.pi for an in para.ground_angels]}")
-    logger.info(f"海拔高度 m {para.altitude}")
-    logger.info(f"雷暴日 d {para.td}")
-
 
 def egm():
     if len(sys.argv) < 2:
         toml_file_path = "default.toml"
+        # # logger.info('没指定计算文件!程序结束。')
+        # # sys.exit(0)
+        # h_g_sag = 20  # 地线弧垂
+        # h_c_sag = 20  # 导线弧垂
+        # h_whole = 106.1  # 杆塔全高
+        # voltage_n = 3  # 工作电压分成多少份来计算
+        # td = 20  # 雷暴日
+        # insulator_c_len = 6.98  # 串子绝缘长度
+        # string_c_len = 9.2
+        # string_g_len = 0.63
+        # gc_x = [32.2 / 2, 32.2 / 2, 15, 17.0]  # 导、地线水平坐标
+        # ground_angels = [40 / 180 * math.pi]  # 地面倾角，向下为正
+        # h_arm = 34
+        # gc_y = [
+        #     h_whole - string_g_len - h_g_sag * 2 / 3,  # 地线对地平均高
+        #     # h_whole - string_c_len - h_c_sag - 2.7,  # 导线对地平均高
+        #     h_whole - string_c_len - h_c_sag * 2 / 3 - h_arm,  # 导线对地平均高
+        #     # h_whole - string_c_len - h_c_sag - 35.7,  # 导线对地平均高
+        # ]
     else:
         toml_file_path = sys.argv[1]
     logger.info(f"读取文件{toml_file_path}")
@@ -44,12 +48,10 @@ def egm():
         para.h_arm = toml_parameter["h_arm"]
         para.altitude = toml_parameter["altitude"]
         para.max_i = toml_parameter["max_i"]
-        para.rated_voltage = toml_parameter["rated_voltage"]
         toml_optional = toml_dict["optional"]
         para.voltage_n = toml_optional["voltage_n"]  # 工作电压分成多少份来计算
     #########################################################
     # 以上是需要设置的参数
-    parameter_display(para)
     h_whole = para.h_whole
     string_g_len = para.string_g_len
     string_c_len = para.string_c_len
@@ -294,14 +296,7 @@ def egm():
                 #     if abs(calculus-0.05812740052770032)<1e-5:
                 #         abc=123
                 #         pass
-                rated_voltage = para.rated_voltage
+                n_sf = 2 * ng / 10 * calculus * arc_possibility(750, insulator_c_len)
-                n_sf = (
-                    2
-                    * ng
-                    / 10
-                    * calculus
-                    * arc_possibility(rated_voltage, insulator_c_len)
-                )
                 avr_n_sf += n_sf / voltage_n
                 n_sf_phases[phase_conductor_foo][u_bar] = n_sf
                 logger.info(f"工作电压为{u_ph:.2f}kV时,跳闸率是{n_sf:.6}")

server.py

@@ -14,7 +14,6 @@ class CalculationParameter(BaseModel):
     h_whole: float  # 杆塔全高
     gc_x: tuple[float]  # 导、地线水平坐标
     ground_angels: tuple[float]  # 地面倾角，向下为正
-    rated_voltage: float  # 额定电压
 
 
 fastapi_app = FastAPI()