print("--------------------------------------------------------------------")
print("Power (GCal/h) - ", round(POWER, 4))
print("Power (kW) - ", round(calc.GCalh_to_kW(POWER), 4))
print("Power_heat (GCal/h) - ", round(heat_power, 4))
print("Power_vent (GCal/h) - ", round(vent_power, 4))
print("Power_hot_water (GCal/h) - ", round(hot_water_power, 4))
print("---")
module_enter = module.Enter_module("module_enter", POWER, temperature_T1_main,
temperature_T2_main, temperature_T1_main,
temperature_T2_main, pressure_t1,
pressure_t2)
valve_control_dP = equipment.Valve_control("valve_control_dP",
module_enter.consumption_main,
dP_min_enter)
print("pipe_enter_consumption_main - ", round(module_enter.consumption_main,
3), " t/h")
print("velocity_main - ", velocity_main_enter)
print("pipe_dn_main - ",
module_enter.pipe_dn(module_enter.consumption_main, velocity_main_enter))
print("dP_min - ", dP_min_enter)
print("Kv valve dP - ",
calc.kv(module_enter.consumption_main, dP_min_enter))
print(
"valve_control_dp - Dn ",
valve_control_dP.km125f_DN[number_valve_dp], ", Kvs",
valve_control_dP.km125f_Kvs[number_valve_dp], ", dp ",
dP_min_enter = 0.5
number_valve_dp = 3
print("--------------------------------------------------------------------")
print("Power_heat (GCal/h) - ", round(heat_power, 4))
print("---")
module_enter = module.Enter_module("module_enter",
POWER,
temperature_T1_main,
temperature_T2_main,
temperature_T1_main,
temperature_T2_main,
pressure_t1, pressure_t2)
valve_control_dP = equipment.Valve_control("valve_control_dP", module_enter.consumption_main, dP_min_enter)
print("pipe_enter_consumption_main - ", round(module_enter.consumption_main, 3), " t/h")
print("velocity_main - ", velocity_main_enter)
print("pipe_dn_main - ", module_enter.pipe_dn(module_enter.consumption_main,
velocity_main_enter))
print("dP_min - ", dP_min_enter)
print("Kv valve dP - ", calc.kv(module_enter.consumption_main, dP_min_enter))
print("valve_control_dp - Dn ", valve_control_dP.kat33_DN[number_valve_dp],
", Kvs", valve_control_dP.kat33_Kvs[number_valve_dp],
", dp ", calc.dp(module_enter.consumption_main, valve_control_dP.kat33_Kvs[number_valve_dp]))
print("--------------------------------------------------------------------")
temperature_T2_main = 70
velocity_enter = 0.7
velocity_out = 0.4
print("--------------------------------------------------------------------")
#enter system
dP_min = 1.5
module_enter = module.Enter_module("module_enter", POWER, temperature_T1_main,
temperature_T2_main, 95, 70, 6., 3.)
valve_control_dP = equipment.Valve_control("valve_control_dP",
module_enter.consumption_main,
dP_min)
print("enter module")
print("Power (GCal/h) - ", POWER)
print("Power (kW) - ", calc.GCalh_to_kW(POWER))
print("pipe_enter_consumption_main - ", module_enter.consumption_main, " t/h")
print("velocity_main - ", velocity_enter)
print("pipe_dn_main - ",
module_enter.pipe_dn(module_enter.consumption_main, velocity_enter))
print("dP_min - ", dP_min)
print("Kv valve dP - ", calc.kv(module_enter.consumption_main, dP_min))
print("valve_control_dp - Dn", valve_control_dP.km125f_DN[6], ", Kvs",
valve_control_dP.km125f_Kvs[6], ", dp ",
calc.dp(module_enter.consumption_main, valve_control_dP.km125f_Kvs[6]))
print("--------------------------------------------------------------------")
#heat
module_heat = module.Heat_module("module_heat",
heat_power,
temperature_T1_main,
temperature_T2_main,
temperature_T1_out_heat,
temperature_T2_out_heat)
valve_control_heat = equipment.Valve_control("valve_control_heat",
module_heat.consumption_main,
dp_min_heat)
print("heat")
print("heat_power - ", heat_power)
print("temperature_T1_out_heat - ", temperature_T1_out_heat, "\n"
"temperature_T2_out_heat - ", temperature_T2_out_heat)
print("pipe_heat_consumption_main - ", module_heat.consumption_main, " t/h")
print("pipe_heat_consumption_out - ", module_heat.consumption_out, " t/h")
print("velocity_main - ", velocity_main_enter)
print("velocity_out - ", velocity_out_heat)
print("pipe_dn_main - ", module_heat.pipe_dn(module_heat.consumption_main, velocity_main_enter))
print("pipe_dn_out - ", module_heat.pipe_dn(module_heat.consumption_out, velocity_out_heat))