BASTET/input/user_input.py

from input.natural_constants import *

# BALLOON DATA
m_pl = 917  #2174       # payload mass in [kg] (incl. flight-chain)
m_bal_init = 540  #500  # initial ballast mass in [kg]
m_film = 0.74074232733 * 1838     # mass balloon film in [kg]
FreeLift = 10     # (initial) free lift in [%]

c_virt = 0.37

# SIMULATION

start_height = 384.9                       # start altitude in [m]
start_lat = 67.887382                      # start latitude in [deg]
start_lon = 21.081452                      # start longitude in [deg]
start_utc_old = '2016-07-12 03:17:24.000'  # start date and time in UTC
start_utc = '2019-06-19 03:17:24.000'      # start date and time in UTC
# possible start dates: between May 22 and June 22
simple = True

# ONLY IN CASE OF APPLICATION OF SIMPLE MODEL:
epsilon_ground = 0.95  # ground emissivity
T_ground = 288.15      # ground temperature
Albedo = 0.3           # total albedo
##cc = 0.1               # cloud cover

m_gas_init = ((m_pl + m_film + m_bal_init) * (FreeLift/100 + 1))/(R_gas/R_air - 1)  # lifting gas mass in [kg]

print("initial gas mass:")
print(m_gas_init)

#GROSSER BALLON
#V_design = 1120497.6  # maximum fillable balloon volume in [m^3]
#L_goreDesign = 1.914 * V_design ** (1/3)
#c_ducts = 0.62
#c_valve = 0.77   # estimated
#A_ducts = 76.54  # estimated
#A_valve = 0.140
#t_open = 20                 # time it takes to open vents in [s]
#t_close = 20                # time it takes to open vents in [s]
#m_baldot = m_bal_init/1375  # ballast mass drop rate in [kg/s]

# kleiner Ballon
V_design = 834497.469  # maximum fillable balloon volume in [m^3]
L_goreDesign = 1.914 * V_design ** (1/3)
c_ducts = 0.62
c_valve = 0.72   # estimated
A_ducts = 55.743  # estimated
A_valve = 0.1297
t_open = 20                 # time it takes to open vents in [s]
t_close = 20                # time it takes to open vents in [s]
m_baldot = m_bal_init/1375  # ballast mass drop rate in [kg/s]


# THERMO-OPTICAL
alpha_VIS = 0.024
r_VIS = 0.060
tau_VIS = 0.916
epsilon = 0.100
alpha_IR = 0.100
tau_IR = 0.860
r_IR = 0.040

c_f = 2092  # [J/(kg*K)] specific heat balloon film


# DRAG
# c_d = 0.47  # drag coefficient balloon (spherical) [-]
minor restructuring 2021-05-03 10:40:35 +02:00			`from input.natural_constants import *`

			`# BALLOON DATA`
			`m_pl = 917 #2174 # payload mass in [kg] (incl. flight-chain)`
			`m_bal_init = 540 #500 # initial ballast mass in [kg]`
			`m_film = 0.74074232733 * 1838 # mass balloon film in [kg]`
			`FreeLift = 10 # (initial) free lift in [%]`

			`c_virt = 0.37`

			`# SIMULATION`

			`start_height = 384.9 # start altitude in [m]`
			`start_lat = 67.887382 # start latitude in [deg]`
			`start_lon = 21.081452 # start longitude in [deg]`
			`start_utc_old = '2016-07-12 03:17:24.000' # start date and time in UTC`
			`start_utc = '2019-06-19 03:17:24.000' # start date and time in UTC`
			`# possible start dates: between May 22 and June 22`
			`simple = True`

			`# ONLY IN CASE OF APPLICATION OF SIMPLE MODEL:`
			`epsilon_ground = 0.95 # ground emissivity`
			`T_ground = 288.15 # ground temperature`
			`Albedo = 0.3 # total albedo`
			`##cc = 0.1 # cloud cover`

			`m_gas_init = ((m_pl + m_film + m_bal_init) * (FreeLift/100 + 1))/(R_gas/R_air - 1) # lifting gas mass in [kg]`

			`print("initial gas mass:")`
			`print(m_gas_init)`

			`#GROSSER BALLON`
			`#V_design = 1120497.6 # maximum fillable balloon volume in [m^3]`
			`#L_goreDesign = 1.914 * V_design ** (1/3)`
			`#c_ducts = 0.62`
			`#c_valve = 0.77 # estimated`
			`#A_ducts = 76.54 # estimated`
			`#A_valve = 0.140`
			`#t_open = 20 # time it takes to open vents in [s]`
			`#t_close = 20 # time it takes to open vents in [s]`
			`#m_baldot = m_bal_init/1375 # ballast mass drop rate in [kg/s]`

			`# kleiner Ballon`
			`V_design = 834497.469 # maximum fillable balloon volume in [m^3]`
changed basic thermal model, now realistic behavior 2021-01-25 12:25:41 +01:00			`L_goreDesign = 1.914 * V_design ** (1/3)`
minor restructuring 2021-05-03 10:40:35 +02:00			`c_ducts = 0.62`
			`c_valve = 0.72 # estimated`
			`A_ducts = 55.743 # estimated`
			`A_valve = 0.1297`
			`t_open = 20 # time it takes to open vents in [s]`
			`t_close = 20 # time it takes to open vents in [s]`
			`m_baldot = m_bal_init/1375 # ballast mass drop rate in [kg/s]`

Dateien hochladen nach „input“ data input (by user): -geometrical data balloon -mass properties -thermo-optical properties -start date, time and location 2021-01-11 10:53:13 +01:00
			`# THERMO-OPTICAL`
			`alpha_VIS = 0.024`
minor restructuring 2021-05-03 10:40:35 +02:00			`r_VIS = 0.060`
Dateien hochladen nach „input“ data input (by user): -geometrical data balloon -mass properties -thermo-optical properties -start date, time and location 2021-01-11 10:53:13 +01:00			`tau_VIS = 0.916`
minor restructuring 2021-05-03 10:40:35 +02:00			`epsilon = 0.100`
			`alpha_IR = 0.100`
			`tau_IR = 0.860`
			`r_IR = 0.040`
Dateien hochladen nach „input“ data input (by user): -geometrical data balloon -mass properties -thermo-optical properties -start date, time and location 2021-01-11 10:53:13 +01:00
minor restructuring 2021-05-03 10:40:35 +02:00			`c_f = 2092 # [J/(kg*K)] specific heat balloon film`
Dateien hochladen nach „input“ data input (by user): -geometrical data balloon -mass properties -thermo-optical properties -start date, time and location 2021-01-11 10:53:13 +01:00

			`# DRAG`
minor restructuring 2021-05-03 10:40:35 +02:00			`# c_d = 0.47 # drag coefficient balloon (spherical) [-]`

Dateien hochladen nach „input“ data input (by user): -geometrical data balloon -mass properties -thermo-optical properties -start date, time and location 2021-01-11 10:53:13 +01:00