pof_future_meter {CNAIM} | R Documentation |
Future Probability of Failure for Meters
Description
This function calculates the future annual probability of failure meters. The function is a cubic curve that is based on the first three terms of the Taylor series for an exponential function.
Usage
pof_future_meter(
placement = "Default",
altitude_m = "Default",
distance_from_coast_km = "Default",
corrosion_category_index = "Default",
age,
measured_condition_inputs,
observed_condition_inputs,
reliability_factor = "Default",
k_value = 0.128,
c_value = 1.087,
normal_expected_life = 25,
simulation_end_year = 100
)
Arguments
placement |
String. Specify if the asset is located outdoor or indoor. |
altitude_m |
Numeric. Specify the altitude location for
the asset measured in meters from sea level. |
distance_from_coast_km |
Numeric. Specify the distance from the
coast measured in kilometers. |
corrosion_category_index |
Integer. Specify the corrosion index category, 1-5. |
age |
Numeric. The current age in years of the conductor. |
measured_condition_inputs |
Named list observed_conditions_input |
observed_condition_inputs |
Named list observed_conditions_input
|
reliability_factor |
Numeric. |
k_value |
Numeric. |
c_value |
Numeric. |
normal_expected_life |
Numeric. |
simulation_end_year |
Numeric. The last year of simulating probability of failure. Default is 100. |
Value
DataFrame. Future probability of failure along with future health score
Examples
# future annual probability of failure for meter
pof_future_meter(
placement = "Default",
altitude_m = "Default",
distance_from_coast_km = "Default",
corrosion_category_index = "Default",
age = 1,
observed_condition_inputs =
list("external_condition" =
list("Condition Criteria: Observed Condition" = "Default"),
"oil_gas" = list("Condition Criteria: Observed Condition" = "Default"),
"thermo_assment" = list("Condition Criteria: Observed Condition" = "Default"),
"internal_condition" = list("Condition Criteria: Observed Condition" = "Default"),
"indoor_env" = list("Condition Criteria: Observed Condition" = "Default")),
measured_condition_inputs =
list("partial_discharge" =
list("Condition Criteria: Partial Discharge Test Results" = "Default"),
"ductor_test" = list("Condition Criteria: Ductor Test Results" = "Default"),
"oil_test" = list("Condition Criteria: Oil Test Results" = "Default"),
"temp_reading" = list("Condition Criteria: Temperature Readings" = "Default"),
"trip_test" = list("Condition Criteria: Trip Timing Test Result" = "Default")),
reliability_factor = "Default",
k_value = 0.128,
c_value = 1.087,
normal_expected_life = 25,
simulation_end_year = 100)