Function reference

All functions

api5l3t

API 5L. Values of SMYS and UTS

b31crvl()

ASME B31G. Basic computer program CRVL.BAS

b31gacd()

ASME B31G. Allowable corrosion depth in pipe

b31gacl()

ASME B31G. Allowable corrosion length in pipe

b31gafr()

ASME B31G. A-factor

b31gdata

ASME B31G. Corrosion state of 12 pipes

b31gdep()

ASME B31G. Design pressure of pipe

b31gmodpf()

ASME B31G. Failure pressure of the corroded pipe (modified)

b31gops()

ASME B31G. Operational status of pipe

b31gpf()

ASME B31G. Failure pressure of the corroded pipe (original)

b31gsap()

ASME B31G. Safe maximum pressure for the corroded area of pipe

c_k() c_f()

Convert to Celsius scale

dnvpf()

DNV-RP-F101. Failure pressure of the corroded pipe

dropg()

Flow rate drop in pipe

dropp()

Pressure drop in pipe

dropt()

Temperature drop in cylindrical steel pipe due heat loss

f_k() f_c()

Convert to Fahrenheit scale

flowls()

List all possible flow paths in district heating network

loss_flux() flux_loss()

Convert heat flux to specific heat loss power

fric_buzelli()

Estimate pipe friction factor with Buzelli formula

fric_romeo()

Estimate pipe friction factor with Romeo's formula

fric_vatankhan()

Estimate pipe friction factor with Vatankhah formula

geoarea() geodist()

Calculate geographical metrics

inch_mm()

Millimeters to inches

k_c() k_f()

Covert to Kelvin scale

kgf_mpa()

Megapascals to kilogram-force per square

m278hlair()

Minenergo-278. Normative heat loss of open-air pipe

m278hlcha()

Minenergo-278. Normative heat loss of pipe in channel

m278hlund()

Minenergo-278. Normative heat loss of underground pipe

m278insdata

Minenergo-278. Thermal conductivity terms of pipe insulation materials

m278inshcm()

Minenergo-278. Thermal conductivity of pipe insulation materials

m278soildata

Minenergo-278. Thermal conductivity of subsoil surrounding pipe

m325beta()

Minenergo-325. Local heat loss coefficient

m325nhl()

Minenergo-325. Normative heat loss of pipe

m325nhldata

Minenergo-325. Normative heat loss data

m325testbench

Minenergo-325. Test bench of district heating network

m325tracebw()

Minenergo-325. Massively trace backwards thermal-hydraulic regime for district heating network

m325tracefw()

Minenergo-325. Massively trace forwards thermal-hydraulic regime for district heating network

m325traceline()

Minenergo-325. Trace thermal-hydraulic regime for linear segment of district heating network

mepof()

Probability of failure of the corroded pipe within maximum entropy

meteos()

Get list of weather stations (meteos)

mgtdhid() mgtdhidt() mgtdhgeo() mgtdhgeot()

Get ground temperature

mm_inch()

Inches to mm

mpa_kgf()

Kilogram-force per square cm to megapascals

mpa_psi()

Pounds per square inch to megapascals

pcorrcpf()

PCORRC. Failure pressure of the corroded pipe

pipenostics pipenostics-package

pipenostics: Diagnostics, Reliability and Predictive Maintenance of Pipeline Systems

psi_mpa()

Megapascals to pounds per square inch

re_u() re_v() re_m()

Estimate Reynolds number

shell92pf()

Shell92. Failure pressure of the corroded pipe

strderate()

DNV-RP-F101. De-rate yield stress and tensile strength of pipe due to temperature

tracebw()

Massively trace backwards thermal-hydraulic regime for district heating network

tracefw()

Massively trace forwards thermal-hydraulic regime for district heating network

traceline()

Trace thermal-hydraulic regime for linear segment of district heating network

wth_d()

Derive the wall thickness depending on the outside diameter of pipe