Package: pipenostics 0.2.1

pipenostics: Diagnostics, Reliability and Predictive Maintenance of Pipeline Systems

Functions that represent some useful empirical and data-driven models for heat loss, corrosion diagnostics, and predictive maintenance of pipeline systems. The package is designed for engineers who are involved in exploratory or routine calculations. Methods are described in Timashev et al. (2016) <doi:10.1007/978-3-319-25307-7>, A.C.Reddy (2017) <doi:10.1016/j.matpr.2017.07.081>, Minenergo (2008) <https://docs.cntd.ru/document/902148459>, Minenergo (2005) <https://docs.cntd.ru/document/1200035568>, Xing LU. (2014) <doi:10.1080/23744731.2016.1258371>.

Authors:Yuri Possokhov [aut, cre]

pipenostics_0.2.1.tar.gz
pipenostics_0.2.1.zip(r-4.5)pipenostics_0.2.1.zip(r-4.4)pipenostics_0.2.1.zip(r-4.3)
pipenostics_0.2.1.tgz(r-4.4-any)pipenostics_0.2.1.tgz(r-4.3-any)
pipenostics_0.2.1.tar.gz(r-4.5-noble)pipenostics_0.2.1.tar.gz(r-4.4-noble)
pipenostics_0.2.1.tgz(r-4.4-emscripten)pipenostics_0.2.1.tgz(r-4.3-emscripten)
pipenostics.pdf |pipenostics.html
pipenostics/json (API)
NEWS

# Install 'pipenostics' in R:
install.packages('pipenostics', repos = c('https://omega1x.r-universe.dev', 'https://cloud.r-project.org'))

Peer review:

Bug tracker:https://github.com/omega1x/pipenostics/issues

Datasets:
  • api5l3tdata - API 5L. Values of SMYS and UTS
  • b31gdata - ASME B31G. Corrosion state of 12 pipes
  • b36pipedata - Specifications of the manufactured pipes
  • m278insdata - Minenergo-278. Thermal conductivity terms of pipe insulation materials
  • m278soildata - Minenergo-278. Thermal conductivity of subsoil surrounding pipe
  • m325nhldata - Minenergo-325. Normative heat loss data
  • m325nxdata - Minenergo-325. Test bench of district heating network

On CRAN:

district-heatingheat-lossesinline-inspectionremaining-useful-life

4.43 score 1 stars 108 scripts 114 downloads 61 exports 3 dependencies

Last updated 7 months agofrom:4f01b9a684. Checks:OK: 5 NOTE: 2. Indexed: yes.

TargetResultDate
Doc / VignettesOKNov 04 2024
R-4.5-winNOTENov 04 2024
R-4.5-linuxNOTENov 04 2024
R-4.4-winOKNov 04 2024
R-4.4-macOKNov 04 2024
R-4.3-winOKNov 04 2024
R-4.3-macOKNov 04 2024

Exports:b31crvlb31gacdb31gaclb31gafrb31gdepb31gmodpfb31gopsb31gpfb31gsapb36db36massb36wthc_fc_kdnvpfdropgdroppdroptf_cf_kflowlsflux_lossfric_buzellifric_romeofric_vatankhangeoareageodistinch_mmk_ck_fkgf_mpaloss_fluxm278hlairm278hlcham278hlundm278inshcmm325betam325nhlm325tracebwm325tracefwm325tracelinemepofmeteosmgtdhgeomgtdhgeotmgtdhidmgtdhidtmm_inchmpa_kgfmpa_psipcorrcpfpsi_mpare_mre_ure_vshell92pfstrderatetracebwtracefwtracelinewth_d

Dependencies:backportscheckmateiapws

Readme and manuals

Help Manual

Help pageTopics
pipenostics: Diagnostics, Reliability and Predictive Maintenance of Pipeline Systemspipenostics-package pipenostics
API 5L. Values of SMYS and UTSapi5l3tdata
ASME B31G. Basic computer program CRVL.BASb31crvl
ASME B31G. Allowable corrosion depth in pipeb31gacd
ASME B31G. Allowable corrosion length in pipeb31gacl
ASME B31G. A-factorb31gafr
ASME B31G. Corrosion state of 12 pipesb31gdata
ASME B31G. Design pressure of pipeb31gdep
ASME B31G. Failure pressure of the corroded pipe (modified)b31gmodpf
ASME B31G. Operational status of pipeb31gops
ASME B31G. Failure pressure of the corroded pipe (original)b31gpf
ASME B31G. Safe maximum pressure for the corroded area of pipeb31gsap
Estimate pipe massb36d b36mass b36wth
Specifications of the manufactured pipesb36pipedata
Convert to Celsius scalec_f c_k
DNV-RP-F101. Failure pressure of the corroded pipednvpf
Flow rate drop in pipedropg
Pressure drop in pipedropp
Temperature drop in cylindrical steel pipe due heat lossdropt
Convert to Fahrenheit scalef_c f_k
List all possible flow paths in district heating networkflowls
Estimate pipe friction factor with Buzelli formulafric_buzelli
Estimate pipe friction factor with Romeo's formulafric_romeo
Estimate pipe friction factor with Vatankhah formulafric_vatankhan
Calculate geographical metricsgeoarea geodist
Millimeters to inchesinch_mm
Covert to Kelvin scalek_c k_f
Megapascals to kilogram-force per squarekgf_mpa
Convert heat flux to specific heat loss powerflux_loss loss_flux
Minenergo-278. Normative heat loss of open-air pipem278hlair
Minenergo-278. Normative heat loss of pipe in channelm278hlcha
Minenergo-278. Normative heat loss of underground pipem278hlund
Minenergo-278. Thermal conductivity terms of pipe insulation materialsm278insdata
Minenergo-278. Thermal conductivity of pipe insulation materialsm278inshcm
Minenergo-278. Thermal conductivity of subsoil surrounding pipem278soildata
Minenergo-325. Local heat loss coefficientm325beta
Minenergo-325. Normative heat loss of pipem325nhl
Minenergo-325. Normative heat loss datam325nhldata
Minenergo-325. Test bench of district heating networkm325nxdata
Minenergo-325. Massively trace backwards thermal-hydraulic regime for district heating networkm325tracebw
Minenergo-325. Massively trace forwards thermal-hydraulic regime for district heating networkm325tracefw
Minenergo-325. Trace thermal-hydraulic regime for linear segment of district heating networkm325traceline
Probability of failure of the corroded pipe within maximum entropymepof
Get list of weather stations (meteos)meteos
Get ground temperaturemgtdhgeo mgtdhgeot mgtdhid mgtdhidt
Inches to mmmm_inch
Kilogram-force per square cm to megapascalsmpa_kgf
Pounds per square inch to megapascalsmpa_psi
PCORRC. Failure pressure of the corroded pipepcorrcpf
Megapascals to pounds per square inchpsi_mpa
Estimate Reynolds numberre_m re_u re_v
Shell92. Failure pressure of the corroded pipeshell92pf
DNV-RP-F101. De-rate yield stress and tensile strength of pipe due to temperaturestrderate
Massively trace backwards thermal-hydraulic regime for district heating networktracebw
Massively trace forwards thermal-hydraulic regime for district heating networktracefw
Trace thermal-hydraulic regime for linear segment of district heating networktraceline
Derive the wall thickness depending on the outside diameter of pipewth_d