SY/T 5254-2000 Openhole well logging data processing symbols and codes SY/T5254-2000 standard download decompression password: www.bzxz.net

ICS 75.020
Registration number: 6795-2000
Petroleum and natural gas industry standard of the People's Republic of China SY/T 5254-2000
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Symbol and code name for openhole logging data processing2000-03-14 Release
State Administration of Petroleum and Chemical Industry
2000-10-01 Implementation
SY/T 5254-2000
2 General
Log data processing code (in alphabetical order) 3
Log data processing code (arranged by logging method) 4
Appendix A [Standard Appendix) Special Symbols
SY7T 5254-2000
This standard is a revision of SY5254-91 "Single Well Logging Data Conventional Digital Processing Symbols and Codes". The revised standard retains the common digital processing symbols and codes for single well logging data in the original standard, adds the logging data processing symbols and codes numbered by well logging method - meaning and the symbols and codes used by various new logging data processing software, and deletes the relevant symbols and codes under the 3600 system.
This standard shall replace Appendix A of SY5254-91 from the date of entry into force and is the standard appendix.
This standard is proposed by China National Petroleum Corporation. This standard is under the jurisdiction of the National Petroleum Well Logging Professional Standardization Committee. The unit of this standard is Shengli Petroleum Pipeline Bureau Well Logging Company. The drafters of this standard are Li Houyu, Lü Xingduan, Wang Zheran, and Zhao Wenjie. This standard was first issued in July 1991, and this revision is the first revision. 1 Scope
Petroleum and Natural Gas Industry Standard of the People's Republic of China Open Hole Well Logging Data Processing Symbols and Codes Svmbol and Code Nane for Upenhule Luying ATA PricessitigSY/T 5254--2000
Replaces SY 5254-91
This standard specifies the symbols and codes for logging data processing. This standard does not include symbols and codes for foreign logging special instruments. This standard is suitable for logging data processing.
The logging data processing code consists of the English name keyword prefix. In view of the usage habits and the characteristics of computers, some symbols coexist in uppercase and lowercase. Arranged in alphabetical order and by logging method. See Appendix A (standard appendix) for special symbols. Use it to write papers and computer drawings. Logging data processing code [arranged in alphabetical order] See Table 1 for the list of logging data processing codes (arranged in alphabetical order). Table 1 Logging data processing code (arranged in alphabetical order) Serial number
Chinese name
T1R1 Acoustic wave amplitude
TIR2 Wave amplitude
\12R1 City wave amplitude
12R2 Lu wave amplitude
Acoustic wave additional value
Average value of sector
Acoustic wave measurement and curve
Compensated neutron additional value
Density additional value
Resolution 4 feet, detection depth 10 inches
Array induction resistor
Resolution 4 feet, detection depth 201 Array induction resistivity with resolution of 4 feet and detection depth of 30 inchesArray induction resistivity with resolution of 4 feet and detection depth of 60 inchesArray induction resistivity with resolution of 4 feet and detection depth of 60 inchesState Administration of Petroleum and Chemical Industry 20M-13-14 Approved English nameamplizude TIR1ampli:ude TIR2arpliude T2R1anmplitude T2R2add to the arxustic.everagr nmrlitude of sectoracvusic logadd to the cornpensated neutronadd to the denityAIT resistivi:y with 4it of resolutionand 10in of DOIAll' resistivity with 4ft of resolutionBrd 2Uin c IX)1
All' resistivity writh 4ft cf resolulionard 30in ef TX1
AII resist:vity with 4ft cf resolutionand 60in of IDO!
Corresponding to Table 2 (Well
Method) Abbreviation
2000-10-01 Implementation
AMAV (AMPL)
SY/T 5254—2000
Table 1 (Continued)
Chinese Name
Array Induction Resistivity with Resolution 4ft and Detection Depth 90in
Resolution 4ft Array Induction True Resistance
Resolution 4ft ft array induction flushing zone
resistivity
spontaneous gamma added value
acoustic impedance
array induction logging tool
maximum sound amplitude
minimum sound amplitude
sound amplitude of the first sector
sound amplitude of the second sector
sound amplitude of the third sector
sound amplitude of the fourth sector
sound amplitude of the fifth sector
sound amplitude of the sixth sector
andesite
neutron added value
hard rock skeleton area
grouping rate 1 foot, detection depth 10 inches
resistivity
resolution 1 foot, detection depth 20 inches
array induction resistivity
resolution 1 foot, detection depth 3U Array induction resistance in English
resolution: 61 inches
inch flash array induction resistivity
resolution: 1 ft, detection depth 0 ft
array induction limit rate
resolution: 1 ft array induction true resistance
English name
AIT restivily witl 4ft of resulutionand 90in of DDI
AIT true induction resistivi-y with 4Ft of resolution
All' inzuction resistvity of fluseedzone with 4ft of resohitirn
add to the garrrna ray
Acoustic inpcdaricc
Arrey inducticn tcol
Amplitude
rmax anpliturle
min smplitude | | tt |to the neltmn
Anhyrlrie rrglrix v lurme
All resistivity uith 1fi of resohitionand 10in of DOF
AIT resistivity writh 1ft of resnl itinnEnd 20in cf LXD1
All resistivity with Ift of resolutionand 3Oin af LXO1 | | tt | 52542000
Table 1 (continued)
Chinese name
Resolution 1-foot array induction flushing zone
Resistivity
API unit
ARI azimuthal resistivity 1
ARI azimuthal resistivity 2
ARI azimuthal resistivity 3
ARI azimuthal resistivity 4
ARI azimuthal resistivity 5
AHI azimuthal resistivity 6
ARI azimuthal resistivity 7
ARI azimuthal resistivity 8
ARE azimuthal resistivity 9
ARI azimuthal resistivity 10
ARI azimuthal resistivity II
ARI 12-inch array induction true resistivity resolution 2 feet array induction wash zone resistivity shale baseline additional value natural potential additional value resolution 2 feet, detection depth 10 inches array induction resistivity resolution 2 feet, detection depth 20 inches array induction resistivity resolution 2 feet, detection depth 30 inches array induction resistivity resolution 2 feet, detection depth 60 inches array induction resistivity resolution 2 feet, detection depth 90 inches array induction resistivity flat rate sector attenuation rate second sector attenuation rate Al'l' induction resistivity af flueedsune with 1ft o[ resclution:APr unit
Azimuthal resistivity!
Asimlul rsislivity2
Azimuthal resistivity3
Azimuthal resistivity4
Azimuthal resistivity5
Azimuthal rcaistivity6
Azimuthal reaistivity?
Azimutha. rcaistivitye
Azinuthal resistivity?
Azirnutbal rusistivity10
Avirmthul rnstivity!!
Azinuthal ristivity12
Al'T true induction resistivity with 2ft of resolution
Al'T induction resietivity of fluseedzone with 2ft af resolution
add to the shale base line
add to the SP
AlT resistivity with 2ft of recolutionHurl 1Ui of LXOI
AlT rcsigtivity with 2ft nf resolutionArtl 2nin af TXT
AIT rcsistivity with 2ft af -csolutionard 30in af DO1
A[T resistivity with 2ft cf resolutionardl 60in of DO[
A[T resistivity with 2ft of Icsolutionard C0in of [OF
Averrgc allchuelion
Attenuation of sectorl
Atteruatton ul sector2
Corresponding table 2 (well measurement method) No.
BHTAQH
RHTTOH
SY/T 5254-2000
Table 1 (continued)
Chinese name
Attenuation rate of the second sector
Degree rate of the fourth sector
Attenuation rate of the fifth sector
Meaning rate of the sixth sector
Minimum attenuation rate
Azimuth
Azimuth of the first plate
Azimuth of the second plate
Azimuth of the third plate
Azimuth of the fourth plate
Parallel azimuth
Magnetic induction intensity B1
Basalt
Coefficient of saturation formula
Neutral intrusive rock
Rollback file mark| |tt||Gas layer volume coefficient
Collision fluid
Collision fluid type
Collision bottom pressure
Collision condition
Collision bottom temperature
Borehole reflection wave peak pressure
High sampling rate borehole reflection wave peak voltage
Collision reflection wave arrival time
Quick sampling rate borehole reflection wave arrival time
Collision acoustic wave electric gauge
(Mud elimination) cementation index
Basic information tape
Drill bit size
Bead accumulation model
Oil layer body plate coefficient
English name
Attcnuarion of sectcr?
Attenuation of scctor4
Attenuation of sectors
Alleruaticrl cf scctort
min attenuration
Azinmth
Azimuth t padi
Azimuth af par12
Azimnuth of pad3
Azimuth ul ped4
Azinuth of drill drift
Magretie ficld strenghth Ll
gabbro
^ fsctor in satura:ion cqustion Neuter intrde
hrnu k file mark
Res resrwir volune fnctor
Bcrtrile
Rorehole fhuid
Borehrle fluid type
Borehole hale pressure
Bcrehole status
Bortcm hole temperature
Acoustic amplitude data
hight ratc acouxlic anrpliludc dulaingh rule avoustie Lraveltine dataAc rlic truvrltime dalh
Fr rel:ule leleviewe!
bonl index
Basic infomatron tape
Eit size
bulk medulus
ail reserroir volunie factorHot:om
Liu Ying Table 2 (well measurement method) No.
SY/T 5254—2000
Table 1 (continued)
Ningwen name
Bubble point pressure
Drilling fluid mineralization
Back one file record
Input buried area
Sand production index
Total volume of well limit
Content of bound water in clay
Minimum value of bound water content in clay
Maximum value of bound water content in clay
Content of bound water in mud layer
Mark of RT obtained by conductivity
Content of the first mineral
X-axis skeleton value of the first mineral
The first Y-axis skeleton value of a mineral
Second mineral content
X-axis skeleton value of the second mineral
Y-axis skeleton value of the second mineral
Third mineral content
X-axis skeleton value of the second mineral
Y-axis skeleton value of the third mineral
Fourth mineral content
X-axis skeleton value of the fourth mineral
Y-axis skeleton value of the fourth mineral
Well diameter between 1,3 plates
Well diameter between 2,4 plates
Well diameter difference
Input diameter value
English name
Bubble poinl prussure
Poreheole flusd salinity
back one file record
input buffer
Output buffer
sand production index
total borehole volume
Boundary water content in cleyMinimum boundary water content inclay
Maximum boundary water sontenl itclay
Boundary wa'er content in shalelag to tuse COND erived RT
Selected firs: matrix mineral conten.X valie of fiist matrix mitralY velue of first matrix mineralSelected second matrix mineral con-tcnt
of third matrix minmmlY value cf tlhird matnx nineralSelected fuurlh imtrik mineral ul-tent
[Test
Merge method! No.
Scale value
SY/T 5254-2000
Table 1 (continued)
Chinese name
Lhe raria of cetiull ux charge to inetexhydrogen
IL. -Deep conductivity
II,-Mediurm conductvity
clay content
out - tif for elay
Dispersed clay wuntent
Laminalerl clay content
Minimum value of clay
Maximum value cf clay
Struc:ured clay content
CMR free fluid porosity
Combinable magnctic rewonanice Logging tool
CMR poros:ty
a fleg for eclcetiag VEU
Campxnanted neutron log
crthon oxyhen nti?
ecal Iund
cut off foar xal
carlorr oxygen ratis m.uimumAmerican title
Catibreted valua.
Carbon accumulation
Calcium-silicon ratio
Cement embedded logging
Casing push positioning
Corrected carbon-oxygen ratio
Corrected calcium-silicon ratio
Cation exchange capacity
Cement bond logging
Calculation of the reservoir
Accumulated hydrocarbon disk
Degree of pressure matching in echo
Ratio of cation exchange capacity (CEC) to oxygen index (H1)
Deep induction detection conductivity
Medium induction detection conductivity Conductivity
Clay content
Clay cutoff value
Dispersed clay content
Layered clay contentwww.bzxz.net
Minimum value of clay
Maximum value of clay
Main structural clay content
CMR self-flowing fluid porosity
Combined nuclear magnetic resonance analyzer
CMR porosity
Selected neutron curve mark
Compensated neutron side well
Carbon-oxygen ratio
Coal cutoff value
Minimum magnetic-oxygen ratio
Volume of carbor!
Calciun silicon ratio
Cement bond logging
Cesing collar bocator
Lorrected C
Correclel CA/SI
cation exchange capeacity
tement. tap
ronpulted gamma my
cunulntive: hydrocarbon weightMRIL. the gccxiness uf fit of each e- cho data packet
Corresponding Table 2 (Measurement
Method) No.
SY/T 52542000
Table 1 (continued)
Document name
Carbon-oxygen ratio extreme value
Electrical conductivity obtained by deep induction or deep conductivity rise
Magnetic oxygen ratio line value
Carbon-oxygen ratio waterline value
Compacting correction factor
Computer processing and analysis
Readings per second
Corrected silicon-calcium ratio
Clay density
Clay density maximum value
Clay density minimum value
Carbon-oxygen ratio of oil-water layer Difference
Carbon (coal) density
Metric depth
Density logging
Current input depth
Current output depth
Well inclination
Fluid thickness
Decimal mark
Grain density
Seemingly granular
Soil grain density at the station
Minimum formation grain density
Residual light density
Invasion zone diameter
Gabbro
Double reservoir should be measured
English name
carbon oxygen ratio maximumConductivity from deep induction logor deep tesistivity log
value of apperent oil line frcm C/OCore
vale cd appahil waler lire [mmn CA0Campection correction coefficientCemruter pmcessed interpretationooumnts per seoond
Corroeted SICA
Density o: dlay
Maxinmnt lersi:y af iday
Minimum density of clay
Difference hetwen water And oil in.CrD
Density of carton
Degree
depth in metric system
Lensity log
Current input depth||tt| (culpuil tdepth
Deviation
fluid density
Decirual ag
grain density
Apparent grain density
grain density of clay
Minirrum of grain dkensity
log
corresponding to table 2 (measurement
well ancient method) number
DIPANG
DIPDIR
SY/T 5254-2000
Table 1 (continued)
Chinese name
Micro resistivity curve of angle logging
Micro resistivity curve of dip logging 2
Micro resistivity curve of inertial angle logging 3
Micro resistivity curve of dip logging 4
Dipping angle of formation
Direction of formation subsidence
Effective lateral measurement
Volume of white cloud
Volume density value
Degree value of mud
Movable oil
Short source distance acoustic wave time difference
Shear wave time difference of lower dipole mode
Shear wave time difference of upper dipole mode||tt ||P-wave time difference of P-wave and S-wave method
S-wave time difference of P-wave method
Long source distance acoustic wave time difference
Stoneley wave time difference
Electromagnetic wave attenuation (curve)
End depth of current well section
Amplitude of noise in echo of frequency 1
Phase of noise in echo of frequency 1
Amplitude of sound in echo of frequency 2
Phase of sound in echo of frequency 2
Bottom depth
Electromagnetic wave logging gap
Electromagnetic wave logging resistivity
Effective water content
English name
lip lcg micro resistivity curve 1dip log micero resistivity curve 2dip lug miero rwistivity curve 3dip log micm resistivity murve: 4lip angle
dip directicm
d-ial laterolng
Lolomite volume
bulk density correction
Lensity response in shale
Movability oil
Differer.tial temperature
ddta - T
cHin - T slka- It,wer dile
Lelra - T shear upper dipolc wave
EPT attcnuation
Ending depth of current intervalMRil, vector uplitule ul itnter ectwtise f Iregl
MRIL phase of inter echo noise ofIregl
MRIl. vector amplitude af inter echenoise :sf frrg2
MRII. phare nf in:er echo ttse offreg2
Hot om cf well
Ef pornity.| |tt | 5254-2000
Table 1 (continued)
Medium ring
Water content of flushing zone obtained by electromagnetic wave measurement
Saturation
Effective water saturation
Number of basic echoes
Formation factors
Visual formation factors
Formation internal elements derived from compensation
Formation factors derived from intersection porosity
Formation factors derived from density logging
Compensated formation density measurement
Minimum value of fluid density
Maximum value of fluid density
Volume density
Number of sampling points for each record
Previous Enter this item mark
Gas content
Cola crack index
Fracture identification logging
Full-bore formation microresistivity scanning imaging
Acoustic visual pool layer factor
Lamination of pure basement rock interlayers in argillaceous sandstone
Forward item Previous record
Gas content
Flush zone pool layer factor
MRII. Echo amplitude gain
Combined plate gain
Index for calculating mud content (mark)
The maximum logging curve reflecting the mud content
The minimum logging curve reflecting the exhaustion of fast mixed materials
English name
SXO from EPT
Effective wetet saturation
MRIL experiment numbe-
Furma icn lacior
Apparcnt formation factcr
Fona.icn [arlu from CNL
Fornaricn fartcr frcm cross plotporusity
Formaicn fartor from DEN
Compersated fonnation density kgFluid density minimun
Fluid density naximurn
Fluid density
Number of samples per recordForward fie mark
Frartional was content
Frnetu-abil ty index
Fractue ilenuficalkr. lug
Fullbore formation microimagerSonic apparen: fornatior faetorFamaien faor of snnd liuninae itishay sand
Farward one file record
Frarticnal water conten?
Fcrmarion faetor in flushec zoneMRIT. average aryplituxe
Compcsitc pad gain code
Fxnent (fley) fiu St I czl.ilaticnMaxinrum valuc of shale indieacorM:riurn value e:f shale indier:icr corresponding to Table 2 (measurement
merger method) number
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