did
int64 0
1.04k
| query
stringlengths 5
943
| name
stringlengths 1
71
| duplicate_id
int64 0
671
| metalabel
int64 1
37
|
|---|---|---|---|---|
300 |
Height of the zero or centre position of the outlet manometer
|
Height of the pressure gauge at the outlet
| 73 | 19 |
301 |
Height of the zero or centre position of the inlet manometer
|
Height of the pressure gauge at the inlet
| 74 | 19 |
302 |
Ratio of shear stress to shear velocity acting in a fluid in relation to a plane shear motion
|
dynamic viscosity
| 75 | 19 |
303 |
this signal provides the kinematic viscosity
|
kinematicviscosity
| 76 | 19 |
304 |
measure for the friction forces of a fluid divided by the fluid density
|
kin viscosity
| 76 | 19 |
305 |
Volumic mass at a stated temperature
|
den
| 77 | 19 |
306 |
Average absolute atmospheric pressure measured at installation site
|
atmos press
| 78 | 19 |
307 |
Differential pressure at working conditions in the warranty point
|
design diff press
| 79 | 19 |
308 |
highest dynamic pressure that the seal has to resist
|
max_sealing_pressure
| 80 | 19 |
309 |
smallest flow rate at which the pump can operate without exceeding the noise and vibration limits specified in the order
|
Min perm stable flow rate
| 81 | 19 |
310 |
content of gas in the liquid to be pumped
|
gas cont
| 82 | 19 |
311 |
bus system which is physically distinct for different fields of application
|
field bus
| 83 | 1 |
312 |
ratio: volume of solid to volume of medium
|
sol vol fraction
| 84 | 19 |
313 |
actual total head of the pump
|
total head pump
| 85 | 19 |
314 |
Determined difference between the total head at the outlet side of the pump and the total head at the inlet side of the pump
|
total head of the pump
| 85 | 19 |
315 |
Difference: NPSH reference plane and reference plane
|
height (npsh datum plane)
| 86 | 19 |
316 |
minimum existing (NPSH) value in the inlet cross-section of the pump, which is determined by the system conditions for a fixed flow rate
|
npsh avail
| 87 | 19 |
317 |
Design flow rate in the inlet cross-section of the system divided by the inlet cross-section of the system
|
Average design speed in the plant inlet
| 88 | 19 |
318 |
Design flow rate in the outlet cross-section of the system divided by the outlet cross-section of the system
|
Average design speed at the plant outlet
| 89 | 19 |
319 |
The mechanical power absorbed by the pump shaft or coupling according to the design conditions.
|
Pump design power demand
| 90 | 19 |
320 |
temperatur range in which a piece of equipment can be used without a serious change in certain guaranteed properties
|
temperature range (max)
| 91 | 19 |
321 |
largest value of the pump efficiency related to given operating conditions
|
best eff (pump)
| 92 | 19 |
322 |
Lower limit value of the temperature application range of a piece of equipment. The temperature application range of equipment describes the temperature range in which it can be used without serious changes to certain guaranteed properties.
|
temperature range (min)
| 93 | 19 |
323 |
time quantity of use
|
Service life
| 94 | 13 |
324 |
an Anglo-American unit in mechanics for the rotational speed, for example of a rotary axis
|
RPM
| 95 | 19 |
325 |
indicates the number of revolutions in a time period related to this time period
|
speed
| 95 | 19 |
326 |
Revolutions per minute (abbreviated rpm, RPM, rev/min, r/min, or with the notation min ) is the number of turns in one minute. It is a unit of rotational speed or the frequency of rotation around a fixed axis.
|
rotation frequency
| 95 | 19 |
327 |
actual rounds per minute to an axis
|
rounds per minute
| 95 | 19 |
328 |
Speed corresponding to the rated data of the motor used.
|
Rated speed
| 95 | 19 |
329 |
indicates how many revolutions a rotary movement has
|
orbital freuquency
| 95 | 19 |
330 |
indicates how many revolutions a rotary movement has
|
revolutions per minute
| 95 | 19 |
331 |
indicates how many revolutions a rotary movement has
|
rotations per minute
| 95 | 19 |
332 |
Time period, starting from the first use and ending with the time when the limit state is reached.
|
Service life
| 96 | 13 |
333 |
Period of time from the commissioning of a plant, part of a plant, a component or a line system
|
service life
| 97 | 19 |
334 |
the time after commissioning
|
operation time
| 97 | 19 |
335 |
Length of time that maintenance is performed on an object, including technical, logistical, and internal administrative delays
|
time for maintenance
| 98 | 19 |
336 |
time required for maintenance
|
maintenance duration
| 98 | 19 |
337 |
Part of the maintenance time during which active maintenance is carried out on an object
|
time for active maintenace
| 99 | 19 |
338 |
Period of time in which an object is stationary
|
downtime
| 100 | 19 |
339 |
During this time, the object is in standstill mode
|
standstill time
| 100 | 19 |
340 |
accumulated span of uptime from the object's initial startup or from recovery to failure
|
uptime to failure
| 101 | 19 |
341 |
Range of uptime from initial start-up to failure
|
operation time to failure
| 101 | 19 |
342 |
Total uptime of an object between two consecutive failures
|
operation time between failures
| 102 | 19 |
343 |
the time between two consecutive failures
|
Uptime between failures
| 102 | 19 |
344 |
Number of failures of an object in a given scan divided by the scan
|
average failure rate
| 103 | 19 |
345 |
the result of the division from the number of failures in a given period through the period
|
breakdown rate
| 103 | 19 |
346 |
Ability of an object, under given conditions and when required to be in a state, to perform a required function
|
avbl
| 104 | 19 |
347 |
capabilty to perform the function under certain circumstances when required
|
functionality
| 104 | 19 |
348 |
Percentage that the suitability of an object is in a state ready to perform when required
|
current Availability
| 105 | 19 |
349 |
Probability of an object's suitability when required to be in a working condition under given conditions at a given time and assuming the necessary external resources are provided
|
immediate availability
| 105 | 19 |
350 |
proportion of actual production to required production
|
production availability
| 106 | 19 |
351 |
ratio of actual production to planned production in a given period
|
availabilty related to production
| 106 | 19 |
352 |
time-related proportion within a given period during which an object was able to perform when required
|
Time-related availability
| 107 | 19 |
353 |
Percentage in a period where the object has fulfilled the function
|
availability in relation to time
| 107 | 19 |
354 |
reliability that is expected under normal operating and maintenance conditions
|
anticipated reliability
| 108 | 19 |
355 |
Reliability of an object, which is determined by design planning and manufacture under expected operating and maintenance conditions
|
Reliability that's expected
| 108 | 19 |
356 |
actual reliability of an object, taking into account the modes of operation, operating conditions and any preventive maintenance measures carried out
|
reliability of operation
| 109 | 19 |
357 |
describes the reliability of an object in relation to operation and maintenance measures
|
operational reliability
| 109 | 19 |
358 |
Ability of an object to fulfill a required function under given conditions of use and maintenance until the end of its service life
|
durability
| 110 | 19 |
359 |
the durability describes how well the object fulfills the required function up to the end of its useful life
|
long-lastingness
| 110 | 19 |
360 |
Part of the maintenance time during which active corrective maintenance is performed on an object, including technical, logistical and internal administrative delays
|
corrective service time
| 111 | 19 |
361 |
the active corrective maintenance time on an object including technical, logistical and internal administrative delays
|
time for corrective maintennace
| 111 | 19 |
362 |
number of breakdowns of an object
|
number of breakdowns
| 112 | 31 |
363 |
number of component breakdowns
|
breakdown number
| 112 | 31 |
364 |
potential or actual harmful consequences of a failure or error
|
severity of an outage
| 113 | 1 |
365 |
Amount of loss, harm or damage caused by error or failure
|
severity of failure
| 113 | 1 |
366 |
This attribute indicates the date of installation or commissioning of the device.
|
inst date
| 114 | 13 |
367 |
This attribute identifies the date when the device was last inspected.
|
date of last inspection
| 115 | 13 |
368 |
This attribute identifies the date when the device is scheduled for the next inspection.
|
date of next inspection
| 116 | 13 |
369 |
This attribute identifies the date when the device was last serviced.
|
date of last service
| 117 | 13 |
370 |
This attribute identifies the date when the device is scheduled for the next servicing.
|
date of next service
| 118 | 13 |
371 |
pump power requirement at the point of best efficiency
|
optimum power input of pump
| 119 | 19 |
372 |
number of rotations or movements made in a given time (measurement)
|
speed
| 120 | 19 |
373 |
Measured pressure in the outlet cross section of the system
|
Plant outlet pressure
| 121 | 19 |
374 |
Measured pressure in the inlet cross section of the system
|
System inlet pressure
| 122 | 19 |
375 |
Determined (actual) gain in total pressure between the pump inlet and pump outlet
|
pressure difference
| 123 | 19 |
376 |
Measured internal temperature of component fluid
|
fluid temp
| 124 | 19 |
377 |
Temperation of the pump-bearing
|
temp_bearing
| 125 | 19 |
378 |
temperature measurement of the housing
|
Case temperature
| 126 | 19 |
379 |
temperature of the electronics (measurement)
|
temperature of the electronics
| 127 | 19 |
380 |
Mass flow rate of a fluid in a given unit of time through an equipment
|
Mass flow rate
| 128 | 37 |
381 |
total head at the outlet of the plant
|
plant outlet total head
| 129 | 19 |
382 |
this signal provides the total head at the inlet of the installation
|
installationinlethead
| 130 | 19 |
383 |
total head at the inlet of the plant
|
plant inlet total head
| 130 | 19 |
384 |
difference between installation outlet and inlet head
|
installationtotalhead
| 131 | 19 |
385 |
Measured mechanical power transferred to the fluid as it passes through the pump
|
Pump delivery rate
| 132 | 19 |
386 |
Measured mechanical power transferred to the fluid by passing the pump
|
pump output power
| 132 | 19 |
387 |
Measured density of the fluid
|
d
| 133 | 19 |
388 |
actual humidity that is measured in the surrounding of the pump
|
amb_hum
| 134 | 19 |
389 |
summed up number of starts
|
Quantity starts
| 135 | 31 |
390 |
accumulated number of starts
|
count of starts
| 135 | 31 |
391 |
declaration of confirmity (publicy aaccessible)
|
Declaration of compliance
| 136 | 13 |
392 |
the actual sound energy level
|
soundenergylevel
| 137 | 19 |
393 |
ten times the logarithm to the base 10 of the ratio of the sound energy J to a reference value J0 expressed in decibels
|
acoustic energy level
| 137 | 19 |
394 |
Sound Energy Level is the logarithmic ratio of the sound energy to the reference sound energy.
|
acoustic energy level
| 137 | 19 |
395 |
Ratio of the actual pump delivery flow to the displaced volume per unit of time
|
volumetrical efficency
| 138 | 19 |
396 |
determined ratio of the conveying capacity P_u to the power requirement P under certain working conditions
|
pump eff
| 139 | 19 |
397 |
determined shore of the delivery rate P_u to the power demand P under certain working conditions
|
pump efficiency
| 139 | 19 |
398 |
pump power output divided by the pump power input
|
efficiency of the pump
| 139 | 19 |
399 |
actual mechanical efficiency
|
mechanicalefficiency
| 140 | 19 |
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