JoBeer/eclassQuery · Datasets at Hugging Face

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

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