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600 | quantitative expression on a particular time scale | point on time scale | 263 | 13 |
601 | person, who has written the document | compiler | 264 | 7 |
602 | control reader | control readed | 265 | 7 |
603 | publisher | published by | 266 | 7 |
604 | version to identify the document | identify the document | 267 | 7 |
605 | company name | company | 268 | 7 |
606 | number - following suppliers | number - suppliers | 269 | 31 |
607 | total head at outlet area of the pump, corresponding to the sum of the height, pressure head and velocity head | total head at the pump outlet area | 270 | 19 |
608 | Nominal flow at the pump outlet port divided by the inlet area of the pump | mean nominal speed at the outlet | 271 | 19 |
609 | height of the centre of the pump outlet connection | outlet connection height | 272 | 19 |
610 | Result of dividing the nominal flow at the pump inlet port divided by the pump inlet area | mean nominal speed at the inlet | 273 | 19 |
611 | Pressure at the entry for the operating conditions at the warranty point | nominal inlet pressure | 274 | 19 |
612 | height of the inlet connection center of the pump | inlet connection height | 275 | 19 |
613 | Nominal size for components in a pipline system | nozzle/pipe nominal size | 276 | 7 |
614 | Degree of protection that an enclosure or housing provides | type of enclosure | 277 | 7 |
615 | Ratio of the active power to the apparent power | performance factor | 278 | 37 |
616 | torque that is transferable by the operating medium | turning moment at rated speed | 279 | 19 |
617 | The torque that can be transmitted by the equipment | Torque at rated speed (drive) | 279 | 19 |
618 | the transmittable torque (drive) | Torque at nominal speed (drive) | 279 | 19 |
619 | lowest value of inlet pressure for the functional suitability of the pump or pump part based on the materials used. | Min permissible pressure of inlet | 280 | 19 |
620 | free cross-section of the outlet connection of the pump | Outlet section of the pump | 281 | 19 |
621 | port asset id | carrier identification | 282 | 1 |
622 | Direction of port | port direction | 283 | 1 |
623 | Category describing the port type | category | 284 | 1 |
624 | pumps which are redundant within the pump system | identification of redundant pump id | 285 | 1 |
625 | Role of a pump within multi-pump management | role of the pump | 286 | 1 |
626 | pump identification within pump system | Collective pump IDs | 287 | 1 |
627 | current operation mode of multi pump | mode of operation | 288 | 1 |
628 | max. number of pumps in operation. The difference between NumPumps and MaxNumPumpsOp identifies the redundant pumps | maximum operating pumps | 289 | 31 |
629 | Time for the next pump replacement relative to the ExchangeTime, if the user-specific pump change mode is activated. | Replacement time difference | 290 | 13 |
630 | Absolute time for the next pump replacement, if the operator-specific pump change mode is activated. | Interchange time | 291 | 13 |
631 | replacement mode of the pump | Replacement mode | 292 | 1 |
632 | Proportion of operation time of different pumps of the pump system in addition to the operation mode | Distribution method | 293 | 1 |
633 | priority (ascending) of the pumps in the additional operation mode | priority of distribution | 294 | 1 |
634 | count | count of pumps | 295 | 31 |
635 | Measured flow rate in the pump outlet nozzle divided by the outlet cross-section of the pump | mean speed in the outlet | 296 | 19 |
636 | Outlet pressure of the pump in the guarantee point at the rated flow rate, rated speed and rated inlet pressure, if pump is a centrifugal pump | rated discharge pressure | 297 | 19 |
637 | Interval time of stall protection if stall protection is operator specific. The time for the next start-up of the pumps results from the sum of the blocking protection time and the time interval for the blocking protection | time interval for blocking protection | 298 | 13 |
638 | absolute time of the blocking protection if stall protection is operator specific. The time for the next start-up of the pumps results from the sum of the blocking protection time and the time interval for the blocking protection | pump blocking protection time | 299 | 13 |
639 | Current value of discrete input unit | discrete input | 300 | 13 |
640 | Current value of discrete output unit | discrete output | 301 | 13 |
641 | error value, which descripes the error property | error message | 302 | 1 |
642 | Total number of state transitions from off to on | on off status measurement | 303 | 31 |
643 | Setpoint for the operating mode of the pump | set operation mode | 304 | 1 |
644 | Setpoint of the control mode of the pump | set control mode | 305 | 1 |
645 | current status of the element | Trait Status | 306 | 13 |
646 | enables the surgery | On or off | 307 | 13 |
647 | the value to which the controlled variable is to be brought | reference variable | 308 | 19 |
648 | Output variable of the control device, which is also an input variable of the controlled system | regulating variable | 309 | 1 |
649 | the variable resulting from the measurement of the controlled variable, which is fed back to the comparison point | measured value of the control loop | 310 | 19 |
650 | In control engineering, determines the period of time between the input of the input signal and the arrival of the output signal of a controlled system | dead time | 311 | 19 |
651 | the ratio of the controlled variable change x to the manipulated variable change y for the stable state | proportional factor | 312 | 1 |
652 | Identification of the type and extent of how humans as operators intervene in a control system | operating mode | 313 | 1 |
653 | The integral coefficient is the factor by which the time integral over an input signal is multiplied | integral factor | 314 | 1 |
654 | Quantity of variable which is influenced by the control | final messured value | 315 | 19 |
655 | the factor by which the time derivative of the input signal is multiplied | differential coefficient | 316 | 1 |
656 | the input variable of the actuator (actuating device) and controls the actuator according to the control difference | controller output variable | 317 | 19 |
657 | the variable to be maintained at a given constant or variable value | controlled parameter | 318 | 19 |
658 | Difference between reference variable and feedback variable | difference variable | 319 | 19 |
659 | Variable variable that is not influenced by the regulation or control in question, which is supplied to the control loop or the control chain from outside and which the task variable is to follow in a predetermined relationship | target variable | 320 | 19 |
660 | static pressure (absolute) of the discharged mixture immediately downstream of the pressure port | counter pressure | 321 | 13 |
661 | Temperature of the medium used for cooling | Coolant temperature (flow) | 322 | 19 |
662 | temperature of the coolant medium | Refrigerant temperature (flow) | 322 | 19 |
663 | Measured rate of flow passing through the spiral housing outlet divided by the cross-section of the spiral housing outlet. | average velocity at throat | 323 | 19 |
664 | power (measured) transferred to the water pump by its driver | Pump power demand | 324 | 19 |
665 | Difference of the absolute static energy level above the energy level of the vapor pressure at the associated material temperature, referred to the (NPSH) reference plane. | net positive suction head | 325 | 19 |
666 | Difference of the total energy head at the outlet side of the pump to the total energy head at the inlet side of the pump | Total energy head difference of the pump | 326 | 19 |
667 | measured difference between the instantaneous value of the pressure and the static pressure | sound press | 327 | 19 |
668 | determined Integral of the product of the sound pressure p and the component of the particle velocity un, which is perpendicular to a surface at a point of this surface, over this surface | sound power | 328 | 19 |
669 | Integral of the sound power p over a specified time interval of duration t | Acoustic energy | 329 | 19 |
670 | Measured residual force acting perpendicular to the shaft line and derived from hydraulic forces | radial load of pump shaft | 330 | 19 |
671 | measurement of the temperatur of the pump | temperature of pump | 331 | 19 |
672 | Measured pump temperature | pump temp | 331 | 19 |
673 | Measured leakage flow rate coming from the shaft seals to the outside | leakage flow | 332 | 19 |
674 | Measured clearance flow between pump casing and impeller | cl flow | 333 | 19 |
675 | determined loss of power due to leakage currents | leakage power loss | 334 | 19 |
676 | Mesurement of the position of the axial rotor in the bearing | axial rotor pos | 335 | 37 |
677 | residual axial thrust measurement from hydraulic and mechanical causes acting on the slider | axial pump rotor load | 336 | 19 |
678 | ten times the logarithm to the base 10 of the ratio of the sound power of a source W to a reference value W0 expressed in decibels | acoustic power level | 337 | 13 |
679 | Ten times the logarithm to the base 10 of the ratio of the sound power of a source P to a reference value P0 expressed in decibels | acoustic power level | 337 | 13 |
680 | ten times the logarithm to the base 10 of the ratio of the sound power radiated by the sound source under test to a reference sound power expressed in decibels (dB) | acoustic power level | 337 | 13 |
681 | Ten times the logarithm to the base 10 of the ratio of the sound power radiated by the source under test to the reference sound power. It is expressed in decibels. | acoustic power level | 337 | 13 |
682 | Logarithmic measure of the sound power generated by a source as determined using the method given in this part of ISO 9614 | acoustic power level | 337 | 13 |
683 | Ten times the logarithm to the base 10 of the ratio of a given sound power to the reference sound power in decibels. | acoustic power level | 337 | 13 |
684 | Ratio of the sound power of a source, p, ten times the logarithm to the base 10, to a reference value, p0, in decibels | sound output lvl | 337 | 13 |
685 | pressure of the lubrication oil of the lubrication system (measurement) | pressure of lubricating oil | 338 | 19 |
686 | consumption of the lubrication oil of the lubrication system (measurement) | consumption of lubrication oil | 339 | 19 |
687 | measured filling level | Fill level measurement | 340 | 19 |
688 | share of active maintenance in preventive maintenance | time of active prev maint | 341 | 19 |
689 | Part of the maintenance time during which preventive maintenance is performed on an object, including technical, logistical and internal administrative delays. | Time of preventive maintenance | 342 | 19 |
690 | time share of preventive maintenance in the maintenance work | Preventive maintenance period | 342 | 19 |
691 | describes the maintainability of an object if maintenance measures and logistical support are available | contained maintainability | 343 | 19 |
692 | Probability of error-free operation under standard conditions | norm reliability | 344 | 19 |
693 | Time span from the time of failure to recovery | Restoration time | 345 | 19 |
694 | describes the time in standby mode | time in sleep mode | 346 | 19 |
695 | mean time needed for restauration | mean restoration time | 347 | 19 |
696 | the duration in which an object is in an external disabled state | time of external disturbance | 348 | 19 |
697 | average duration of an failure | avg downtime | 349 | 19 |
698 | expected delivery while normal operation | Normal flow rate | 350 | 19 |
699 | Flow rate to be expected in normal operation | normal flow rate | 350 | 19 |
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