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DN (nominal width) is an alphanumeric description of the size for components in a pipe system as a reference, in contrast to components that are defined by an external diameter or by a thread size. It comprises the letters DN followed by dimensionless whole number, which is in indirect correlation with physical size of the bore or external diameter of the connections (measured in millimeters). NOTE 1: the nominal width DN cannot be used for measurements or calculations. NOTE 2: Some older international norms describe the nominal width as a nominal diameter, but both terms are identical for this norm. NOTE 3: the nominal width is defined is alignment with ISO 6708. in accordance with EN 60534-1

Nominal width of the muffs, A1

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0173-1#09-AAN941#001

DN (nominal width) is an alphanumeric description of the size for components in a pipe system as a reference, in contrast to components that are defined by an external diameter or by a thread size. It comprises the letters DN followed by dimensionless whole number, which is in indirect correlation with physical size of the bore or external diameter of the connections (measured in millimeters). NOTE 1: the nominal width DN cannot be used for measurements or calculations. NOTE 2: Some older international norms describe the nominal width as a nominal diameter, but both terms are identical for this norm. NOTE 3: the nominal width is defined is alignment with ISO 6708. in accordance with EN 60534-1

Nominal width of the muffs, A2

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0173-1#09-AAN942#001

classifies the scope of the protection of the electromagnetic device against direct contact, against insertion of hard foreign objects and/or infiltration through water

Protection type class of the electric motor

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0173-1#02-AAO885#002

permanent operation, short-term operation or periodic operation characterized by one of more loads and which remains unchanged during a certain period, or, in the case of non-periodic operation, where the load and speed generally change within the permissible operating range

Operation type time sequence of the drive

STRING_TRANSLATABLE

0173-1#02-AAD399#006

DUNS-no., supplier number, or other number as identifier of an offeror or supplier of the identification

supplier of the identifier

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0173-1#02-AAP796#004

standard being in fixed relation to the describing property

reference standard

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0173-1#02-AAP926#002

standard to which the code of a material refers

reference standard for material of the housing

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0173-1#02-AAQ132#003

the pressure whose value is equal to the algebraic difference between the absolute pressure and the atmospheric pressure. To this end, the overpressure for a pressure room can, for example, be negative with underpressure or under vacuum

Max. overpressure of the shaft seal

REAL_MEASURE

0173-1#02-BAI188#007

The operating overpressure PS1+ is the maximum value of the operating overpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS1

Max. permissible overpressure PS1+ at TS1, room1

REAL_MEASURE

0173-1#02-BAI191#008

The operating underpressure PS2- is the maximum value of the operating underpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS2

Max. permissible underpressure PS2- at TS2, room1

REAL_MEASURE

0173-1#02-BAI210#008

The operating underpressure PS2- is the maximum value of the operating underpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS2

Max. permissible underpressure PS2- at TS2, room2

REAL_MEASURE

0173-1#02-BAI211#008

The operating underpressure PS- is the maximum value of the operating underpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS1

Max. permissible underpressure PS1- at TS1, room1

REAL_MEASURE

0173-1#02-BAI205#009

The operating underpressure PS- is the maximum value of the operating underpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS1

Max. permissible underpressure PS1- at TS1, room2

REAL_MEASURE

0173-1#02-BAI206#009

The operating overpressure PS2+ is the maximum value of the operating overpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS2

Max. permissible overpressure PS2+ at TS2, room1

REAL_MEASURE

0173-1#02-BAI196#008

The operating overpressure PS2+ is the maximum value of the operating overpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS2

Max. permissible overpressure PS2+ at TS2, room2

REAL_MEASURE

0173-1#02-BAI197#008

The operating overpressure PS1+ is the maximum value of the operating overpressure defined from a safety point of view by the manufacturer of the system for the various components in relation to the atmospheric pressure (1 bar) at the maximum permissible temperature TS1

Max. permissible overpressure PS1+ at TS1, room2

REAL_MEASURE

0173-1#02-BAI192#008

highest value of the outside diameter of the impeller for one certain pump case

maximum permissible outside diameter of the impeller

REAL_MEASURE

0173-1#02-BAJ138#008

smallest value of the outside diameter of a impeller for a certain pump case

minimum permissible outside diameter of the impeller

REAL_MEASURE

0173-1#02-BAJ139#008

absolute total inlet head above the head equivalent to the vapor pressure based on the NPSH at maximum rate of flow

NPSH at maximum feed flow

REAL_MEASURE

0173-1#02-BAJ151#009

absolute total inlet head above the head equivalent to the vapor pressure based on the NPSH at minimum rate of flow

NPSH at minimum feed flow

REAL_MEASURE

0173-1#02-BAJ152#009

minimum mass of the liquid at design temperature divided by its volume, when stating the density, the unit of density used, together with the temperature, shall be explicitly given, for example kilogram per cubicmeter or gramme per mililiter at t°C (see the note). the standard reference temperature for international trade in petroleum and its products is 15°C (see ISO 5024), but other reference temperatures may be required for legal metrology or other special purposes

minimum density at design temperature

REAL_MEASURE

0173-1#02-BAJ109#009

maximum value of the mass of the liquid at design temperature divided by its volume, when stating the density, the unit of density used, together with the temperature, shall be explicitly given, for example kilogram per cubicmeter or gramme per mililiter at t°C (see the note), the standard reference temperature for international trade in petroleum and its products is 15°C (see ISO 5024), but other reference temperatures may be required for legal metrology or other special purposes.

maximum density at design temperature

REAL_MEASURE

0173-1#02-BAJ110#009

Quotient of the number of revolutions and the corresponding time span

Max. speed of the drive

0173-1#02-BAH609#005

Quotient of the number of revolutions and the corresponding time span

Min. speed of the drive

0173-1#02-BAH608#005

Speed set at the measurement voltage (or measurement output) and measurement torque

Measurement speed of the electric motor

0173-1#02-AAC880#006

Quotient of the number of revolutions and the corresponding time span

Nominal speed of the drive

0173-1#02-AAC881#006

maximum value of ratio between the applied shear stress and rate of shear of a liquid at design temperature it is sometimes referred to as the coefficient of dynamic viscosity, or simply viscosity, thus dynamic viscosity is a measure of the resistance to flow or deformation of a liquid

maximum dynamic viscosity at design temperature

REAL_MEASURE

0173-1#02-BAJ168#009

minimum value of ratio between the applied shear stress and rate of shear of a liquid at concept temperature it is sometimes referred to as the coefficient of dynamic viscosity, or simply viscosity. Thus dynamic viscosity is a measure of the resistance to flow or deformation of a liquid

minimum dynamic viscosity at design temperature

REAL_MEASURE

0173-1#02-BAJ169#009

The output measured by the manufacturer for the operating medium at defined operating conditions

Measurement performance of the electric motor

REAL_MEASURE

0173-1#02-BAH734#003

smallest value of the mechanical power demand of the pump for any delivery flow under any permitted working conditions

minimum power requirement of the pump

REAL_MEASURE

0173-1#02-BAJ144#008

A voltage value given by the manufacturer resulting from measurement values determined under defined conditions and rules

Measurement tension of the electric motor

REAL_MEASURE

0173-1#02-BAH737#004

For a given operating resource, the lowest temperature, below which the temperature may not ever fall, of materials or measuring substances below which the resource cannot be operated without permanent changes in its characteristics

Min. work temperature

REAL_MEASURE

0173-1#02-BAA374#005

For a given operating resource, the greatest temperature, not ever to be exceeded, of materials or measuring substances above which the resource cannot be operated without permanent changes in its characteristics

Max. work temperature

REAL_MEASURE

0173-1#02-BAA373#005

The operating temperature TS1 is the maximum value of the operating temperature defined from a safety point of view by the manufacturer of the system for the various components. The temperature point TS1 is in correlation to the pressures PS1+ and PS1-

Max. permissible operating temperature at TS1, room1

REAL_MEASURE

0173-1#02-BAH749#007

The operating temperature TS1 is the maximum value of the operating temperature defined from a safety point of view by the manufacturer of the system for the various components. The temperature point TS1 is in correlation to the pressures PS1+ and PS1-

Max. permissible operating temperature at TS1, room2

REAL_MEASURE

0173-1#02-BAH750#007

The operating temperature TS2 is the maximum value of the operating temperature defined from a safety point of view by the manufacturer of the system for the various components. The temperature point TS2 is in correlation to the pressures PS2+ and PS2-

Min. permissible operating temperature at TS2, room1

REAL_MEASURE

0173-1#02-BAH754#006

The operating temperature TS2 is the maximum value of the operating temperature defined from a safety point of view by the manufacturer of the system for the various components. The temperature point TS2 is in correlation to the pressures PS2+ and PS2-

Min. permissible operating temperature at TS2, room2

REAL_MEASURE

0173-1#02-BAH755#006

Moment of inertia of its mass relating to the rotational axis

Moment of inertia of the drive

REAL_MEASURE

0173-1#02-BAI184#004

norm describing the material The material number is taken from this norm. Type and number of the norm with issue year and issue month must be given

Reference norm material of the shaft protection sleeve

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0173-1#02-AAQ116#002

the norm the material. The material number is taken from this norm. Type and number of the norm with issue year and issue month must be given

o

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0173-1#02-AAQ104#002

norm describing the material. The material number is taken from this norm. Type and number of the norm with issue year and issue month must be given

Reference norm material of the stator

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0173-1#02-AAQ167#002

norm describing the material. The material number is taken from this norm. Type and number of the norm with issue year and issue month must be given

Reference norm material of the travel wheel

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0173-1#02-AAQ145#002

The norm in fixed relation to the feature being described. This defines the parameters that influence the contents of the correlated feature. Type and number of the norm with issue year and issue month must be given, e.g. DIN ISO 4711:YYYY-MM.

Reference norm material, pumping medium

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0173-1#02-AAQ046#002

The norm in fixed relation to the feature being described. This defines the parameters that influence the contents of the correlated feature. Type and number of the norm with issue year and issue month must be given, e.g. DIN ISO 4711:YYYY-MM.

Reference norm of the coating, room1

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0173-1#02-AAP937#002

The norm in fixed relation to the feature being described. This defines the parameters that influence the contents of the correlated feature. Type and number of the norm with issue year and issue month must be given, e.g. DIN ISO 4711:YYYY-MM.

Reference norm of the connection, muff A1

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0173-1#02-AAP995#002

The norm in fixed relation to the feature being described. This defines the parameters that influence the contents of the correlated feature. Type and number of the norm with issue year and issue month must be given, e.g. DIN ISO 4711:YYYY-MM.

Reference norm of the connection, muff A2

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0173-1#02-AAP996#002

document which describes the material of the containment shroud in form of an obligatorily recognized regulation

Reference norm of the containment shroud material

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0173-1#02-AAQ018#001

norm/stipulation describing the explosion protection. The explosion protection type, the device category, the temperature class as well as the device / explosion group are taken from this norm. The type and number of the norm/stipulation with issue year and issue month must be given

Reference norm of the explosion protection

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0173-1#02-AAQ007#001

standard to which the dynamic seal refers

reference standard for the dynamic seal

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0173-1#02-AAP946#002

norm/stipulation describing the explosion protection. The explosion protection type, the device category, the temperature class as well as the device / explosion group are taken from this norm. The type and number of the norm/stipulation with issue year and issue month must be given

Reference norm of the explosion protection of the electric motor

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0173-1#02-AAQ008#002

document which describes the material of the plain bearing bush in form of an obligatorily recognized regulation

Reference norm of the plain bearing bush material

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0173-1#02-AAQ012#001

document which describes the material of the secondary sealing element in form of an obligatorily recognized regulation

Reference norm of the secondary sealing element material

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0173-1#02-AAQ015#001

The norm in fixed relation to the feature being described. This defines the parameters that influence the contents of the correlated feature. Type and number of the norm with issue year and issue month must be given, e.g. DIN ISO 4711:YYYY-MM.

Reference norm of the static seal, housing

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0173-1#02-AAP976#002

document which describes the material of the statorpipe in form of an obligatorily recognized regulation

Reference norm of the statorpipe material

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0173-1#02-AAQ019#001

norm describing the protection type classes. Issue year and issue month must be given

Reference norm protection type of electric motor

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0173-1#02-AAQ042#002

Motion direction (rotating direction) in the case of rotation. NOTE: The rotational direction takes place in view of the targeted end. Anti-clockwise shaft rotation (left L) is described as positive and clockwise (right R ) as negative. Rotational direction-independence is described with (S)

Rotational direction of the drive

STRING_TRANSLATABLE

0173-1#02-AAD410#005

Information as to whether the pump unit is suitable for feeding gases and liquids and gas mixes and liquid mixes without additional external aids

Regenerative design

BOOLEAN

0173-1#02-AAC252#007

number of revolutions of the pump per unit of time

Rotation speed pump

0173-1#02-BAJ155#008

The specifying designation (type name, type code, abbreviated name, article number) for distinguishing by type and size or design (variant) of the used product/material

Type description

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0173-1#02-AAO945#001

translation i of a pair of gears or a multiple gear pair is the ratio of the angle speed wa (or the speed na) of the first driving wheel to that of the last driven wheel wb (or nb)

Transmission ratio of the transmission

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0173-1#02-AAO991#001

In the case of general measurement information, the minimum expansion of the material/object

Thickness of the coating, room1

REAL_MEASURE

0173-1#02-BAH945#005

The output provided by the machine directly to the coupling. Losses in transmission elements outside of the machine, such as gear transmissions and belt drives, are not included

Shaft performance for nominal speed, drive

REAL_MEASURE

0173-1#02-BAI261#004

Constructive design of sealing

Sealing type

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0173-1#02-AAQ204#005

additional information for the product name of the sealing to be able to distinguish - for a product family or for special design (variants) - the products from each other

Type description of the sealing

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0173-1#02-AAO946#001

Method with which the coating or classing is applied to the base material

Type of coating application, room 1

STRING_TRANSLATABLE

0173-1#02-AAD256#005

type for power attack

Type of drive

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0173-1#02-BAB716#005

The position of the main axle of the technical object in reference to the horizontal level. The normal methods are standing, lying or diagonal

Type of set-up

STRING_TRANSLATABLE

0173-1#02-AAD445#004

Method of sealing in pumps. We distinguish between dynamically sealed and hermetically sealed

Type of the seal

STRING_TRANSLATABLE

0173-1#02-BAI143#001

Year as completion date of object

Year of construction

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0173-1#02-AAP906#001

The maximum expansion of the object width-wise

width over all, base plate

REAL_MEASURE

0173-1#02-BAH927#006

maximum expansion of the object width-wise

overall width

REAL_MEASURE

0173-1#02-BAH926#006

volume of a fluid crossing the transverse plane of a flow path per unit of time

Volume flow of the sealing liquid

REAL_MEASURE

0173-1#02-BAJ164#006

Construction design of the filter element fixture

Design of the fixing

STRING_TRANSLATABLE

0173-1#02-BAI142#003

classification of a dynamic seal according to its mechanical construction

type of dynamic seal

STRING

0173-1#09-AAN944#001

Group of components with the same construction features and the same structure, which - due to similar manufacturing techniques - can be collated for construction approval testing and class conformity controls. They are generally allocated to a construction type. Note: in certain cases, components can be viewed from various construction type specifications as belonging to the same type and, therefore, can be collated for construction approval and class conformity controls

construction form of impeller

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0173-1#09-AAN945#001

information as to whether the object has installations capable of heating or cooling

heater/cooler

STRING

0173-1#09-AAN948#001

standard-based coding of materials of housing

material code of housing

STRING

0173-1#09-AAN952#001

motion direction (rotating direction) of the pumpe in the case of rotation seen from drive to shaft

rotational direction of the pump

STRING

0173-1#09-AAN949#001

position of the main axle of the technical object in reference to the horizontal level. The normal methods are standing, lying or diagonal

type of set-up

STRING

0173-1#09-AAN943#001

dimension of the shaft or shaft sleeve for which the mechanical seal is designed

diameter/dimensions of the mechanical seal

REAL_MEASURE

0173-1#02-ABF492#001

size of the impeller, which is provided as standard for the respective pump size by the manufacturer

diameter of nominal impeller

REAL_MEASURE

0173-1#02-ABF502#001

measure of the increase in the pumped liquid water on a pipe connected vertically to the pump when the flow rate is zero. related to the operation of the pump at 1,450 rpm with maximum impeller size

pump shut-off head for maximum impeller diameter at 1450/min

REAL_MEASURE

0173-1#02-ABF503#001

measure of the increase in the liquid to be pumped, water, on a pipe connected vertically to the pump when the flow rate is zero. related to the operation of the pump at 2,900 rpm with maximum impeller size

pump shut-off head for maximum impeller diameter at 2900/min

REAL_MEASURE

0173-1#02-ABF504#001

measure of the increase in the liquid to be pumped, water, on a pipe connected vertically to the pump when the flow rate is zero. related to the operation of the pump at 1,450 rpm with the current impeller size

pump shut-off head for actual impeller diameter at 1450/min

REAL_MEASURE

0173-1#02-ABF505#001

measure of the increase in the liquid to be pumped, water, on a pipe connected vertically to the pump when the flow rate is zero. related to the operation of the pump at 2,900 rpm with the current impeller size

pump shut-off head for actual impeller diameter at 2900/min

REAL_MEASURE

0173-1#02-ABF506#001

indicates the maximum working temperature that can be achieved when the pump is operated at maximum pressure

temperature at maximum pressure

REAL_MEASURE

0173-1#02-ABF507#001

indicates the maximum pressure that can be achieved when the pump is operated at maximum working temperature

pressure at maximum temperature

REAL_MEASURE

0173-1#02-ABF964#001

indication of the minimum flow rate at which the pump can still be operated without problems. related to pump operation at 2,900 rpm

minimum feed flow at 2900 / min

REAL_MEASURE

0173-1#02-ABF512#001

net positive suction head (NPSH) from flow rate at best efficiency point for actual impeller (indication of the minimum inlet pressure in meters required for the pump to deliver according to the QH curve. related to the optimum duty point at the current impeller diameter)

net positive suction head for Q opt at actual impeller size

REAL_MEASURE

0173-1#02-ABF513#001

standards-based seal coding system that uses letter or number combinations to describe the material composition of the mechanical seal pair

material pairing of the dynamic seal

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0173-1#02-ABF515#001

combination of letters and/or numbers created by the customer to uniquely identify the product. The ordering process is carried out by the customer under this code

order number of customer

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0173-1#02-ABF517#001

standard-based coding of the material of the can

material number of the can (outside)

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0173-1#09-AAN955#001

standard-based coding of the material of the plain bearing

material number of the plain bearing

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0173-1#09-AAN956#001

information about the manner in which clamps respectively the carrier of the supply voltage and / or signal voltage are put into effect data-, line- and / or fixationwise

type of connection system

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0173-1#09-AAC636#004

Are tangible objects of all kinds

Material

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0173-1#09-AAB766#009

extent of protection provided by an enclosure against access to hazardous parts, against ingress of solid foreign objects and/or ingress of water and verified by standardized test methods, expressed as a IP rating

degree of protection

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0173-1#09-AAB479#010

given energy efficiency class determined by a standard procedure (energy label classification)

Energy efficiency class

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0173-1#09-AAC147#010

document which describes the material of the can in form of an obligatorily recognized regulation

Reference norm of the can material

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0173-1#02-AAQ017#001

description, type name or article number of another product with which, or for which, the product/material can be used

Use for product

STRING_TRANSLATABLE

0173-1#02-BAF281#003

group of construction elements with the same construction features and the same construction for the transportation of media which are combined due to similar production techniques for the construction admittance examination and quality conformity controls

Construction type conveying element

STRING_TRANSLATABLE

0173-1#02-BAJ122#004