EN ISO 5198:1998
Current
The latest, up-to-date edition.
Centrifugal, mixed flow and axial pumps - Code for hydraulic performance tests - Precision class (ISO 5198:1987)
11-18-1998
0 Introduction
1 Scope
2 Field of application
3 References
Section one: General recommendations
4 Definitions and symbols
5 Specified duty
6 General requirements for tests
Section two: Measurement methods
7 Measurement of rate of flow
8 Measurement of head
9 Measurement of speed of rotation
10 Measurement of power input
11 Measurement of pump efficiency by the thermodynamic
method
12 Cavitation tests
Annexes
A Estimation and analysis of uncertainties
B Comparison of test results with specified duty
C Thermodynamic properties of water and assessment of the
accuracy of efficiency measurements by the thermodynamic
method
D Other cavitation tests
E Friction losses
Forms the first of a set dealing with tests of pumps and specifies precision class tests (former class A). Engineering class I and class II tests (former classes B and C) will be the subject of a further standard. Defines the terms and quantities that are used and specifies general requirements for tests. Does not specify constructional tolerances.
Committee |
CEN/TC 197
|
DocumentType |
Standard
|
PublisherName |
Comite Europeen de Normalisation
|
Status |
Current
|
Standards | Relationship |
ISO 5198:1987 | Identical |
NS EN ISO 5198 : 1ED 1999 | Identical |
UNI EN ISO 5198 : 2001 | Identical |
NBN EN ISO 5198 : 1999 | Similar to |
UNE-EN ISO 5198:2000 | Identical |
NF EN ISO 5198 : 1999 | Identical |
NEN EN ISO 5198 : 1998 | Identical |
BS EN ISO 5198:1999 | Identical |
I.S. EN ISO 5198:1999 | Identical |
PN EN ISO 5198 : 2002 | Identical |
SN EN ISO 5198 : 1999 | Identical |
DIN EN ISO 5198:1999-12 | Identical |
08/30165047 DC : DRAFT JUNE 2008 | BS EN ISO 9906 - ROTODYNAMIC PUMPS - HYDRAULIC PERFORMANCE ACCEPTANCE TESTS |
I.S. EN 16480:2016 | PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS |
UNE-EN 16480:2016 | Pumps - Minimum required efficiency of rotodynamic water pumps |
BS EN 13275:2000 | Cryogenic vessels. Pumps for cryogenic service |
EN 16480:2016 | Pumps - Minimum required efficiency of rotodynamic water pumps |
PREN 16480 : DRAFT 2017 | PUMPS - ROTODYNAMIC PUMPS - MINIMUM REQUIRED EFFICIENCY OF WATER PUMPS AND METHODS OF QUALIFICATION AND VERIFICATION |
DIN EN 16480:2017-07 | Pumps - Minimum required efficiency of rotodynamic water pumps |
BS EN 16480:2016 | Pumps. Minimum required efficiency of rotodynamic water pumps |
DIN EN 16480:2014-06 (Draft) | PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS |
17/30367211 DC : 0 | BS EN 16480 - PUMPS - ROTODYNAMIC PUMPS - MINIMUM REQUIRED EFFICIENCY OF WATER PUMPS AND METHODS OF QUALIFICATION AND VERIFICATION |
EN 13275:2000 | Cryogenic vessels - Pumps for cryogenic service |
ISO 3534:1977 | Statistics — Vocabulary and symbols |
ISO 2548:1973 | Centrifugal, mixed flow and axial pumps Code for acceptance tests Class C |
ISO 5168:2005 | Measurement of fluid flow — Procedures for the evaluation of uncertainties |
ISO 4373:2008 | Hydrometry Water level measuring devices |
ISO 2975-3:1976 | Measurement of water flow in closed conduits — Tracer methods — Part 3: Constant rate injection method using radioactive tracers |
ISO 555-3:1982 | Liquid flow measurement in open channels Dilution methods for measurement of steady flow Part 3: Constant rate injection method and integration method using radioactive tracers |
ISO 555-2:1987 | Liquid flow measurement in open channels Dilution methods for the measurement of steady flow Part 2: Integration method |
ISO 3354:2008 | Measurement of clean water flow in closed conduits — Velocity-area method using current-meters in full conduits and under regular flow conditions |
ISO 2975-7:1977 | Measurement of water flow in closed conduits — Tracer methods — Part 7: Transit time method using radioactive tracers |
ISO 2975-1:1974 | Measurement of water flow in closed conduits — Tracer methods — Part 1: General |
IEC 60193:1999 | Hydraulic turbines, storage pumps and pump-turbines - Model acceptance tests |
ISO 2975-6:1977 | Measurement of water flow in closed conduits — Tracer methods — Part 6: Transit time method using non-radioactive tracers |
IEC 60041:1991 | Field acceptance tests to determine the hydraulic performance of hydraulic turbines, storage pumps and pump-turbines |
ISO 5167:1980 | Measurement of fluid flow by means of orifice plates, nozzles and Venturi tubes inserted in circular cross-section conduits running full |
ISO 4359:2013 | Flow measurement structures — Rectangular, trapezoidal and U-shaped flumes |
ISO 8316:1987 | Measurement of liquid flow in closed conduits — Method by collection of the liquid in a volumetric tank |
IEC 60497:1976 | International code for model acceptance tests of storage pumps |
ISO 3555:1977 | Centrifugal, mixed flow and axial pumps — Code for acceptance tests — Class B |
ISO 3846:2008 | Hydrometry Open channel flow measurement using rectangular broad-crested weirs |
IEC 60034-2:1972 | Rotating electrical machines. Part 2: Methods for determining losses and efficiency of rotating electrical machinery from tests (excluding machines for traction vehicles) |
ISO 7194:2008 | Measurement of fluid flow in closed conduits — Velocity-area methods of flow measurement in swirling or asymmetric flow conditions in circular ducts by means of current-meters or Pitot static tubes |
ISO 2186:2007 | Fluid flow in closed conduits — Connections for pressure signal transmissions between primary and secondary elements |
ISO 3966:2008 | Measurement of fluid flow in closed conduits Velocity area method using Pitot static tubes |
ISO 4360:2008 | Hydrometry Open channel flow measurement using triangular profile weirs |
ISO 1438:2017 | Hydrometry — Open channel flow measurement using thin-plate weirs |
ISO 2975-2:1975 | Measurement of water flow in closed conduits — Tracer methods — Part 2: Constant rate injection method using non-radioactive tracers |
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