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EN IEC 60193:2019

(Main)

Hydraulic turbines, storage pumps and pump-turbines - Model acceptance tests

Hydraulic turbines, storage pumps and pump-turbines - Model acceptance tests

This document applies to laboratory models of any type of impulse or reaction hydraulic turbine, storage pump or pump-turbine. This document applies to models of prototype machines either with unit power greater than 5 MW or with reference diameter greater than 3 m. Full application of the procedures herein prescribed is not generally justified for machines with smaller power and size. Nevertheless, this document may be used for such machines by agreement between the purchaser and the supplier. In this document, the term "turbine" includes a pump-turbine operating as a turbine and the term "pump" includes a pump-turbine operating as a pump. This document excludes all matters of purely commercial interest, except those inextricably bound up with the conduct of the tests. This document is concerned with neither the structural details of the machines nor the mechanical properties of their components, so long as these do not affect model performance or the relationship between model and prototype performances. This document covers the arrangements for model acceptance tests to be performed on hydraulic turbines, storage pumps and pump-turbines to determine if the main hydraulic performance contract guarantees (see 4.2) have been satisfied. It contains the rules governing test conduct and prescribes measures to be taken if any phase of the tests is disputed. The main objectives of this document are: - to define the terms and quantities used; - to specify methods of testing and of measuring the quantities involved, in order to ascertain the hydraulic performance of the model; - to specify the methods of computation of results and of comparison with guarantees; - to determine if the contract guarantees that fall within the scope of this document have been fulfilled; - to define the extent, content and structure of the final report. The guarantees can be given in one of the following ways: - guarantees for prototype hydraulic performance, computed from model test results considering scale effects; - guarantees for model hydraulic performance. Moreover, additional performance data (see 4.4) can be needed for the design or the operation of the prototype of the hydraulic machine. Contrary to the requirements of Clauses 4 to 6 related to main hydraulic performance, the information of these additional data given in Clause 7 is considered only as recommendation or guidance to the user (see 7.1). It is particularly recommended that model acceptance tests be performed if the expected field conditions for acceptance tests (see IEC 60041:1991) would not allow the verification of guarantees given for the prototype machine. A transposition method taking into account the model and prototype wall surface roughness for the performance conversion on pump-turbines, Francis turbines, and axial machines is described in IEC 62097. This method requires model and prototype surface roughness data and is takes into account the shift in nED, QED and PED factors for determining the transposition of efficiency between model and prototype. However, in the case of Francis machines with semispiral casing and axial machines, the transposition method has not been fully validated due to a lack of data. In addition, IEC 62097 does not apply to storage pumps, Pelton turbines, and Dériaz. Therefore, for these and otherwise specifically agreed upon cases where hydraulically smooth flow conditions are assumed on the model and the prototype, the transposition formula and procedure given in Annex D and Annex I can be applied. Applications and limitations of both this document and IEC 62097 transposition methods are discussed in Annex E. The method for performance conversion from model to prototype needs to be clearly defined in the main hydraulic performance contract.

Hydraulische Turbinen, Speicherpumpen und Pumpturbinen - Modellabnahmeprüfungen

Turbines hydrauliques, pompes d'accumulation et pompes-turbines - Essais de réception sur modèle

Le présent document est applicable aux modèles de laboratoire de tout type de turbine hydraulique à action ou à réaction, de pompe d'accumulation ou de pompe-turbine. Il s'applique aux modèles de machines prototypes ayant une puissance unitaire supérieure à 5 MW ou un diamètre de référence supérieur à 3 m. Bien que l'application intégrale des procédures prescrites ne soit généralement pas justifiée pour des machines de puissance et de dimension inférieures, le présent document peut néanmoins être utilisé pour de telles machines après accord entre l'acheteur et le fournisseur. Dans ce document, le terme "turbine" inclut une pompe-turbine fonctionnant en turbine et le terme "pompe" inclut une pompe-turbine fonctionnant en pompe. Ce document exclut tous les sujets à caractère purement commercial, excepté ceux intimement liés à la bonne conduite des essais. Ce document ne concerne ni les détails de construction des machines, ni les propriétés mécaniques de leurs différentes parties pour autant que ces éléments n'affectent pas le fonctionnement du modèle ni la relation entre les performances du modèle et celles du prototype. Le présent document régit les modalités des essais de réception sur modèle des turbines hydrauliques, pompes d'accumulation et pompes-turbines en vue de déterminer si les garanties contractuelles de performances hydrauliques principales (voir 4.2) sont respectées. Il fixe les règles qui gouvernent la conduite de ces essais et prescrit les mesures à prendre en cas de contestation d'une phase quelconque des essais. Les objectifs principaux du présent document sont: - de définir les termes et les grandeurs utilisés; - de prescrire les méthodes d'essai et les façons de mesurer les grandeurs permettant d'évaluer les performances hydrauliques du modèle; - de prescrire les méthodes de calcul des résultats et de comparaison aux garanties; - de déterminer si les garanties contractuelles qui sont du domaine de ce document sont respectées; - de définir l'étendue, le contenu et la présentation du rapport final. Les garanties peuvent être données de l'une des façons suivantes: - garanties reposant sur les performances hydrauliques du prototype, calculées à partir des résultats d'essai du modèle en tenant compte des effets d'échelle; - garanties reposant sur les performances hydrauliques du modèle. Par ailleurs des données complémentaires de fonctionnement (voir 4.4) peuvent être nécessaires pour la conception ou l'exploitation de la machine hydraulique prototype. Contrairement aux exigences indiquées aux Articles 4 à 6 relatives aux performances hydrauliques principales, les informations sur ces données complémentaires décrites à l'Article 7 ne sont considérées que comme des recommandations ou des conseils à l'utilisateur (voir 7.1). Il est particulièrement recommandé d'effectuer les essais de réception sur modèle lorsque les conditions pratiques dans lesquelles seraient faits des essais de réception sur le site (voir l'IEC 60041) ne permettraient pas de prouver le respect des garanties données pour le prototype. Une méthode de transposition tenant compte de la rugosité des surfaces entre le modèle et le prototype pour les pompes-turbines, les turbines Francis et les turbines axiales est décrite dans l'IEC 62097. Cette méthode requiert les valeurs de rugosité des surfaces modèle et prototype, respectivement et tient compte du décalage en nED, QED et PED afin de calculer la transposition entre le modèle et le prototype. Par contre, cette nouvelle méthode de calcul de transposition n'a pas été complètement validée en raison d'un manque de données pour les turbines Francis avec bâche fronto-spirale et les turbines axiales. De plus, l'IEC 62097 ne s'applique pas aux pompes d'accumulation, aux turbines Pelton et Dériaz.

Vodne turbine, akumulacijske črpalke in črpalne turbine - Prevzemni preskusi modela (IEC 60193:2019)

Ta dokument se uporablja za laboratorijske modele vseh vrst impulznih ali reaktivnih vodnih turbin, akumulacijskih črpalk in črpalnih turbin.
Ta dokument se uporablja za modele prototipnih strojev z močjo enote, večjo od 5 MW, ali referenčnim premerom, večjim od 3 m. Celotna uporaba postopkov, ki je opisana v tem dokumentu, na splošno ni utemeljena za stroje manjše moči in velikosti. Kljub temu se lahko ta dokument uporablja za take stroje po dogovoru med kupcem in dobaviteljem.
V tem dokumentu izraz »turbina« vključuje črpalno turbino, ki deluje kot turbina, izraz »črpalka« pa vključuje črpalno turbino, ki deluje kot črpalka.
Ta dokument izključuje vse izključno komercialne interese, razen tistih, ki so neločljivo povezani z izvajanjem teh preskusov.
Ta dokument ne opredeljuje strukturnih podrobnosti strojev niti mehanskih lastnosti njihovih komponent, če te ne vplivajo na zmogljivost modela ali na razmerje med zmogljivostjo modela in prototipa.
Ta dokument zajema dogovore za prevzemne preskuse modela, ki bodo opravljeni na vodnih turbinah, akumulacijskih črpalkah in črpalnih turbinah, da se ugotovi, ali so izpolnjena pogodbena jamstva glede hidravlične zmogljivosti (glej točko 4.2).
Vsebuje pravila, ki urejajo izvajanje preskusov in predpisujejo ukrepe, ki jih je treba izvesti v primeru sporov glede ene od faz preskusov.
Glavni namen tega dokumenta je:
– definirati uporabljane izraze in količine;
– določiti metode za preskušanje in merjenje vključenih količin, da se opredeli hidravlična zmogljivost modela;
– določiti metode za izračun rezultatov in primerjavo z jamstvi;
– določiti, ali so pogodbena jamstva, ki spadajo na področje uporabe tega dokumenta, izpolnjena;
– določiti obseg, vsebino in strukturo končnega poročila.
Ta jamstva je mogoče podati na enega od naslednjih načinov:
– jamstva za hidravlično zmogljivost prototipa, izračunano na podlagi rezultatov preskusa modela ob upoštevanju učinkov obsega;
– jamstva za hidravlično zmogljivost modela.
Poleg tega so lahko za zasnovo ali obratovanje prototipa vodnega stroja potrebni dodatni podatki o zmogljivosti (glej točko 4.4). V nasprotju z zahtevami iz točk od 4 do 6 v zvezi z glavno hidravlično zmogljivostjo se informacije teh dodatnih podatkov iz točke 7 obravnavajo zgolj kot priporočilo ali vodilo za uporabnika (glej točko 7.1).
Zlasti se priporoča, da se prevzemni preskusi modela opravijo, če pričakovani terenski pogoji za prevzemne preskuse (glej standard IEC 60041:1991) ne omogočajo preverjanja jamstev, ki so navedena za prototipni stroj.
Metoda prenosa, ki za pretvorbo zmogljivosti črpalnih turbin, Francisovih turbin in aksialnih strojev upošteva površinsko hrapavost modela in prototipa, je opisana v standardu IEC 62097. Za to metodo so potrebni podatki o površinski hrapavosti modela in prototipa, pri čemer se upoštevajo spremembe faktorjev nED, QED ter PED za določanje prenosa učinkovitosti med modelom in prototipom. Vendar pa pri Francisovih strojih s polspiralastim ohišjem in aksialnih strojih metoda prenosa ni v celoti preverjena zaradi pomanjkanja podatkov. Poleg tega se standard IEC 62097 ne uporablja za akumulacijske črpalke, Peltonove turbine in Dériaz. Tako je mogoče za te in druge posebej dogovorjene primere, pri katerih so pogoji hidravlično nemotenega pretoka predpostavljeni glede na model in prototip, uporabiti formulo ter postopek prenosa, ki sta navedena v dodatku D in dodatku I. Načini uporabe in omejitve metod prenosa iz tega dokumenta in standarda IEC 62097 so obravnavane v dodatku E. Metodo za pretvorbo zmogljivosti modela v zmogljivost prototipa je treba jasno opredeliti v glavni pogodbi o hidravlični zmogljivosti.

General Information

Status
Published
Publication Date
13-Jun-2019
Withdrawal Date
29-May-2022
ICS
27.140 - Hydraulic energy engineering
Technical Committee
CLC/SR 4 - Hydraulic turbines
Drafting Committee
IEC/TC 4 - IEC_TC_4
Current Stage
6060 - Document made available - Publishing
Start Date
14-Jun-2019
Completion Date
14-Jun-2019
Ref Project
SIST EN IEC 60193:2019 - Hydraulic turbines, storage pumps and pump-turbines - Model acceptance tests (IEC 60193:2019)

Relations

Replaces
EN 60193:1999 - Hydraulic turbines, storage pumps and pump-turbines - Model acceptance tests
Effective Date
07-Jun-2022

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SLOVENSKI STANDARD
SIST EN IEC 60193:2019
01-september-2019
Nadomešča:
SIST EN 60193:2001
Vodne turbine, akumulacijske črpalke in črpalne turbine - Prevzemni preskusi
modela (IEC 60193:2019)
Hydraulic turbines, storage pumps and pump-turbines - Model acceptance tests (IEC
60193:2019)
Hydraulische Turbinen, Speicherpumpen und Pumpturbinen - Modellabnahmeprüfungen
(IEC 60193:2019)
Turbines hydrauliques, pompes d'accumulation et pompes-turbines - Essais de réception
sur modèle (IEC 60193:2019)
Ta slovenski standard je istoveten z: EN IEC 60193:2019
ICS:
27.140 Vodna energija Hydraulic energy engineering
SIST EN IEC 60193:2019 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------

SIST EN IEC 60193:2019

---------------------- Page: 2 ----------------------

SIST EN IEC 60193:2019


EUROPEAN STANDARD EN IEC 60193

NORME EUROPÉENNE

EUROPÄISCHE NORM
June 2019
ICS 27.140 Supersedes EN 60193:1999
English Version
Hydraulic turbines, storage pumps and pump-turbines - Model
acceptance tests
(IEC 60193:2019)
Turbines hydrauliques, pompes d'accumulation et pompes- Hydraulische Turbinen, Speicherpumpen und Pumpturbinen
turbines - Essais de réception sur modèle - Modellabnahmeprüfungen
(IEC 60193:2019) (IEC 60193:2019)
This European Standard was approved by CENELEC on 2019-05-30. CENELEC members are bound to comply with the CEN/CENELEC
Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.
Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC
Management Centre or to any CENELEC member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation
under the responsibility of a CENELEC member into its own language and notified to the CEN-CENELEC Management Centre has the
same status as the official versions.
CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,
Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the
Netherlands, Norway, Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.


European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2019 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. EN IEC 60193 E

---------------------- Page: 3 ----------------------

SIST EN IEC 60193:2019
EN IEC 60193 (E)
European foreword
The text of document 4/371/FDIS, future edition 3 of IEC 60193, prepared by IEC/TC 4 "Hydraulic
turbines" was submitted to the IEC-CENELEC parallel vote and approved by CENELEC as
EN IEC 60193.
The following dates are fixed:
• latest date by which the document has to be implemented at national (dop) 2020-02-29
level by publication of an identical national standard or by endorsement
• latest date by which the national standards conflicting with the (dow) 2022-05-30
document have to be withdrawn

This document supersedes EN 60193:1999.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC shall not be held responsible for identifying any or all such patent rights.

Endorsement notice
The text of the International Standard IEC 60193:2019 was approved by CENELEC as a European
Standard without any modification.

In the official version, for Bibliography, the following notes have to be added for the standards
indicated:
IEC 60041:1991 NOTE Harmonized as EN 60041:1994
IEC 60609-1:2004 NOTE Harmonized as EN 60609-1:2005 (not modified)
IEC 60609-2:1997 NOTE Harmonized as EN 60609-2:1999 (not modified)
IEC 60994:1991 NOTE Harmonized as EN 60994:1992 (not modified)
ISO 4006:1991 NOTE Harmonized as EN 24006:1993 (not modified)
ISO 4373:2008 NOTE Harmonized as EN ISO 4373:2008 (not modified)
ISO 5167-1:2003 NOTE Harmonized as EN ISO 5167-1:2003 (not modified)
1
ISO 20456:2017 NOTE Harmonized as EN ISO 20456 (not modified)

1
Under preparation. Stage at the time of publication: prEN ISO 20456.
2

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SIST EN IEC 60193:2019
EN IEC 60193:2019 (E)
Annex ZA
(normative)

Normative references to international publications
with their corresponding European publications
The following documents are referred to in the text in s
...

Questions, Comments and Discussion

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Hydraulic machines - Guidelines for dealing with hydro-abrasive erosion in kaplan, francis and pelton turbines
SIST EN IEC 62364:2019

IEC 62364:2019 is available as IEC 62364:2019 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62364:2019 gives guidelines for: a) presenting data on hydro-abrasive erosion rates on several combinations of water quality, operating conditions, component materials, and component properties collected from a variety of hydro sites; b) developing guidelines for the methods of minimizing hydro-abrasive erosion by modifications to hydraulic design for clean water. These guidelines do not include details such as hydraulic profile shapes which are determined by the hydraulic design experts for a given site; c) developing guidelines based on “experience data” concerning the relative resistance of materials faced with hydro-abrasive erosion problems; d) developing guidelines concerning the maintainability of materials with high resistance to hydro-abrasive erosion and hardcoatings; e) developing guidelines on a recommended approach, which owners could and should take to ensure that specifications communicate the need for particular attention to this aspect of hydraulic design at their sites without establishing criteria which cannot be satisfied because the means are beyond the control of the manufacturers; f) developing guidelines concerning operation mode of the hydro turbines in water with particle materials to increase the operation life. It is assumed in this document that the water is not chemically aggressive. Since chemical aggressiveness is dependent upon so many possible chemical compositions, and the materials of the machine, it is beyond the scope of this document to address these issues. It is assumed in this document that cavitation is not present in the turbine. Cavitation and hydro-abrasive erosion can reinforce each other so that the resulting erosion is larger than the sum of cavitation erosion plus hydro-abrasive erosion. The quantitative relationship of the resulting hydro-abrasive erosion is not known and it is beyond the scope of this document to assess it, except to suggest that special efforts be made in the turbine design phase to minimize cavitation. Large solids (e.g. stones, wood, ice, metal objects, etc.) traveling with the water can impact turbine components and produce damage. This damage can in turn increase the flow turbulence thereby accelerating wear by both cavitation and hydro-abrasive erosion. Hydro-abrasive erosion resistant coatings can also be damaged locally by impact of large solids. It is beyond the scope of this document to address these issues. This document focuses mainly on hydroelectric powerplant equipment. Certain portions can also be applicable to other hydraulic machines. This second edition cancels and replaces the first edition published in 2013. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) the formula for TBO in Pelton reference model has been modified; b) the formula for calculating sampling interval has been modified; c) the chapter in hydro-abrasive erosion resistant coatings has been substantially modified; d) the annex with test data for hydro-abrasive erosion resistant materials has been removed; e) a simplified hydro-abrasive erosion evaluation has been added. Key words: Hydraulic Machines, Hydro-Abrasive Erosion, Kaplan, Francis, Pelton T

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EN 62256:2017(Main)
Hydraulic turbines, storage pumps and pump-turbines - Rehabilitation and performance improvement
SIST EN 62256:2017

NEW!IEC 62256:2017 is available as IEC 62256:2017 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62256:2017 covers turbines, storage pumps and pump-turbines of all sizes and of the following types: Francis; Kaplan; propeller; Pelton (turbines only) and bulb turbines. This document also identifies without detailed discussion, other powerhouse equipment that could affect or be affected by a turbine, storage pump, or pump-turbine rehabilitation. The object of this document is to assist in identifying, evaluating and executing rehabilitation and performance improvement projects for hydraulic turbines, storage pumps and pump-turbines. This document can be used by owners, consultants, and suppliers to define: needs and economics for rehabilitation and performance improvement; scope of work; specifications and evaluation of results. This document is intended to be: an aid in the decision process; an extensive source of information on rehabilitation; an identification of the key milestones in the rehabilitation process; and identification of the points to be addressed in the decision processes. This document is not intended to be a detailed engineering manual nor a maintenance document. This second edition cancels and replaces the first edition published in 2008. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: Tables 2 to 23 modified, completed and moved to Annex A; 7.3.2: subclauses moved with text changes; new subclauses on temperature, noise, galvanic corrosion, galling and replacement of components without assessment; 7.3.3: complete new subclause on residual life; Tables 29 to 32 moved to Annex C; New Annex B with assessment examples. Key words: Turbines, Storage pump, Pump turbines, Rehabilitation, Performance.

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EN 61362:2012(Main)
Guide to specification of hydraulic turbine governing systems
SIST EN 61362:2012

IEC 61362:2012 includes relevant technical data necessary to describe hydraulic turbine governing systems and to define their performance. It is aimed at unifying and thus facilitating the selection of relevant parameters in bidding specifications and technical bids. It will also serve as a basis for setting up technical guarantees. The scope of this standard is restricted to the turbine governing level. Additionally some remarks about the control loops of the plant level and about primary and secondary frequency control (see also Annex B) are made for better understanding without making a claim to be complete. Important topics covered are: - speed, power, water level, opening and flow (discharge) control for reaction and impulse-type turbines including double regulated machines; - means of providing actuating energy; - safety devices for emergency shutdown. To facilitate the setting up of specifications, this guide also includes data sheets, which are to be filled out by the customer and the supplier in the various stages of the project and the contract. Acceptance tests, specific test procedures and guarantees are outside the scope of the guide; those topics are covered by IEC 60308. This second edition cancels and replaces the first edition published in 1998. It is a technical revision. It takes into account the experience with the guide during the last decade as well as the progress in the state of the art of the underlying technologies. Keywords: Hydraulic turbine, Hydraulic turbine governing systems.

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