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oSIST prEN 17877:2022

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Dynamic mixers and agitators - Definitions and hydraulic characterizations

Dynamic mixers and agitators - Definitions and hydraulic characterizations

This document defines the terms and definitions relating to the field of dynamic mixing and agitation. It covers the hydraulic characteristics of mixers and agitators. It is intended to contribute to mutual understanding of the various stakeholders in a mixing or agitation project: manufacturers, users, integrators, inspection agencies...
This document applies to mixing and agitation systems where there is at least one dominant liquid phase.
It does not apply to:
-   static mixers;
-   kneaders;
-   submersible mixers covered by ISO 21630;
-   aerators;
-   pumps.
Annex A lists the definitions by alphabetic order.

Dynamische Agitatoren - Definition und hydraulische Charakteristik

Dieses Dokument legt die Begriffe fest, die sich auf das Gebiet des dynamischen Rührens beziehen. Es behandelt die hydraulischen Eigenschaften von Agitatoren. Es soll zum gegenseitigen Verständnis der verschiedenen Beteiligten an einem Rührprojekt beitragen: z. B. Hersteller, Anwender, Integratoren, Prüfstellen.
Dieses Dokument ist anwendbar auf Rührsysteme mit mindestens einer dominanten Flüssigphase.
Es ist nicht anwendbar auf Folgende:
-   statische Mischer;
-   Kneter;
-   Tauchrührwerke, die in ISO 21630 behandelt werden;
-   Belüfter;
-   Pumpen.
In Anhang A werden die Begriffe in alphabetischer Reihenfolge aufgeführt.

Mélangeurs et agitateurs dynamiques - Définitions et caractéristiques hydrauliques

Le présent document définit les termes et définitions relatifs au domaine du mélange et de l’agitation dynamiques. Il couvre les caractéristiques hydrauliques des mélangeurs et agitateurs. Il vise à contribuer à la compréhension mutuelle des différentes parties prenantes dans un projet de mélange ou d’agitation : fabricants, utilisateurs, intégrateurs, organismes de contrôle...
Le présent document s’applique aux systèmes de mélange et d’agitation où il existe au moins une phase dominante liquide.
Il ne s’applique pas aux :
-   mélangeurs statiques ;
-   malaxeurs ;
-   mélangeurs immergés couverts par l'ISO 21630 ;
-   aérateurs ;
-   pompes.
L'Annexe A énumère les définitions par ordre alphabétique.

Dinamične mešalne naprave in mešala - Definicije in hidravlične karakteristike

General Information

Status
Not Published
Public Enquiry End Date
27-Sep-2022
ICS
01.040.23 - Fluid systems and components for general use (Vocabularies)
23.100.99 - Other fluid power system components
Technical Committee
I13 - Imaginarni 13
Current Stage
4020 - Public enquire (PE) (Adopted Project)
Start Date
13-Jul-2022
Due Date
30-Nov-2022
Ref Project
prEN 17877 - Dynamic mixers and agitators - Definitions and hydraulic characterizations

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SLOVENSKI STANDARD
oSIST prEN 17877:2022
01-september-2022
Dinamične mešalne naprave in mešala - Definicije in hidravlične karakteristike
Dynamic mixers and agitators - Definitions and hydraulic characterizations
Dynamische Agitatoren - Definition und hydraulische Charakteristik

Mélangeurs et agitateurs dynamiques - Définitions et caractéristiques hydrauliques

Ta slovenski standard je istoveten z: prEN 17877
ICS:
01.040.23 Tekočinski sistemi in sestavni Fluid systems and
deli za splošno rabo (Slovarji) components for general use
(Vocabularies)
23.100.99 Drugi sestavni deli Other fluid power system
hidravličnih sistemov components
oSIST prEN 17877:2022 en,fr,de

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 17877:2022
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oSIST prEN 17877:2022
DRAFT
EUROPEAN STANDARD
prEN 17877
NORME EUROPÉENNE
EUROPÄISCHE NORM
July 2022
ICS 01.040.23; 23.100.99
English Version
Dynamic mixers and agitators - Definitions and hydraulic
characterizations

Mélangeurs et agitateurs dynamiques - Définitions et Dynamische Agitatoren - Definition und hydraulische

caractéristiques hydrauliques Charakteristik

This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee

CEN/TC 458.

If this draft becomes a European Standard, CEN 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.

This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other

language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC

Management Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,

Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,

Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and

United Kingdom.

Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are

aware and to provide supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without

notice and shall not be referred to as a European Standard.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels

© 2022 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 17877:2022 E

worldwide for CEN national Members.
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Contents Page

European foreword ............................................................................................................................................ 3

Introduction .......................................................................................................................................................... 4

1 Scope .......................................................................................................................................................... 5

2 Normative references .......................................................................................................................... 5

3 Terms and definitions ......................................................................................................................... 5

3.1 Basic mixing operations ..................................................................................................................... 5

3.2 Mixing parts ............................................................................................................................................ 6

3.3 Mixer types ............................................................................................................................................ 18

3.4 Impeller types ...................................................................................................................................... 22

3.5 Hydraulic data ...................................................................................................................................... 29

3.6 Mechanical data ................................................................................................................................... 37

4 Symbols and associated formulae ................................................................................................ 39

Annex A (informative) Alphabetical index ............................................................................................... 44

Bibliography ....................................................................................................................................................... 48

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oSIST prEN 17877:2022
prEN 17877:2022 (E)
European foreword

This document (prEN 17877:2022) has been prepared by Technical Committee CEN/TC 458 “Industrial

rotating mixing systems”, the secretariat of which is held by AFNOR.
This document is currently submitted to the CEN Enquiry.
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Introduction

Dynamic mixers and agitators are used mainly to set in motion one or more phases including at least one

liquid and maintain mixture conditions and/or to promote mass transfer and/or heat transfer.

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oSIST prEN 17877:2022
prEN 17877:2022 (E)
1 Scope

This document defines the terms and definitions relating to the field of dynamic mixing and agitation. It

covers the hydraulic characteristics of mixers and agitators. It is intended to contribute to mutual

understanding of the various stakeholders in a mixing or agitation project: manufacturers, users,

integrators, inspection agencies...

This document applies to mixing and agitation systems where there is at least one dominant liquid phase.

It does not apply to:
— static mixers;
— kneaders;
— submersible mixers covered by ISO 21630;
— aerators;
— pumps.
Annex A lists the definitions by alphabetic order.
2 Normative references
There are no normative references in this document.
3 Terms and definitions
For the purposes of this document, the following terms apply.

ISO and IEC maintain terminological databases for use in standardization at the following addresses:

— ISO Online browsing platform: available at https://www.iso.org/obp
— IEC Electropedia: available at https://www.electropedia.org/
3.1 Basic mixing operations
3.1.1
agitation
motion of one liquid using a rotational device in a tank
3.1.2
mixing

motion of one substance or more through a liquid using a rotational device in a tank

3.1.3
homogenization
blending miscible liquids

mixing two or more miscible liquids to generate one liquid phase using a mixing unit

3.1.4
dissolving
solute a soluble solid into a liquid using a mixing unit
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
3.1.5
solid suspension
solid particles suspended in a liquid using a mixing unit
EXAMPLE flocculation, process drinking yoghurt, food and chemical applications
3.1.6
solid dispersion

small solid particles (powder) blended in a dominant liquid phase using a mixing unit

EXAMPLE dye in ink or cocoa in chocolate milk
3.1.7
emulsion
mixing of two or more immiscible liquids into each other using a mixing unit

Note 1 to entry: To prevent the liquids from separating out, a third liquid called a surfactant, is added.

3.1.8
gas dispersion
diffusion of gas bubbles into a fluid using a mixing unit
3.1.9
heat transfer

circulation of fluids in tank to promote faster heating or cooling transmission to fluids using a mixing unit

3.1.10
fermentation

process where the bacteria is used to digest organic matter using a mixing unit which ameliorate the

contact between all the components
EXAMPLE yoghurt, cheese culture and sour cream in dairy applications
3.2 Mixing parts
3.2.1
mixing unit
mixing system

unit consisting of a mixer and a tank including all necessary accessories to provide the mixing of gas,

liquid, paste or powder into the liquid continuous phase
Note 1 to entry: See Figure 1.
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 mixer
2 tank
3 baffle
Figure 1 — Principle of a mixing unit
3.2.2
mixer
agitator
equipment for moving at least one liquid in a delimited tank
Note 1 to entry: See Figure 2.
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 drive head
2 shaft
3 impeller
Figure 2 — Example of a mixer
3.2.3
drive head

unit consisting of all parts outside of the vessel including at least a drive unit (3.2.4)

Note 1 to entry: If no coupling (Figure 3, key 6) the drive shaft is used as the mixer shaft.

Note 2 to entry: See Figure 3.
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
a) 2D view b) 3D view
Key
1 drive unit
2 lantern
3 drive shaft
4 mixer seal
5 base flange (or mounting flange)
6 coupling between the drive shaft and the mixer shaft
Figure 3 — Example of a drive head
3.2.4
drive unit
component(s) which rotate(s) the mixer shaft
3.2.5
lantern

housing(s) between the drive unit and the base flange which contain(s) the mixer seal and/or a bearing

and/or shaft connecting parts
Note 1 to entry: The lantern can include a bearing device.
3.2.6
drive shaft

part of the shaft located in the drive head and designed to transfer the torque from the drive unit to the

mixer shaft
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
3.2.7
mixer seal

seal device that separates the inside and outside the tank and/or prevents substance entering and/or

leaving the tank

Note 1 to entry: A shaft seal can be e.g. a lip seal, a labyrinth seal, a mechanical seal, a stuffing box, an hermetic

seal (e.g. magnetic coupling).
Note 2 to entry: See Figure 4.
Key
1 mixer shaft
2 seal
3 base flange
4 seal, base flange
a) Lip seal
Key
1 mixer shaft
2 seal, rotating part
3 seal, stationary part
4 spring
5 base flange
6 seal, base flange
b) Single mechanical seal
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 mixer shaft
2 seal
3 base flange
c) Labyrinth seal
Figure 4 — Some types of seals
3.2.8
base flange
mounting flange
mixer flange
connecting plate between the mixer and the tank which holds the drive head
Note 1 to entry: See Figure 5.
3.2.9
shaft suspension piece

device that allows an easily maintaining of mixer seal and which is preventing mixer shaft from sliding

down when axial look is released
Note 1 to entry: See Figure 5.
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 drive shaft
2 base flange
3 shaft suspension piece
4 mixer shaft
Figure 5 — shaft suspension piece
3.2.10
mixer shaft
part of the shaft located in the tank and designed to support the impeller

Note 1 to entry: With only one single shaft, the mixer shaft is used as drive shaft (see Figure 3, key 6).

Note 2 to entry: See Figure 6.
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
a) 2D view b) 3D view
Key
1 impeller
2 mixer shaft
Figure 6 — Example of a mixer shaft with impellers
3.2.11
impeller
mixer element that moves the mixed media

Note 1 to entry: There are different types of impellers such as propellers, anchors, ribbons, turbines. Most

frequently, impellers are fitted with blades (from 2 to 6).
3.2.12
in tank bearing

in tank device where the mixer shaft is guided, can be bushing or roller/ball bearing

Note 1 to entry: When an in tank bearing is located at least above the lowest impeller it is called an intermediate

bearing (see Figure 7).

Note 2 to entry: When an in tank bearing is located at the bottom of the tank it is called a bottom bearing (see

Figures 8 and 9).
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 mixer shaft
2 wearing sleeve
3 bushing
4 support structure
Figure 7 — Example of intermediate bearing
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 mixer shaft
2 wearing sleeve
3 support structure
4 support structure
5 bushing
a) Example 1 of a bottom bearing schematic drawing
Key
1 screw
2 O-rings
3 bushing
4 support structure
5 mixer shaft
b) Example 2 of a bottom bearing schematic drawing
Figure 8 — Bottom bearing — Schematic drawings
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
a) 2D view b) 3D view
Figure 9 — Example of bottom bearing
3.2.13
deflection limiter ring
guide ring

safety device, immersed in the liquid, located at the end or along of mixer shaft and intended to limit the

shaft deflection without any contact with the mixer shaft under normal operating conditions and avoid

overstress
Note 1 to entry: See Figure 10.
Key
1 mixer shaft
2 support structure
3 deflection limiter ring
4 support structure
Figure 10 — Example of deflection limiter ring
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oSIST prEN 17877:2022
prEN 17877:2022 (E)
3.2.14
baffle
static element fixed to the tank wall

Note 1 to entry: A baffle is used to change the flow direction in a tank and/or to prevent the liquid from swirling

and vortexing also called batch rotation.
Note 2 to entry: See Figure 1, key 3.
3.2.15
plough

static construction at the tank wall used to direct the flow and/or prevent settling

Note 1 to entry: See Figure 11.
Key
1 plough
Figure 11 — Example of a plough
---------------------- Page: 19 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
3.3 Mixer types
3.3.1
bottom entry mixer
bottom mounted mixer

mixer located on tank bottom of which the axis can be slightly tilted to the vertical axis

Note 1 to entry: See Figure 12.
a) 2D view b) 3D view
Figure 12 — Example of a bottom entry mixer
3.3.2
side entry mixer
side mounted mixer
mixer fixed on the tank wall which could be angled
Note 1 to entry: See Figure 13.
Note 2 to entry: During the mixer use, the mixer shaft axis can be adjustable.
---------------------- Page: 20 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 propeller
2 tank
3 mixer shaft
4 support structure
Figure 13 — Example of a side entry mixer
3.3.3
top entry mixer
cantilever mixer
top mounted mixer

mixer fixed on the top of the tank or support over the tank/basin with a vertical axis or slightly inclined

to the vertical line
Note 1 to entry: See Figure 14.

Note 2 to entry: The axis of the mixer can be guided by means of an intermediate bearing or a bottom bearing.

---------------------- Page: 21 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
Key
1 mixer
2 tank
3 mixer shaft
4 propeller
Figure 14 — Example of a top entry mixer
3.3.4
co-axial mixer

combined mixer with two mixer shafts on the same axis where one impeller is closer to the wall than the

other impeller and where the two impellers have two different rotation speed

Note 1 to entry: If the mixer shafts are rotating in the same direction a co-axial mixer is called a co-rotating mixer

otherwise it is called a contra-rotating mixer.
Note 2 to entry: See Figure 15.
---------------------- Page: 22 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
a) 2D view b) 3D view
Figure 15 — Example of a co-axial mixer
3.3.5
rotor-stator
stator-rotor

mixing device consisting of a static element (stator) and a radial turbine or a pitched blade turbine (rotor)

Note 1 to entry: The rotor-stator is used to provide a high shearing in order to create an emulsion or a dispersion

of immiscible liquids.
Note 2 to entry: See Figure 16.
---------------------- Page: 23 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
a) 2D view b) 3D view
Key
1 rotor
2 stator
Figure 16 — Example of a rotor-stator
3.4 Impeller types
3.4.1
anchor

impeller with two or more arms matching the wall shape and providing a tangential flow

Note 1 to entry: See Figure 17.

Note 2 to entry: Some anchors are fitted with a fixed device (scraper) closed to wall impeller, intended to scrape

the tank wall.
---------------------- Page: 24 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
Figure 17 — Examples of an anchor
3.4.2 Propeller types
3.4.2.1
propeller

impeller generating an axial flow with tilted blade with an angle less than 45° with the horizontal and

which profile shape is curved, twisted or folded

Note 1 to entry: The shape and characteristics of the propeller are determined according to the desired

application.
3.4.2.2
high efficiency propeller
hydrofoil propeller

impeller with blades specially designed to reduce significantly the absorbed power and keeping the same

flow rate of a marine propeller
Note 1 to entry: See Figure 18.
Figure 18 — Example of a hydrofoil impeller
---------------------- Page: 25 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
3.4.2.3
marine propeller

impeller for which blades are a portion of a helical screw with a pitch of one, providing axial flow

Note 1 to entry: See Figure 19.
Figure 19 — Example of marine propeller
3.4.2.4
double flow propeller
countercurrent impeller
propeller for which each tip is inversely tilted (twisted) to its central part
Note 1 to entry: For double-flow propeller, D > 0,9 T.
Note 2 to entry: See Figures 20 and 21.
Figure 20 — Example 1 of a double flow propeller
---------------------- Page: 26 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
Figure 21 — Example 2 of a double flow propeller
3.4.2.5
no-clog propeller
axial impellers designed to reduce clogging on blades
Note 1 to entry: See Figure 22.
Figure 22 — No-clog propeller
3.4.3
helical ribbon
helical propeller

propeller with one or more helical portions for which diameter is close to the tank wall

Note 1 to entry: The ribbon could be combined with an Archimedes screw located in the centre of the tank and

generating a flow which is contrary of the ribbon flow.
Note 2 to entry: See Figures 23 and 24.
---------------------- Page: 27 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
Figure 23 — Example of a helical ribbon
Figure 24 — Example of an Archimedes screw
3.4.4
pitched blade turbine

impeller with flat and inclined blades most often at 45° angle, generating an inlet axial flow and both axial

and radial outlet flows
Note 1 to entry: See Figure 25.
---------------------- Page: 28 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
Figure 25 — Example of a pitched blade turbine
3.4.5
radial turbine
impeller with blades that generate a centrifugal outlet radial flow
3.4.5.1
radial disk turbine
radial turbine with vertical blades fixed on a disk

Note 1 to entry: It is possible to have different number of blades and/or different shapes of blade.

3.4.5.2
Rushton turbine
radial disk turbine with 6 vertical flat blades

Note 1 to entry: The dimensions of a Ruston turbine can be found in literature. See [4].

Note 2 to entry: See Figure 26.
Figure 26 — Example of a Rushton turbine
---------------------- Page: 29 ----------------------
oSIST prEN 17877:2022
prEN 17877:2022 (E)
3.4.5.3
saw tooth turbine
high shear turbine
impeller with a disk shape that has teeth on its outer edge
Note 1 to entry: See Figure 27.
Figure 27 — Example of a saw tooth turbine
3.4.5.4
retreat curve impeller
radial turbine with vertical curved blades
Note 1 to entry: See Figure 28.
Figure 28 — Example of a retreat impeller
---------------------- Page: 30 --------
...

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c) investigate the effect of changes in welding parameters such as welding current, weld time, electrode force or complex welding schedules including pulse welding, current stepping etc. on weldability, and/or
d) compare the performance of resistance welding equipment.
Precise details of the test procedure to be used depend on which aspect of items a) to d) will be evaluated relative to the welding result obtained.

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SIST EN ISO 19443:2022(Main)
Quality management systems - Specific requirements for the application of ISO 9001:2015 by organizations in the supply chain of the nuclear energy sector supplying products and services important to nuclear safety (ITNS) (ISO 19443:2018)
EN ISO 19443:2022

This International Standard specifies requirements for a quality management system when an organization:
a)    needs to demonstrate its ability to consistently provide products and services that meet customer and applicable statutory and regulatory requirements, and
b)    aims to enhance customer satisfaction through the effective application of the system, including processes for improvement of the system and the assurance of conformity to customer and applicable statutory and regulatory requirements.
All the requirements of this International Standard are generic and are intended to be applicable to any organization, regardless of its type or size, or the products and services it provides.
NOTE 1    In this International Standard, the terms "product" or "service" only apply to products and services intended for, or required by, a customer.
NOTE 2    Statutory and regulatory requirements can be expressed as legal requirements.
This International Standard applies to organizations supplying ITNS products or services.
Application of this standard to organizations performing activities on a licensed nuclear site is subject to prior agreement by the Licensee.
Requirements specified in this International Standard are complementary (not alternative) to customer and applicable statutory and regulatory requirements.

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SIST EN 62841-3-10:2016/A1:2022(Amendment)
Electric motor-operated hand-held tools, transportable tools and lawn and garden machinery - Safety - Part 3-10: Particular requirements for transportable cut-off machines
EN 62841-3-10:2015/A1:2022

2020-12-24: Common mods to this prA1 are included in prAB (PR=73280) for simultaneous circulation
D164/C043: DOW= dor + 48 months

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SIST
SIST EN IEC 62108:2022(Main)
Concentrator photovoltaic (CPV) modules and assemblies - Design qualification and type approval
EN IEC 62108:2022

This International Standard specifies the minimum requirements for the design qualification and type approval of concentrator photovoltaic (CPV) modules and assemblies suitable for long-term operation in general open-air climates as defined in IEC 60721-2-1. The test sequence is partially based on that specified in IEC 61215-1 for the design qualification and type approval of flat-plate terrestrial crystalline silicon PV modules. However, some changes have been made to account for the special features of CPV receivers and modules, particularly with regard to the separation of on-site and in-lab tests, effects of tracking alignment, high current density, and rapid temperature changes, which have resulted in the formulation of some new test procedures or new requirements.
The object of this test standard is to determine the electrical, mechanical, and thermal characteristics of the CPV modules and assemblies and to show, as far as possible within reasonable constraints of cost and time, that the CPV modules and assemblies are capable of withstanding prolonged exposure in climates described in the scope. The actual life of CPV modules and assemblies so qualified will depend on their design, production, environment, and the conditions under which they are operated.
This standard shall be used in conjunction with the retest guidelines described in Annex B.

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SIST EN 12102-1:2022(Main)
Air conditioners, liquid chilling packages, heat pumps, process chillers and dehumidifiers with electrically driven compressors - Determination of the sound power level - Part 1: Air conditioners, liquid chilling packages, heat pumps for space heating and cooling, dehumidifiers and process chillers
EN 12102-1:2022

This European Standard establishes requirements for determining, in accordance with a standardized procedure, the sound power level emitted into the surrounding air by air conditioners, heat pumps, liquid chilling packages with electrically driven compressors when used for space heating and/or cooling, and/or for process, as described in the EN 14511 series and dehumidifiers as described in EN 810.
This European Standard also covers the measurement of the sound power level of evaporatively cooled condenser air conditioners, as defined in EN 15218. However, the measurement will be done without external water feeding and these units will thus be considered as the other air conditioners covered by the EN 14511 series.
It is emphasized that this measurement standard only refers to airborne noise.

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SIST EN IEC 60599:2022(Main)
Mineral oil-filled electrical equipment in service - Guidance on the interpretation of dissolved and free gases analysis
EN IEC 60599:2022

This document describes how the concentrations of dissolved gases or free gases can be interpreted to diagnose the condition of oil-filled electrical equipment in service and suggest future action. This document is applicable to electrical equipment filled with mineral insulating oil and insulated with cellulosic paper or pressboard-based solid insulation. Information about specific types of equipment such as transformers (power, instrument, industrial, railways, distribution), reactors, bushings, switchgear and oil-filled cables is given only as an indication in the application notes. This document can be applied, but only with caution, to other liquid-solid insulating systems. In any case, the indications obtained are given only as guidance with resulting action undertaken only with proper engineering judgment.

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