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    EN 62194-2005 en Method of evaluating the thermal performance of enclosures《外壳热性能的评定方法 IEC 62194 2005》.pdf

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    EN 62194-2005 en Method of evaluating the thermal performance of enclosures《外壳热性能的评定方法 IEC 62194 2005》.pdf

    1、BRITISH STANDARD BS EN 62194:2005 Method of evaluating the thermal performance of enclosures The European Standard EN 62194:2005 has the status of a British Standard ICS 31.240 BS EN 62194:2005 This British Standard was published under the authority of the Standards Policy and Strategy Committee on

    2、6 January 2006 BSI 6 January 2006 ISBN 0 580 47195 0 National foreword This British Standard is the official English language version of EN 62194:2005. It is identical with IEC 62194:2005. The UK participation in its preparation was entrusted to Technical Committee EPL/48, Electromechanical componen

    3、ts and mechanical structures for electronic equipment, which has the responsibility to: A list of organizations represented on this committee can be obtained on request to its secretary. Cross-references The British Standards which implement international or European publications referred to in this

    4、 document may be found in the BSI Catalogue under the section entitled “International Standards Correspondence Index”, or by using the “Search” facility of the BSI Electronic Catalogue or of British Standards Online. This publication does not purport to include all the necessary provisions of a cont

    5、ract. Users are responsible for its correct application. Compliance with a British Standard does not of itself confer immunity from legal obligations. aid enquirers to understand the text; present to the responsible international/European committee any enquiries on the interpretation, or proposals f

    6、or change, and keep UK interests informed; monitor related international and European developments and promulgate them in the UK. Summary of pages This document comprises a front cover, an inside front cover, the EN title page, pages 2 to 31 and a back cover. The BSI copyright notice displayed in th

    7、is document indicates when the document was last issued. Amendments issued since publication Amd. No. Date CommentsEUROPEAN STANDARD EN 62194 NORME EUROPENNE EUROPISCHE NORM October 2005 CENELEC European Committee for Electrotechnical Standardization Comit Europen de Normalisation Electrotechnique E

    8、uropisches Komitee fr Elektrotechnische Normung Central Secretariat: rue de Stassart 35, B - 1050 Brussels 2005 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members. Ref. No. EN 62194:2005 E ICS 31.240 English version Method of evaluating the therm

    9、al performance of enclosures (IEC 62194:2005) Mthode dvaluation de la performance thermique des enveloppes (CEI 62194:2005) Verfahren zur Bewertung der Wrmeleistung von Gehusen (IEC 62194:2005) This European Standard was approved by CENELEC on 2005-09-01. CENELEC members are bound to comply with the

    10、 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 Central Secretariat or

    11、 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 Central Secretariat has the same status as the offici

    12、al versions. CENELEC members are the national electrotechnical committees of Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia, Slovenia

    13、, Spain, Sweden, Switzerland and United Kingdom. Foreword The text of document 48D/324/FDIS, future edition 1 of IEC 62194, prepared by SC 48D, Mechanical structures for electronic equipment, of IEC TC 48, Electromechanical components and mechanical structures for electronic equipment, was submitted

    14、 to the IEC-CENELEC parallel vote and was approved by CENELEC as EN 62194 on 2005-09-01. The following dates were fixed: latest date by which the EN has to be implemented at national level by publication of an identical national standard or by endorsement (dop) 2006-06-01 latest date by which the na

    15、tional standards conflicting with the EN have to be withdrawn (dow) 2008-09-01 Annex ZA has been added by CENELEC. _ Endorsement notice The text of the International Standard IEC 62194:2005 was approved by CENELEC as a European Standard without any modification. In the official version, for Bibliogr

    16、aphy, the following notes have to be added for the standards indicated: IEC 60297-2 NOTE Harmonized as HD 493.2 S1:1988 (not modified). IEC 60721 NOTE Harmonized in EN 60721 series (not modified). IEC 60917-2 NOTE Harmonized as EN 60917-2:1994 (not modified). IEC 61587-1 NOTE Harmonized as EN 61587-

    17、1:1999 (not modified). IEC 61969-1 NOTE Harmonized as EN 61969-1:2000 (not modified). IEC 61969-2 NOTE Harmonized as EN 61969-2:2000 (not modified). IEC 61969-3 NOTE Harmonized as EN 61969-3:2001 (not modified). _ EN 62194:2005 2 CONTENTS INTRODUCTION.5 1 Scope 6 2 Normative references .6 3 Terms, d

    18、efinitions, symbols and abbreviations.7 3.1 Definition of enclosure design principles 7 3.2 Symbols and abbreviated terms .7 4 Flow chart for establishing the absorption factor 9 5 Evaluation of the heat load . 10 6 Environmental conditions 10 6.1 Outdoor applications10 6.2 Indoor applications 1 1 7

    19、 Determination of the enclosure absorption factor .11 7.1 Measurement set-up 11 7.2 Calculation . .13 8 Result and presentation . .13 8.1 Comparison of different enclosure designs .13 8.2 Heat transfer through walls 14 8.3 Airflow between walls 15 8.4 Results for single-wall enclosures 16 8.5 Result

    20、s for double-wall enclosures (simple method) .17 Annex A (normative) Heat transfer rate 2 0 Annex B (informative) Geometric relations for solar radiation 20 Annex C (informative) Example for single and double wall calculation .22 Annex D (informative) Iteration method for exact results of a double w

    21、all enclosure 24 Annex ZA (normative) Normative references to international publications with theircorresponding European publications.3 1 Bibliography .30 Figure 1 Enclosure types. .7 Figure 2 Flow chart for establishing the absorption factor9 Figure 3 Example of measurement set-up for enclosure ab

    22、sorption factor .12 Figure 4 Heat transfer through walls .14 Figure 5 Airflow between walls .16 Figure B.1 Geometric angles for solar radiation impact .20 Figure D.1 Thermal model for double wall enclosure .24 Figure D.2 Iteration procedure for double-wall enclosures .26 EN 62194:2005 3 Table 1 Conv

    23、ection heat transfer coefficients .11 Table 2 Parameters for single-wall enclosure calculation 17 Table 3 Parameters for double-wall enclosure calculation (simple method)18 Table C.1 Given parameters for single-wall enclosure calculation .22 Table C.2 Given parameters for double-wall enclosure calcu

    24、lation (simple method) 23 Table D.1 Given parameters for double wall enclosure calculation 28 Table D.2 Starting values for iterations .28 Table D.3 Results after first iteration block . 28 Table D.4 Results after second iteration block 29 EN 62194:2005 4 INTRODUCTION When installing enclosures with

    25、 electronic components, the climatic conditions are very important, as the function of the electronics is affected by the ambient temperature. Because of heat load and solar radiation, the enclosures become hot. Since the heat transfer via the enclosure surface is often not sufficient, a climate con

    26、trol unit may be required to maintain tolerable enclosure internal conditions. For the enclosure design, the effect of the solar radiation was either estimated via the solar constant or added with a fixed value for heat load. Closer observation of the radiation allows for a more accurate and cost-ef

    27、ficient method of enclosure thermal performance evaluation. There are existing standards defining the environmental conditions: for outdoor enclosures, IEC 61969-3 and EN 300 019 and, for indoor enclosures, IEC 60721, EN 300 019, and IEC 61587-1. Dimensional standards referred to for outdoor enclosu

    28、res are IEC 61969-1 and IEC 61969-2, and, for indoor enclosures, IEC 60297-2, EN 300 119 and IEC 60917-2. As requested by users and manufacturers, a unified heat management property of empty enclosures had to be developed. This standard establishes a method of thermal performance evaluation for encl

    29、osures. EN 62194:2005 5 METHOD OF EVALUATING THE THERMAL PERFORMANCE OF ENCLOSURES 1 Scope This International Standard provides a method of thermal performance evaluation for empty indoor enclosures according to IEC 60917 and IEC 60297, and, for outdoor enclosures according to IEC 61969. This standa

    30、rd contains criteria to determine the thermal absorption factors relating to principles of enclosure design; internal heat load; sun radiation. The enclosure absorption factor is intended to provide a common value for comparing and selecting enclosures built in accordance with this standard. 2 Norma

    31、tive references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. IEC 60297 (all parts), Dimensions

    32、 of mechanical structures of the 482,6 mm (19 in) series IEC 60721-2-4, Classification of environmental conditions Part 2-4: Environmental condi- tions appearing in nature Solar radiation and temperature IEC 60917 (all parts), Modular order for the development of mechanical structures for electronic

    33、 equipment practices IEC 61969 (all parts), Mechanical structures for electronic equipment Outdoor enclosures EN 62194:2005 6 3 Terms, definitions, symbols and abbreviations 3.1 Definition of enclosure design principles The enclosure design influences heat flow. The following enclosure types are def

    34、ined and illustrated in Figure 1. A Single-wall B Double-wall (with insulation/without insulation/with or without airflow) C Single-wall and sun-shield D Double-wall and sun-shield (with insulation/without insulation/with or without airflow) A B C, D IEC 1258/05 Figure 1 Enclosure types 3.2 Symbols

    35、and abbreviated terms A Area of the surfaces of the enclosure excluding the bottom in square metres (m 2 ) A Material absorption factor E A Enclosure absorption factor A WCross-section of the double wall in square metres (m 2 ) a wWall azimuth angle a 0Sun azimuth angle c FCorrective factor for doub

    36、le-wall calculation (simple method) c p,airSpecific heat capacity of air in joules per kilogram and per kelvin (J/(kg K) h Sun-height angle k Heat transfer rate in watts per square meter and per kelvin (W/(m 2 K) P Heat load in watts (W) EN 62194:2005 7 8 10 Tr Q Heat transfer through enclosure wall

    37、s caused by transmission in watts (W) vent Q Heat transfer transported by the airflow between the double wall in watts (W) dif q Diffuse solar radiation in watts per square metre (W/m 2 ) g q Solar radiation received on horizontal surfaces in watts per square metre (global radiation) (W/m 2 ) i q Sp

    38、ecific internal heat load in watts per square metre (W/m 2 ) s q Solar total radiation received through the atmosphere in watts per square metre (W/m 2 ) (normal direction to the sun) w q Solar radiation (direct and diffuse) on the enclosure wall in watts per square metre (W/m 2 ) s j Material thick

    39、ness of material j used for the wall in metres (m) T AAmbient air temperature in kelvins (K) T WWall temperature on the outside of the enclosure in kelvins (K) t aAmbient temperature in degrees Celsius (C) t a,maxMaximum ambient temperature in degrees Celsius (C) t iAverage temperature inside the en

    40、closure in degrees Celsius (C) t i,maxMaximum allowed temperature inside the enclosure in degrees Celsius (C) t mAir temperature between the double wall in degrees Celsius (C) t wWall temperature on the outside of the enclosure in degrees Celsius (C) t wiWall temperature of the interior wall of a do

    41、uble-wall enclosure in degrees Celsius (C) w Wind speed in metres per second (m/s) w wAir speed between the double wall in metres per second (m/s) kaConvection heat transfer coefficient outside in watts per square metre and per kelvin (W/(m 2 K) kiConvection heat transfer coefficient inside in watts

    42、 per square metre and per kelvin (W/(m 2K) radRadiation heat transfer coefficient in watts per square metre and per kelvin (W/(m 2 K) Emissivity of the enclosure surface treatment Incident angle jThermal conductivity of material j used for the wall in watts per metre and per kelvin (W/(m K) airDensi

    43、ty of air in kilograms per cubic metre (kg/m 3 ) EN 62194:2005 9 4 Flow chart for establishing the absorption factor The flow chart shown in Figure 2 describes the different steps that are necessary for the determination of the thermal performance of the enclosure. The details of the different steps

    44、 are explained in the clauses following this chart. Evaluation of the heat load (see Clause 5) Definition of the environmental conditions (see Clause 6) Outdoor application: Maximum ambient temperature Thermal criteria Solar radiation Wind Indoor application: Maximum ambient temperature Thermal crit

    45、eria Enclosure absorption factor known? Result and presentation (see Clause 8) Determination of the enclosure absorption factor (see Clause 7) NO YES IEC 1259/05 Figure 2 Flow chart for establishing the absorption factor EN 62194:2005 10 5 Evaluation of the heat load For thermal performance it is im

    46、portant to understand the heat load in the interior of the enclosure. If the heat load of the installed components is unknown, the power consumption of the installed equipment can be used for estimating the internal heat load. P heat load in watts (W); A P q = i specific internal heat load in watts

    47、per square metre (W/m 2 ). 6 Environmental conditions 6.1 Outdoor applications 6.1.1 Ambient temperature limits Understanding the ambient temperature limits is necessary for the following calculations: t a,maxmaximum ambient temperature in degrees Celsius (C); t i,maxmaximum allowed temperature insi

    48、de the enclosure in degrees Celsius (C). 6.1.2 Solar radiation The solar total radiation s q is indicated in W/m 2 . It is dependent on the enclosure installation site, the time of the day, the time of the year and on the turbidity coefficient of the atmosphere. The Angstrom turbidity coefficient ex

    49、presses the scattering and absorption of the aerosol particles in the atmosphere. For further details, refer to IEC 60721-2-4. The total solar radiation is composed of direct and diffused radiation. The following describes different methods to determine the solar radiation for an enclosure by a) measuring the so


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