IEEE 1B-1944 - AIEE Report on Guiding Principles for the Specification of Service Conditions in Electrical Standards.pdf

1、lEEE STANDARDS /RCH VhO May 1944 DO NOT REPORT ON GUIDING PRINCIPLES FOR THE SPECIFICATION OF SERVICE CONDITIONS IN ELECTRICAL STANDARDS Approved May 23, 1944 by A.I.E.E. Standards Committee Published by THE AMERICAN INSTITUTE OF ELECTRICAL ENGINEERS 33 West Thirty-ninth Street, New York PREFACE The

2、 formulation and revision of standards by many technical committees has resulted in non-uniformity in the treatment of service conditions. This report has been prepared as a guide to technical committees for use when standards are being prepared or revised, with the object of obtaining consistency,

3、insofar as practicable, among the standards for various kinds of electrical equipment, which must often operate under the same service conditions. Service conditions are specified to give the limiting conditions of operation for which standard equipment is designed. For example, ambient temperature

4、values should be selected which, in combination with standard temperature rises, limit insulation temperatures to suitable values. By specifying a limiting value in “Service Conditions,“ a readily usable simple means of stating conditions for which standard ratings are suitable is provided. The appl

5、ication and operation of standard equipment under conditions more severe than the limiting values specified in Usual Service Conditions may sometimes be justified economically. The use of standard equipment under more severe conditions and the acceptance of shorter than usual life or less margin of

6、safety may be preferred to obtaining equipment specially designed for the conditions. This may apply particularly to temperatures, if the excessive temperatures are of short duration or infrequent occurrence, the cumulative effects are not objectionable and low average temperatures are prevalent. Th

7、e effect of such use should be properly evaluated for satisfactory results.* However, the aging of insulation due to temperature is not the only influence affecting the life of equipment. For example, where expansion and contraction in con ductors, due to wride variations in temperature rise, is an

8、important consideration, the effect may be more detrimental than if high but steady temperatures are maintained. This report consists of two parts. It is recommended that as far as possible selections be made from Part I for the statement of Service Conditions for particular equipment standards. For

9、 uniformity it is suggested that the exact wording be used where it applies. Part II covers application and testing. Selections from this part are recommended for inclusion as supplementary information to specific standards where applicable and desirable. * Weather Bureau Records of outdoor temperat

10、ures for a number of cities of the United States show that 40 C is seldom exceeded more than 0.5 percent of the time and that 30 C is exceeded as much as/12 percent of the time in only a very few localities. Indoor temperatures may be higher but statistical data are meagre. For more complete informa

11、tion regarding temperature and its effects, see AIEE Standards No. 1 and No. 1A. REPORT GUIDING PRINCIPLES FOR THE SPECIFICATION of SERVICE CONDITIONS IN ELECTRICAL STANDARDS PART I In the various standards there will be found a number of different situations regarding Usual Service Conditions. The

12、following three are typical. 1. The group where the maximum ambient temper ature is specified. The Standards for Bushings, Fuses, Lightning Arresters, Protector Tubes and Potential Devices where 40 C ambient is used and Marine Equipment where 50 C ambient is used are typical of this group. 2. The gr

13、oup where both the maximum and daily average temperatures of the cooling medium are speci fied. Standards for Transformers, Regulators and Neutral Grounding Devices are typical of this group. 3. The group where a higher ambient temperature is specified for silver contacts than for copper con tacts.

14、Standards for Circuit Breakers, Air Switches and Switchgear Assemblies are typical of this group. It is suggested that a selection of one of the fol lowing groups can be made for the statement of Usual Service Conditions in most of the standards for specific equipment. A. USUAL TEMPERATURE AND ALTIT

15、UDE SERVICE CONDITIONS It is recommended that the statement of Usual Service Conditions included in a standard, conform to the pattern covered by either group 1, 2 or 3 below, together with the material on Unusual Service Condi tions. Group 1 Usual Service Conditions. Equipment conforming to these s

16、tandards shall be suitable for operation at its standard rating provided that: (a) The temperature of the cooling air (ambient temperature) does not exceed 40 C. (b) The altitude does not exceed 3300 feet (1000 meters). Group 2 Usual Service Conditions. Equipment conforming to these standards shall

17、be suitable for operation at its standard rating, provided that: (a) The temperature of the cooling air (ambient temperature) does not exceed 40 C and the average temperature of the cooling air for any 24 hour period does not exceed 30 C* (b) If water cooled, the temperature of the cool ing water (a

18、mbient temperature) does not exceed 30 C and the average temperature of the cooling water for any 24 hour period does not exceed 25 C. (c) The altitude does not exceed 3300 feet (1000 meters). * For average temperature mean daily temperature as denned by the Weather Bureau. Group 3 Usual Service Con

19、ditions. Equipment conforming to these standards shall be suitable for operation at its standard rating, provided that: (a) The temperature of the cooling air (ambient temperature) does not exceed 40 C if the equipment has copper to copper contacts or equivalent. (b) The temperature of the cooling a

20、ir (ambient temperature) does not exceed 55 C if the equipment has all contacts silver surfaced or equivalent, and in addition has all conducting joints, including terminal connections, either (1) Soldered or silver surfaced and separately held mechanically, or (2) Brazed, welded or silver-soldered

21、and provided that such operation does not result in temperatures in excess of 90 C for class O, 105 C for class A or 130 C for class B insulations. (c) The altitude does not exceed 3300 feet (1000 meters). B. UNUSUAL TEMPERATURE AND ALTITUDE SERVICE CONDITIONS The application of equipment at higher

22、ambient temperatures or at higher altitudes than specified in Usual Service Conditions shall be considered as special. Standard equipment may be applied at higher am bient temperatures or at higher altitudes than speci fied, but its performance may be affected and special consideration should be giv

23、en to these applications. C. OTHER CONDITIONS WHICH MAY AFFECT DESIGN AND APPLICATIION Where other unusual conditions exist they should be brought to the attention of those responsible for the design and application of the equipment. Examples of such conditions are: (a) Damaging fumes or vapors, exc

24、essive or abrasive dust, explosive mixtures of dust or gases, steam, salt spray, excessive moisture or dripping water, etc. (b) Abnormal vibration, shocks, or tilting. (c) Excessively high or low temperatures. (d) Unusual transportation or storage conditions. (e) Unusual space limitations. (f) Unusu

25、al operating duty, frequency of opera tion, difficulty of maintenance, poor wave form, unbalanced voltage, special insulation requirements, etc. PART II The following is recommended for inclusion as supplementary information in specific standards where applicable. A. APPLICATIONS AT ALTITUDES GREATE

26、R THAN 3300 FEET (1000 METERS) (a) Temperature Equipment which depends upon air for its cooling medium and is designed for standard temperature rise, may be used at altitudes greater than 3300 feet (1000 meters) without exceeding standard tempera ture limits, provided that either or a combination of

27、 the following conditions prevail: *(1) The temperature of the cooling air is less than the limiting ambient temperature by an amount corresponding to the change in temperature rise due to altitude. *(2) The load to be carried is less than the rating of the equipment by an amount corresponding to th

28、e appropriate altitude correction. * EXAMPLE FOR ROTATING MACHINE STANDARDS. It is recognized as good practice to use machines of standard temperature rise at altitudes greater than 3300 feet (1000 meters) provided the temperature of the cooling air is not likely to exceed the following values for t

29、he respective altitudes: Maximum Temperature of the Cooling Air in Degrees C Altitude 3300 feet (1000 meters) 6600 feet (2000 meters) 9900 feet (3000 meters) 13200 feet (4000 meters) 40 35 30 25 * EXAMPLE FOR CIRCUIT BREAKER STANDARDS. It is recognized as good practice to use circuit breakers of sta

30、ndard temperature rise at altitudes greater than 3300 feet (1000 meters) provided the maximum current at which the equipment is used does not exceed the standard rating multiplied by the altitude current correction factor given in the following table: Altitude Altitude Current Correction Fatcor 3300

31、 feet (1000 meters) 1.00 5000 feet (1500 meters) 0.99 10000 feet (3000 meters) 0.96 20000 feet (6000 meters) 0.90 The factors given in these two examples vary with different types of apparatus and should be consid ered by the committee preparing a particular standard. (b) Insulation The dielectric s

32、trength of equipment which de pends upon air for its insulation, varies with altitude. The following tabulation shows the relative dielectric strength for altitudes above 3300 feet (1000 meters) at any given temperature. Altitude Correction Factor Altitude for Dielectric Strength 3300 feet (1000 met

33、ers) 1.00 4000 feet (1200 meters) 0.98 5000 feet (1500 meters) 6000 feet (1800 meters) 7000 feet (2100 meters) 8000 feet (2400 meters) 9000 feet (2700 meters) 10000 feet (3000 meters) 12000 feet (3600 meters) 14000 feet (4200 meters) 160O0 feet (4800 meters) 18000 feet (5400 meters) 20000 feet (6000

34、 meters) 0.95 0.92 0.89 0.86 0.83 0.80 0.75 0.70 0.65 0.61 0.56 B. TESTING OF EQUIPMENT FOR ALTITUDES NOT EXCEEDING 3300 FEET Equipment for use at altitudes not exceeding 3300 feet (1000 meters) may be tested at any altitude not exceeding 3300 feet (1000 meters) and no altitude correction shall be a

35、pplied to the observed tempera ture rise. C. TESTING OF EQUIPMENT DESIGNED FOR ALTITUDES EXCEEDING 3300 FEET When equipment is designed for application at high altitudes acceptance tests may be made at any altitude less than 3300 feet (1000 meters) and altitude correction factors applied. (a) Correc

36、tion of Observed Temperature Rise for Altitude When equipment is designed for standard tem perature rise at some specified altitude in excess of 3300 feet (1000 meters) the temperature rise, as de termined by test at any altitude of 3300 feet (1000 meters) or less, shall be less than the standard te

37、m perature rise, by the following corrections for each 330 feet (100 meters) that the specified altitude exceeds 3300 feet (1000 meters). (Correction factors selected for each type of equipment to be given here.) (b) Test Voltages at Altitudes Less than 3300 Feet (1000 Meters) When equipment which d

38、epends upon air for its insulation is designed for service at some specified altitude in excess of 3300 feet (1000 meters), the insulation test may be made at any altitude of 3300 feet (1000 meters) or less with a test voltage given by the following formula: where V = test voltage at location of tes

39、t. Vs = standard test voltage. A = altitude correction factor for dielec tric strength. Where the test code specifies correcting dielectric test voltages for air conditions at the test location, the correction for air conditions also should be applied to this test voltage formula. Standard air conditions Barometric pressure Temperature Humidity 29.92 inches (760 mm) 25 C (77 F) 0.6085 inches (15.45 mm)