IEEE 485 1983
$21.67
IEEE Recommended Practice for Sizing Large Lead Storage Batteries for Generating Stations and Substations
Published By | Publication Date | Number of Pages |
IEEE | 1983 | 19 |
New IEEE Standard – Inactive – Superseded. Methods for defining the dc load in a generating station or a substation and for sizing a lead storage battery to supply that load are described. Some factors relating to cell selection are provided for consideration. This standard is based on commonly accepted methods used to define the load and to ensure adequate battery capacity and is applicable to all installations and battery sizes. The installations considered are designed for full-float operation with a battery charger serving to maintain the battery in a charged condition as well as to supply the normal dc load.
PDF Catalog
PDF Pages | PDF Title |
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5 | 1 Scope 2 Definitions 3 References |
6 | 4 Defining Loads 4.1 General Considerations 4.2 Load Classifications 4.3 Duty Cycle Diagram |
7 | 5 CellSelection 5.1 CellDesigns Fig 1 Diagram of a Duty Cycie |
8 | 5.2 SeIection Factors 6 Determining Battery Size Number of Cells |
9 | 6.2 Additional Considerations Table 1 Cell Size Correction Factors for Temperature |
10 | 6.3 CellSize |
11 | Fig 2 Generalized Duty Cycle Diagram |
12 | 6.4 Cell Sizing Work Sheet |
13 | Fig 3 Cell Sizing Work Sheet |
14 | A1 Required Number of Cells A2 Required Cell Capacity Table A1 Sample Cell Sizing Data |
15 | Fig A1 Sample Working Sheet Using KT Capacity Factor |
16 | Fig A2 Battery Duty Cycle Diagram |
17 | Fig A3 Hypothetical Composite Rating Curve for XY Z Cell Manufactured by ABC Company |
18 | Fig A4 Sample Work Sheet Using RT Capacity Factor |