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Note the unit used for thermal resistivity of the soil in the Thirteenth Edition of the IEE Wiring Regulations was thermal ohm-cm as seen in Figure 2. All cable sizing methods more or le ss follow the same basic six step process: 1) Gathering data about the cable, its installation conditions, the load that it will carry, etc 2) Determine the minimum cable size based on continuous current carrying capacity 3) Determine the minimum cable size based on voltage drop considerations 4) Determine the 2023 The Institution of Engineering and Technology. BS 7671:2008 . More than six cables grouped together require a de-rating factor of 0.85. Whilst technology has advanced significantly since then, the laws of physics remain unchanged. Thank you for helping keep Eng-Tips Forums free from inappropriate posts.The Eng-Tips staff will check this out and take appropriate action. A. Non-sheathedcablesinconduitina For example, suppose a cable had an ambient temperature derating factor of = and a grouping derating factor of =, then the overall derating factor = =. Total derating factor = 0.89 * 1.05 * 1.0 = 0.93. %%EOF
The calculation of cable rating follow t he derating factor method, see Cable Derating (Factors) . 2023 The Institution of Engineering and Technology, The Institution of Engineering and Technology is registered as a Charity in England and Wales (no 211014) and Scotland (no SC038698). ERA is a UK based organisation, and these standards reflect this. Figure 3: extract from the Fourteenth Edition of the IEE Wiring Regulations 1966. This is done by dividing the rating of the protective device (In) by any appropriate rating factor/s (Ca x Cc x Cd x Cf x Cg x Ci x Cs). Current-carrying capacity of cables installed in concrete cable troughs, The impact of Amendment 2 of the 18th edition (BS 7671:2018+A2:2022), COVID-19 and how it has changed the way we work, Section 514 identification and notices in the Amendment No. To ascertain that the current-carrying capacity of the circuit is sufficient factoring the presence of harmonics in the system, Table 4Aa (BS7671 - 2011) provides some factors in determining the cable sizes. The method involves calculating a temperature rise of the air in the trough above its ambient, with the rating then being calculated as though it were in free air, but with the increased temperature. Figure 2: extract from the Thirteenth Edition of the IEE Wiring Regulations. Please let us know here why this post is inappropriate. Do you need to include all cables fixed to a cable tray when calculating grouping factors. 148 0 obj
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According to the IEEE document Ampacity Calculations for Cables in Shallow Troughs (G. Anders, M. Coates and M. Chaaban), a draft document has been found that derives a simple equation for the calculation of thermal resistance of a trough. These factors are applied to the cable-free air rating identified in the relevant table in Appendix 4. Thanks. The series of reports are called the ERA 69-30 series, previously called F/T183 and first published in 1955 have been referred to in the IEE Wiring Regulations for many years. Where In our example we have an ambient temperature of 35 deg C (Ca = 0.94 From Table 4B1) and some thermal insulation in a stud wall but with the cable touching the inner surface of the wall (aka reference method 102 in table 4D5). Using the factors noted earlier: 285 A x 0.80 x 0.88 = 201 A. Click Here to join Eng-Tips and talk with other members! stream Fictitious Dimensions. , #gc6aa5 Derating: No derating is currently applied to the current ratings tables 310.15 (B) (16) and 310.15 (B) (17).. The physics involved with heat loss have similarities with those of mechanical engineering and are based on heat transfer principles. For smaller projects, this may not have much of an impact, but for larger projects and high design currents, this could be extremely beneficial, in terms of both physical size and cost. Reference method D of BS 7671:2018+A1:2020 should be applied for cables buried in the ground in and around buildings. capacity of a cable found in Appendix 4 of Bs 7671; i n is the rated current or current setting of the overcurrent device; C g is rating factor for grouping; C a is rating factor for ambient temperature; C i is rating factor for conductors surrounded by thermal insulation; C f is rating factor for semi-enclosed fuses (Bs 3036); C s is rating . 0000002651 00000 n
Soil resistivity is affected by many factors including geographic location, soil composition and water flow and it will also change seasonally. For example, the temperature in an attic reaches 125 degrees F (52 C) in the summertime. 0000088434 00000 n
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Derating is necessary for multiple cables in proximity. The generally accepted depth for cables direct buried and cables buried in duct is 600mm to 650mm. wire cross section and unequal current distribution. 4 0 obj Table 4C6 of BS 7671:2018+A1:2020 provides rating factors for cables enclosed in concrete floor troughs. Cable sizing compiles with: - BS 7671, IEE Wiring Regulations Cable size is selected as follows: 1. Solar Radiation Effects. stream We're about to take you to the IET registration website. There are nine parts to the ERA 69-30 report series, covering different types of cables and installation methods. Dose bicc comply? Grouping factors on multicore cables jbrameld over 2 years ago Good afternoon learned colleagues. 0000009088 00000 n
These standards contain methods for calculating the permissible current rating of cables from details of the permissible temperature rise, conductor resistance, losses and thermal resistivities, using analytical methods. L"w-iP7w5@P*YuqrBm\ Although the document is a British Standard, it is also known as (and jointly labelled as) the IEE Wiring In some cases, it may be necessary to perform detailed heat transfer calculations to determine a cables current-carrying capacity. 0000011053 00000 n
As far DC cable sizing in PV projects is concerned, PV engineers consider DC cable sizing based on cable derating factors such as - depth of cable laying, ground/air temperature, thermal resistivity of soil and grouping of cable that . Myth Busters #7 - Out with the old, in with the new. The parameters considered in the standard are, ambient temperature, soil thermal resistivity, the installation methods and grouping of cables. BS 7671, Table 4E4A, reference method, current-carrying capacity, XLPE insulation, copper conductor, multi-core, armoured cable . The derating tables have been derived from IEC 60287 and aligned with IEC 60364 (although there is some fundamentaldifference). If the tray is covered for more than 6 ft. with a solid unventilated cover, the ampacities allowed are 95% of those shown in the tables. Transformer full load current is calculated by: Ifull-load = 12.5 106 / 1.73 20 103 = 361 A. Don't forget derating factors. At this point, I would usually provide some examples of calculations; however, they are far too complicated for this type of article. Impedance and voltage drop to IEC 60909 and CENELEC CLC/TR 50480. 0000009580 00000 n
For further information, see the IET Wiring Matters article Amps per pound. 1b). IEC 60502 is an International Electrotechnical Commission standard, which gives current ratings for medium voltage cables. Cable Current Rating 6. Copyright 2023 by myElectrical Engineering Limited. Current Capacity Cable current capacity calculations in BS 761 are based on the derating factor method, see Cable Derating (Factors). WTOT is the total power dissipated in the trough per metre length (W/m), p is that part of the trough perimeter that is effective for heat dissipation (m), tr is the temperature rise of the air in a cable trough (K). The international standards that cover the current-carrying capacity of cables are the IEC 60287 series for steady-state conditions and IEC 60853 for cyclic conditions for most practical applications. I Accept Cookies For example ambient temperature (Ca), buried cables (Cc), Semi-enclosed fuse to BS3036 (Cf) etc (Take a look at Appendices 4 Section 3 of BS7671 for more rating factors that may apply). DE-RATING FACTORS Our Company Genesis & Evolution Why Us KEI Power Gallery Beyond Business Certifications Downloads Clients Testimonials Reach Us Locate Us CALL (112) 681-8840 Follow Follow Toggle navigation Products & Solutions Extra High Voltage Cables High Voltage Cables Low Voltage Cables Control Cables House Wire HomeCab-FR BanFire-ZHFR The calculation method is complex and time-consuming, with additional possibilities of introducing errors, and thus the finite element method is the favoured approach of engineers today. Determine the application. Already a Member? Cable Sizing - derating factors - Wiring and the Regulations BS 7671 - IET EngX - IET EngX This site uses cookies. MV Cable Derating Factors NF C 13-200 [France] MV Cable Derating Factors NF C 13-200 [France] Mothafukin Morrissey. Total derating factors = K1*K2*K3 = 0.95*0.9*0.91 =0.77, Then multiply this value by the cable current. A derating factor is introduced that is defined in terms of the ampacity of power cables in open-top trays. So, we have In/(Ca x Ci) or 32/(0.94 x 1) = 34.04A and looking at Table 4D5 column 4 Method 102 we can see that a 6mm cable gives us a current carrying capacity of 35A which is what well be using providing that the Volt drop is okay? If the installation differs to that identified in BS 7671:2018+A1:2020, a calculation will be required. We have received your request and will respond promptly. There are consultancies that specialize in this type of work. An interesting story which I discovered whilst writing this article is that the origin of the derating factors in BS 7671 is not known. 1. 2023 the-Regs : BS7671 18th Edition Online Training, Special Locations, Bathrooms. It is important that these calculations are carried out by someone who is experienced in this field of work (which may not necessarily be an electrical engineer). - Andy. Other than the conductor sizes changing to metric, these ratings have remained unchanged. obtained from the cable manufacturer. endstream
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<. BS7671:2018+A2:2022 Let's take a quick run through the new 18th Edition Wiring Regulations book, which includes Amendment 2 that was introduced in March 2022, BS7671:2018+A2:2022. If several installation methods are adopted for a cable, such as being buried underground for part of the route, and on cable tray for the remaining part, it is common practice for the designer to select the worst-case scenario and apply that to the whole cable run. 0000071888 00000 n
Table & Column 5. 0000003576 00000 n
The current-carrying capacity of cables identified in Appendix 4 of BS 7671:2018+A1:2020 will cover most installations, but the values will be on the conservative side and will not necessarily provide the most efficiently sized cable (depending on how you define efficient). Discover how this hybrid manufacturing process enables on-demand mold fabrication to quickly produce small batches of thermoplastic parts. However, the tables were not included in the next publication, the Fourteenth Edition of the IEE Wiring Regulations in 1966 but, instead, stated that current ratings shall comply with ERA report F/T 183 as seen below in Figure 3. Cable Heating Effects due to Harmonic Distortion in Electrical Installations. of Cables) 16 x 18.0 (Factor for 4mm cable) = 289.6 Total Cable Factor = 1239.6 Standard Trunking Cable Factors Standard Trunking Capacity Factors Show entries Search: These values were based on the conditions identified in the supplement to Report No. The installation method takes into account assumed parameters, such as ambient ground temperature (Ca), soil thermal resistivity (Cs), depth of laying (Cd) and spacing factor (Cg), the correction factors for which can be found in Tables 4B2, 4B3, 4B4 and 4C2 respectively. There are certain types of cables and installation methods that are not identified and the electrical designer must make an engineering judgement or carry out bespoke calculations. Some electrical design software packages specifically refer to BICC cable data but other manufacturers data also exists, other software packages refer to ERA 69-30. There are other considerations to be taken into account by the electrical designer when selecting a suitable CSA of cable, such as length, voltage drop, energy let through (I2t) from the protective device and thus the energy withstand rating of the cable. Figure - 2 (reference fuse . Close this window and log in. 0000084854 00000 n
the-Regs : BS7671 18th Edition Online Training, BS 7671: 18th Edition Wiring Regulations Study when you want and pass your exam when you're ready. If any of the rating factors do not apply to your cable then simply remove them from the equation. BS 7671:2018+A1:2020 contains tables of ratings and rating factors for commonly used cables and installation methods. As noted in the standard, the use of the tabulated voltage drops may lead to pessimistically high calculated value. 0000002616 00000 n
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The current-carrying capacities of cables buried in the ground used in BS 7671:2018+A1:2020 and the ERA 69-30 report series are derived from the same calculation methods identified in the relevant parts of IEC 60287. Derating factors should be applied to the cable current. The nearest size of standard trunking with a capacity factor greater than 1239.6 is 75 x 50mm? The purpose of performing a cable calculation is to ensure that a cable is not overloaded. F/T 183 issued by the ERA. The thermal resistivity of soil refers to its ability to dissipate heat, which is relevant to the current-carrying capacity of cables. The rating factors for cables enclosed in concrete floor troughs were first introduced in Table 30 of the 13thEdition of the IEE Wiring Regulations, which was published in 1955. This applies to a cable in a partition where the construction includes metallic parts other than fixings irrespective of the depth of the cable. 0000078800 00000 n
The derating factor accounts for the added thermal resistance present when a. CEC Designer Veli has nearly two decades of experience in the renewable industry. capacity of the cable shall be reduced appropriately depending on the size of cable, length in Table 4 are appropriate to conductor size up to 10 mmsq in thermal insulation having a thermal conductivity greater than 0.0625 W/K.m. Part III of the ERA 69-30 provides values of current-carrying capacity and calculation methods for, sustained current ratings for 600/1000 V and 1900/3300 V cables with 70C thermoplastic insulation (ac 50 Hz and dc). The values of current-carrying capacity tabulated in the report are in accordance with IEC 60287 Electric cables - Calculation of the current rating. Usually the derating factor is tabulated in a nation's wiring regulations. Please read our. For example, suppose a cable had an ambient temperature derating factor of k amb = 0.94 and a grouping derating factor 5/12/13Cable Sizing Calculation - Open Electrical Cable Sizing Calculation From Open . Electric power & transmission & distribution Forum, https://files.engineering.com/getfile.aspx?folder=13c66bdb-39dd-4639-a3e2-7, https://files.engineering.com/getfile.aspx?folder=94810acb-102b-494c-ad52-a, Low-Volume Rapid Injection Molding With 3D Printed Molds, Industry Perspective: Education and Metal 3D Printing. For more details on BS 7671 voltage drop calculations, see. ERA 69-30. For more detailed information on the cookies we use, please check our Cookie Policy. l^~u%_?2J?Xm1~0lQ3C7X
ncF?' Cloud based - any device, anywhere. BS 7671:2018+A1:2020 provides tabulated current-carrying capacity values for common installation methods. It is assumed that the maximum ambient temperature is 30C and the maximum ground temperature id 20C. The document is not dated and no author is provided, but it is believed to have been prepared by one or more of the UK cable manufacturers. xref
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apply some engineering judgement). Within this session you can put your question directly to the IET. British Cables Company introduces new cables to its range. For higher temperatures, a derating will have to be applied according to NEC. How much current a cable can carry is down to physics and is a highly technical subject in its own right. ;;u(1*z/}3oG'0 ^Am;Oy4?~ Et'sQh)sF&)O Re: Cable Size for 7.5 KW motor 03/29/2010 1:30 AM By applying derating factor as 0.7 to 0.75 to 3Cx4Sq.mm, u may . Voltage drop value should be in the accepted limits. However, this is unlikely to be a cost-effective option for smaller CSA cables when compared with using a more conservative cable size. Six cables grouped together require a de-rating factor of 0.85 30C and maximum! For more details on BS 7671 is not overloaded for example, the temperature in an attic 125... With IEC 60364 ( bs7671 cable derating factors there is some fundamentaldifference ) with using a conservative... 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