HOW TO SIZE A TRANSFORMER !

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Electrical transformers are used in everyday life.
A transformer is a passive electrical device that is used to increase the voltage level at the power generating station (Step up) or to decrease the voltage level (Step down) for Electrical power distribution purpose.
Transformer sizing is a very important step and we must make informed decisions regarding proper transformer sizing and its impact on the electrical system under different operating and loading conditions
This video explains in detail the steps to be followed for the kVA calculation of a Transformer.
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Link for video on "Understanding Electrical Load Schedule" • UNDERSTANDING ELECTRIC...
Why is it important to size a Transformer Correctly!!
1. Higher costs due to oversized transformer, conductors, and Circuit breakers in case an oversized transformer rating is selected.
2. Larger transformer KVA Rating will result in higher fault level (assuming the same transformer impedance), which will require increased CB rating as well as increase in the maximum interrupting current.
3. In case of an undersized transformer KVA rating, it may create issues within electrical distribution systems, including loss of loads and voltage drop during starting of large motors may exceed the acceptable limits.
The starting point of the Transformer Sizing is the load that will be supplied by Switchboard/Panel that will be fed by the Transformer.
Peak Load (PL) should be used for this purpose. PL is obtained from the Electrical Load Schedule.
We should not use Connected Load for transformer kVA calculation as it will be result in an oversized transformer.
Once the Peak Load is known, the Transformer kVA rating is calculated by adding this Peak Load and the expected Future Growth
Future Growth is normally considered between 10% - 30% depending on what additional loads are expected in the future.

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Опубликовано:

4 июн 2020

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Комментарии : 86

@abubakarali8850 2 года назад

One of the best video found on youtube on this topic...the way u explain ...hats off to u sir.... Thanks

@theelectricalsolutionschan1095 2 года назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos. Please do subscribe to my channel and share with your friends.

@tanushriverma4864 4 года назад

This is a good example of sizing of machines with calculation.Very helpful for all interested,whether a student,practicing engineer or non engineers but managing the show of the business.

@theelectricalsolutionschan1095 4 года назад

Thanks a lot !!

@MagnificentVillain 10 месяцев назад

Very detailed and informative video of transformer sizing. It is going straight to my favorites. Please keep making more such informative videos.

@udayverma7823 4 года назад

This is a very practical guide for calculating the KVA rating of a transformer at any electrical installation. At any electrical installation,transformer has a unique importance.An underrated one can wreak havoc;whereas an excessively over-sized one will involve an escalation in first cost as well as in maintenance cost. The factors involved,assumptions and the examples are very clearly depicted here with numerical figures and the calculations in an involving and lucid way.Highly helpful for present and future engineers and managers of enterprises.

@theelectricalsolutionschan1095 4 года назад

Thanks for your comments.

@tikirimudiyanse 2 года назад

Very clear and simple explanation. Thank you very much.

@theelectricalsolutionschan1095 2 года назад

Glad it was helpful!

@sumitghosh955 3 года назад

This is one of the best explanation for trafo sizing. Thank you for the nice video. Expecting more to come.

@theelectricalsolutionschan1095 3 года назад

Glad you liked it! more to come

@ruthdonatus9923 2 года назад

thank you for this awesom video. well explained

@theelectricalsolutionschan1095 2 года назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos. Please do subscribe to my channel and share with your friends.

@utkalikauday6030 4 года назад

This is a great way of explaining important topics in the most lucid way! It will help a great deal in understanding. Much appreciated efforts!

@theelectricalsolutionschan1095 4 года назад

Great to hear!

@yashrajvarpe1628 3 года назад

@@theelectricalsolutionschan1095 please explain the value of j in peak load calculation.?

@chebrolupavankumar899 3 года назад

This video is excellent and easy way to understand all, we are expecting more from you in electrical design 👍👍

@theelectricalsolutionschan1095 3 года назад

Thank you, I will

@nareshdadi1441 Год назад

Thanks for your valuable efforts and quality content for educating us.. We expect more such content from you in future..

@theelectricalsolutionschan1095 Год назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos. Please do subscribe to my channel and share with your friends.

@tanushriverma4864 4 года назад

Awesome Video Mr. Anil Sahay👌

@theelectricalsolutionschan1095 4 года назад

Thanks !!

@bhushanshinde3048 Год назад

Excellent 👍

@somnathdhenki1262 2 года назад

One of the best.....

@theelectricalsolutionschan1095 2 года назад

Thanks. Glad you liked it.

@noname-ug2qx 2 года назад

Nice video. Would you please make a video of generator sizing. Keep up the good work.

@theelectricalsolutionschan1095 2 года назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos. Please do subscribe to my channel and share with your friends. Video on Generator Sizing will be uploaded shortly.

@mandardahi 2 года назад

Thank you !

@theelectricalsolutionschan1095 2 года назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos.

@socialedukation4511 Год назад

You are video is simple supper..but in continuation to this if you would have done sn example. With many loads ..it is simple super

@theelectricalsolutionschan1095 Год назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos. Please do subscribe to my channel and share with your friends

@karthikeyanp6660 Год назад

Please post a video for how size a breaker/switchgear

@sonalipalekar2260 3 года назад

Thanks a lot for a very short but informative video. This was very helpful. Please make such videos

@theelectricalsolutionschan1095 3 года назад

Thank you. Glad that it was hopeful. Please keep visiting the channel for more such videos on Electrical topics.

@adityashaw2228 5 месяцев назад

Great video

@PrasantaDas-hi8of Год назад

Please make a video on generator sizing with motor starting.

@theelectricalsolutionschan1095 Год назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos. Please do subscribe to my channel and share with your friends. Videos on the above topics are under preparation and will be uploaded shortly.

@PrasantaDas-hi8of Год назад

Your all videos are good.. kindly make a video on generator sizing

@romeosecretaria6968 5 месяцев назад

Nice discussion & explanation..thanks

@nareshdadi1441 Год назад

I have doubt on how you calculated the final impedance, since both the impedances are parallel, the formulae must be Z1*Z2 by Z1+Z2 na.. Remaining everything is crystal clear for me.. Thanks for your efforts..

@theelectricalsolutionschan1095 Год назад

Thanks for comments. I have checked the sum of parallel impedance Z2 = ZM II ZL, and it has been correctly calculated as Z1*Z2 by Z1+Z2 Z2 = 1.57833*0.54367/ (1.57833+ 0.54367) = 0.40438 p.u

@mohamedbasheer2508 4 года назад

very clear explanation.expecting good videos of such a nature in future.lot of thanks.

@theelectricalsolutionschan1095 4 года назад

Glad you liked it..keep watching

@jhontejada5773 Год назад

Good day, many times I played this video and make research on standards, i did it bec. It's quite interesting and with clear steps of calculation just to say we can depend on!!!.so far I have doubt about the 15% voltage drop at high motor terminal. Applicable fire pump..can you please help to clarify...thank you

@IDK-zg8wy Год назад

Sir, how to size transformer for 3 incomer 2 bus coupler

@theelectricalsolutionschan1095 Год назад

Sizing of a transformer is dependent on the load being fed by the transformer and not on Incomer /Buscoupler combination. In your case, for example, if the 2 Incomers are normally sharing the total load and the 3rd Incomer is just a standby incomer and switched ON in case of failure of any of the 2 Incomers, then the transformers should be sized to carry half of the total load.

@IDK-zg8wy Год назад

Im just confused in addc regulation with regards to bus coupler. Some design is 2 incomer 1 bus coupler however the transformer is sized on the individual bus and if incase 1 tx fail you need load shedding.

@teoscott1 2 года назад

Nice video. Keep it up!

@theelectricalsolutionschan1095 2 года назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos.

@BaljinderSingh-pn1mm 7 месяцев назад

Superb Explanation ❤ any one can understand if he give some time to watch carefully ❤

@theelectricalsolutionschan1095 6 месяцев назад

Thank you so much 😀

@Khan_asif17 2 месяца назад

Brilliant

@saravananlakshmanan8563 2 года назад

Could you clarify with the information about the which are the actual values used to calculate the PU impedance. i am not able to follow from where/which data is used to derive the ZT, ZM and ZL.

@theelectricalsolutionschan1095 2 года назад

Thanks for your comments. As explained in the video, ZT = p.u impedance x (Base MVA/Trafo MVA)x (Trafo kV /Base kV)^2 replacing these values indicated in the video, ZT is calculated as 0.03pu. Similarly, for other impedance values. Hope this is clear now.

@ssempalacharles4623 2 года назад

Can I use these steps in sizing of a transformer of a building in case I need it

@theelectricalsolutionschan1095 2 года назад

Thanks for your comment. Yes, the same steps can be used.

@ClaudinneV 10 месяцев назад

If ZL = Base Load Imp / Base Impedance = 0.0886/0.16 = 0.55375 p.u.. why did you obtain 0.54367 p.u ???

@hotpan_stories_ 9 месяцев назад

What values you have taken to calculate ZT?

@gigaret6076 2 года назад

This video is very easy to understand and very helpful. Does anyone know the standard that states 150% overload and 15% voltage drop when the motor starts?

@theelectricalsolutionschan1095 2 года назад

Thanks for your email. IEEE std 57.91 /IEEE-242/ IEC-354 & IEC-90 should be used for guidance regarding loading of transformers. In case of overload during motor starting, it will be for a very short duration (during the period of motor starting only). Till what percentage we can overload the transformer will depend on the ambient temperature and the duration of overload. Regarding voltage at motor terminals, it may be noted that NEMA requires that motors shall be able to start successfully at 85% of nominal voltage. Please note that Torque is proportional to square of voltage. Any further decrease in voltage will have huge reduction in starting torque.

@shavaizkhan8165 Год назад

Thanks for the valuable information. Can you please make a video on Transmission Line modeling especially Long Transmission Lines. Thanks alot

@theelectricalsolutionschan1095 Год назад

Thanks. Glad that you found the video useful. Please let me know your comments on my other videos. Please do subscribe to my channel and share with your friends.

@udayutkarsha 4 года назад

Great effort 👏

@theelectricalsolutionschan1095 4 года назад

Thanks a lot 😊

@udayutkarsha 4 года назад

Welcome 🤗

@princessamagyekye1555 2 года назад

Hi, could you please give me an instrument used in measuring the transformer gap length

@theelectricalsolutionschan1095 2 года назад

Please consult a testing equipment supplier for this...

@muddassarali6542 2 года назад

Brother, I have total load of 70 kw (01 motor = 60kw and other 10 motors =1 kw each) and all the motors will have to start at same time. What will be correct kva rating of transformer? Distance of transformer to motors is 350 meters.

@theelectricalsolutionschan1095 2 года назад

The starting KVA requirement of the 60kW Motor will impact the Transformer rating. Please calculate accordingly.

@naveenkumar-wk4qi 3 года назад

Thank u sir..good explanation...please do DC system detail explanation...

@theelectricalsolutionschan1095 3 года назад

Thanks for your comments. Glad you found it useful. Do let me know what you would like to be explained in DC system.

@naveenkumar-wk4qi 3 года назад

@@theelectricalsolutionschan1095 Regarding battery and charger sizing calculation for any plant

@theelectricalsolutionschan1095 3 года назад

Noted...will try to do a video on the topic in future

@jhontejada5773 Год назад

Nice, but i get lost in per unit application formula, can you share per unit fomulas, thanks

@jhontejada5773 Год назад

Still we will apply 6 tines starting if large motor under vfd controls?

@yashrajvarpe1628 3 года назад

@ please make a video on kva formula in terms of kw + j kvar. What is the value of j here. How to convert kva value in terms of kw+ j kvar. Please explain

@theelectricalsolutionschan1095 3 года назад

Thanks. Will try to produce a video as requested.

@MrGanesh2690 3 года назад

Understand. But how to you calculate kw +j kvar?

@theelectricalsolutionschan1095 3 года назад

kVA = kw +j kvar kVA = Sqrt [ (kW)^2 + (kVAR)^2]

@AMaz-zx9sj 3 года назад

Can you explain the details of calculating ZT(impedance of transformer)?

@theelectricalsolutionschan1095 3 года назад

Transformer Percent Impedance (Z%) is provided on the transformer nameplate. Impedance is the current limiting characteristic of a transformer and is expressed in percentage. Percentage impedance of a transformer is the percentage of the rated voltage applied at one side (primary winding) to circulate rated current on transformer keeping its other side (secondary winding) under short circuit conditions.

@kv848 3 года назад

Why didn't you consider efficiency and safety margin

@theelectricalsolutionschan1095 3 года назад

The presentation is just to demonstrate how we arrive at the transformer KVA rating. When considering a transformer selection, it is important to understand exactly how transformers work and what contributes to their efficiency. A sign of inefficiency is the presence of excess heat. Any heat generated by a transformer is a direct result of inefficiency and losses within the transformer. Some of the key contributing factors to transformer inefficiency are copper and iron losses. Hence, a more efficient transformer would mean lesser losses. With respect to Safety margin, the actual project considerations, future growth, etc need to be taken into account to decide the margin.