Single & Three Phase Tap Lines in Rural Distribution System – from the viewpoint of loss minimization ⚡️ Final Part
Ever wondered how this electricity is delivered to ur home..? 👀
How this thing is generated and then transmitted from miles to ur fingertips..? Ever thought of what difference it makes when using three phase line instead of single phase connections..????
Well, for me I was kind of fascinated with all these electrical technology and always wanted to find out What happens if we don’t do things the way we are doing today..? What change it may bring to the entire system..? 🧐
My research on “Rural Distribution System” was aiming to change the distribution system a little bit and analyze the results of the change.
I’ve already discussed about the Single and Three phase system basics in Part #1 and shown the calculation for Single phase system in Part #2 of this series post. Let’s see what happens if the same Distribution System is constructed using Three Phase connections today.
the image is used for thumbnail purpose, courtesy to pixabay...!
Considering the same 10 Km of backbone line we used to simulate the Single Phase System.
Total load flowing through the phases was (110+80+74) = 264A. So, the average load per phase is 88A. If all the taps are three phase, then we can get balance system with per phase current is equal and the value is 88A.
For the first, we consider the tap which was connected in R-phase in the single phase tapping.
🔸 The load was 33A. If the tap was constructed in three phase, we can get balanced load of 11 Amps per phase.
🔸 With the same consideration, second tap which is 4 Km apart from the starting point, carries 12A per phase.
🔸 Thirdly, the tap is 5 km apart from starting point and carries balanced load of 11A per phase.
🔸 Fourth tap which is 8 Km apart from starting point, carries balanced load of 11A per phase.
🔸 For fifth and sixth tap which are apart 9 Km & 10 km from the starting point and carries balanced load of 22A & 14A per phase.
The connection and currents are shown in Fig. 1. given next.
Fig. 1. Three phase system with three phase tap.
Sample loss calculation for Section-1, Tap-1 is given below,
Analyzing the detailed cost for both Single and Three phase connection using Microsoft Excel Solver, it is clear that the cost for three phase line with single phase tap is higher than that of all three phase tap. So the three phase tap is more efficient in terms of expense for RDS.
I was trying to focus on the cost analysis of Rural Distribution System (RDS) using different tap lines.
The objective of my work was to verify the effectiveness of three phase tap lines over the single phase. Detailed calculation for both single and three phase tap lines are presented. From my research work, it is clear that three phase tap lines provides more effective solution in terms of expense. Moreover, Three Phase lines have capability to connect more rural areas with same amount of expense comparing to Single Phase distribution system.
References 📝
🔗 C. Palanichamy, N. S. Babu, "A visual package for educating preparatory transmission line series compensation", iEEE Xplore, accessed on 28th February, 2018.
🔗 C. Jackson, "Transmission line replacements for a lumped element reflectionless filter", iEEE Xplore, accessed on 28th February, 2018.
🔗 C. Mao, X.Wang , J. Lehr, "Analysis of peak power efficiency and droop from a nonuniform transmission line", iEEE Xplore, accessed on 28th February, 2018.
🔗 B. Kordi, J. LoVetri, G. Bridges, "Integration of an FDTD analysis of lossy multiconductor transmission lines within a general-purpose circuit simulator", iEEE Xplore, accessed on 28th February, 2018.
Thanks for paying attention..! 🤗
Looking forward to write more about Electrical Engineering Stuffs in future...!😇
Stay blessed..! Stay curious..!
~Tennis Girl 🎾🎾
Being A SteemStem Member
You're on a role with these posts! :)
You are very smart. It is interesting that my doing this analysis you can find out which path is faster/cheaper. If you can implement this in the real world you will be very successful! Good luck on your exams :)
Thanks buddy...!! 🤗
Hoping to go further with this research and see what change we can bring to the society...! 😇
These are fantastic, thanks for educating the community on power distribution in simple terms, please keep this kind of series going!
thanks a lot..! 🤗
u r being a real inspiration for me here in steemit..! 😇
surely i will be trying to write more about engineering stuffs explained simply...!
You made me laugh with you comment about physics in discord, that is "scares you".
It's the electrical stuff in Physics that used to do my head in. I don't think you need to worry too much after seeing this post.
Good job by the way :) I'm gonna read the others one in a bit. It's interesting.
hehehe..! I dnt like physics tht much but fortunately physics became part of my life now..! 😃
btw thanks for the compliment...! 🤗
You're welcome :D
Embrace it, love it, become best friends with it, that's why i did. I was cool before now i'm just a physics nerd haha.
Wow, I won't say I understood it all but at least, what caught my attention in your attention is that it matched quite well an article I read about a town in Germany which re-took its power grid and managed it itself, and much more efficiently. Here it is if you want to read it:
https://www.theguardian.com/commentisfree/2018/feb/28/small-town-wolfhagen-community-revolution-german-europe-energy-contract
Thanks for the info abt Germany..!
i see they implemented renewable energy efficiently and that changed their life..!!!
thts really good in terms of development as well as the environment...!
electricity is the source of life, thank you for sharing