Design of electrical distribution system for industrial plant
Electrical distribution system plays an important role in our daily living, as electrical energy is necessary to run our home and industrial appliances. Consumers demand the delivery of electrical energy to be continuous and seldom to be interrupted, but there is occurrence of breakdown sometimes d...
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T Technology (General) T Technology (General) Wong, Tee Foo Design of electrical distribution system for industrial plant |
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Electrical distribution system plays an important role in our daily living, as electrical energy is necessary to run our home and industrial appliances. Consumers demand the
delivery of electrical energy to be continuous and seldom to be interrupted, but there is occurrence of breakdown sometimes during the day or night time. Electrical energy is
generated by power station, converted from thermal energy into mechanical energy by turbine, and then transformed into electrical energy by generator. The generated electrical energy is transmitted to the load centers via high voltage transmission networks. From the load center (power distribution substation), electrical power supply will be distributed via power transformer to distribution substation and stepped down to lower voltage level for
electrical distribution system networks. This research was conducted to evaluate design of electrical distribution system, from 11kV to 400V electrical distribution system up to the final circuits for an upgrading power supply from an existing warehouse building into a manufacturing factory. In this study, aspects determined by follow design procedure for the selection of medium voltage switch gear, type of distribution transformer, low voltage switch
board, low voltage components, electrical cable, conductor of its current carrying capacity capability and earth fault protection. The subsequent technical analysis in this dissertation discusses about power factor improvement and relay protection unit that plays an important role in low voltage electrical distribution system. The key finding that the proposed electrical distribution system able to provide adequate, safety, compliances voltage regulation and
reliable system and keep it the minimum of interruption electricity power supply. |
| format |
Thesis |
| qualification_name |
Master of Philosophy (M.Phil.) |
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Master's degree |
| author |
Wong, Tee Foo |
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Wong, Tee Foo |
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Wong, Tee Foo |
| title |
Design of electrical distribution system for industrial plant |
| title_short |
Design of electrical distribution system for industrial plant |
| title_full |
Design of electrical distribution system for industrial plant |
| title_fullStr |
Design of electrical distribution system for industrial plant |
| title_full_unstemmed |
Design of electrical distribution system for industrial plant |
| title_sort |
design of electrical distribution system for industrial plant |
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Universiti Teknikal Malaysia Melaka |
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Faculty Of Electrical Engineering |
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2017 |
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http://eprints.utem.edu.my/id/eprint/20520/1/Design%20Of%20Electrical%20Distribution%20System%20For%20Industrial%20Plant.pdf http://eprints.utem.edu.my/id/eprint/20520/2/Design%20of%20electrical%20distribution%20system%20for%20industrial%20plant.pdf |
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my-utem-ep.205202022-09-20T12:48:31Z Design of electrical distribution system for industrial plant 2017 Wong, Tee Foo T Technology (General) TK Electrical engineering. Electronics Nuclear engineering Electrical distribution system plays an important role in our daily living, as electrical energy is necessary to run our home and industrial appliances. Consumers demand the delivery of electrical energy to be continuous and seldom to be interrupted, but there is occurrence of breakdown sometimes during the day or night time. Electrical energy is generated by power station, converted from thermal energy into mechanical energy by turbine, and then transformed into electrical energy by generator. The generated electrical energy is transmitted to the load centers via high voltage transmission networks. From the load center (power distribution substation), electrical power supply will be distributed via power transformer to distribution substation and stepped down to lower voltage level for electrical distribution system networks. This research was conducted to evaluate design of electrical distribution system, from 11kV to 400V electrical distribution system up to the final circuits for an upgrading power supply from an existing warehouse building into a manufacturing factory. In this study, aspects determined by follow design procedure for the selection of medium voltage switch gear, type of distribution transformer, low voltage switch board, low voltage components, electrical cable, conductor of its current carrying capacity capability and earth fault protection. The subsequent technical analysis in this dissertation discusses about power factor improvement and relay protection unit that plays an important role in low voltage electrical distribution system. The key finding that the proposed electrical distribution system able to provide adequate, safety, compliances voltage regulation and reliable system and keep it the minimum of interruption electricity power supply. 2017 Thesis http://eprints.utem.edu.my/id/eprint/20520/ http://eprints.utem.edu.my/id/eprint/20520/1/Design%20Of%20Electrical%20Distribution%20System%20For%20Industrial%20Plant.pdf text en public http://eprints.utem.edu.my/id/eprint/20520/2/Design%20of%20electrical%20distribution%20system%20for%20industrial%20plant.pdf text en validuser https://plh.utem.edu.my/cgi-bin/koha/opac-detail.pl?biblionumber=105947 mphil masters Universiti Teknikal Malaysia Melaka Faculty Of Electrical Engineering 1. Amit Kumar. M, Sharman R.N, Sushil Chau han and S.D Agnihotri, 2011. Study and Diagnosis Of The Power Transformer Bushing insulation system. National Institute of Technology, Hamirpur, Himachal Pradesh, India. IEEE 2. Andreas Kratzchmar, A. Wolfgang Feil, W. Increased Requirements on The Switching 3. Behaviour Of Industrial Switching Caused By New High-Efficiency Motors. June 22-26, 4. 2014. 27th International Conference On Electrical Contacts. Dresden, Germany. 5. Bas. Bouman, B. and Andre Muileboom, A. 2009. Essential Changes In The Product 6. Standard For Low Voltage MCC And Switchgear. IEEE Conference Record PCIC Europe. 7. IEEE Conference Publication. Pg.64-69, IEEE. 8. Bayliss, C., Hardy. B. 2007. Transmission and Distribution Electrical Engineering (Third Edition). Burlington, USA. Elsevier Ltd. 9. Bharat Heavy Electricals Limited, BHEL. 2005. Handbook of Switchgears. New Delhi. Tata Mcgraw-Hill Publishing Company Limited. 10. Don. Gies, D. 2006. Out Door ITE-Global Deployment. IEEE Symposium On Product Safety Engineering. IEEE Conference Publication Pg. 1-10. 11. D. Penkov. D, Vollent. C, Durand, C, Husin, A.M, Edey K.C. 2012. IEC Standard High 12. 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IEEE Conference Publications. Pg. 1-5. 27. Marcelo Valdes, M, Xuhui Ren, R, Shridhaval Sapre, S, Marty Trivette, M, Steve Meiners, S. 2012. IEC &IEEE Medium Voltage Distribution Equipment Standards, Review & 28. Analysis. Petroleum and Chemical Industry Conference(PCIC). IEEE Conference Publications. Pg. 1-16. 29. Michael Hilton, M. Paul Dale, P. 2007. To Test Or Not To Test-A Case For Testing 30. Complete Assemblies To IEC 60439-1. 4TH European Conference On Electrical and Instrumentation Applications in the Petroleum & Chemical Industry. IEEE Conference Publications. Pg. 1-7. 31. MS 1936: 2016 Electrical installation of buildings-Guide to MS IEC 60364 32. MS 1979:2015 Electrical installation of Buildings-Code of Practice 33. Pompoli. M, Mazzetti, C, and Bartnikas, R. 2005. Testing Evaluation and standardisation of transformer oils. IEEE International Conference On Dielectric Liquids. IEEE Conference Publications. Pg. 361-364. 34. Paithankar, Y.G., Bhide. S.R. 2003. 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