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Year 2020, Volume: 12 Issue: 2, 700 - 710, 30.06.2020

Emre Metin Özgür Karagülle Kardelen Kamışlı Ertuğrul Çam

https://doi.org/10.29137/umagd.747710

Abstract

References

  • Anderson, P.M., FOUAD, A.A., (1994), Power System Control and Stability, Revised Printing, IEEE Press, 1994.
  • Arrillaga, J., Bradley, D.A. ve Bodger, P.S., (1985), Power System Harmonics, John Wiley & Sons, Norwich.
  • Arrillaga, J. ve Arnold, C.P., (1990), Computer Analysis of Power Systems, John Wiley & Sons, Essex.
  • Arrillaga, J., Smith, B.C., Watson, N.R. ve Wood, A.R., (1997), Power System Harmonic Analysis, John Wiley & Sons.
  • BERG G.J., “Assestment of critical voltage and load margins in VAR compensated power transmission systems”, electric power system research, 12,pp.63-69,1978
  • Cenelec, E. N. (2014). 50160: Voltage characteristics of electricity supplied by public distribution systems. Cenelec, Brüssel.
  • Chapman, D. 2001. Güç Kalitesi Uygulama Kılavuzu, Copper Development Association, Sarkuysan Elektrolitik Bakır Sanayi ve Ticaret A.Ş. , İstanbul.
  • Domijan, A., & Embriz-Santander, E. (1992). A novel electric power laboratory for power quality and energy studies: training aspects. IEEE transactions on power systems, 7(4), 1571-1578.
  • Dommel, H. W. (1969). Digital computer solution of electromagnetic transients in single-and multiphase networks. IEEE transactions on power apparatus and systems, (4), 388-399.
  • Dugan, R.C., McGranaghan, M.F., Beaty, H.W., “Electrical Power Systems Quality”, McGraw-Hill, 1996.
  • EM Committee. (1995). IEEE recommended practice for monitoring electric power quality. IEEE Std, c1-81.
  • Frank, J. M. (1997). Origin, development, and design of K-factor transformers. IEEE Industry Applications Magazine, 3(5), 67-69.
  • Home Power Quality, http://energyoutlet.com/res/powerqual /index.html, Energy Outlet, Iris Communications, Inc, USA, 1996.
  • Kennedy, B. W. (2000). Power quality primer. McGraw Hill Professional.
  • Kocatepe, C., Uzunoğlu, M., Yumurtacı, R., Karakaş, A., & Arıkan, O. (2003). Elektrik Tesislerinde Harmonikler. Birsen Yayınevi, İstanbul.
  • Kwasnicki, W. T., Fernando, I. T., & Gole, A. M. (2004). Modeling of Conventional and Advanced Static Var Compensators In An Electromagnetic Transients Simulation Program. Winnipeg, Canada.: sn.
  • Lamoree, J., Smith, J. C., Vinett, P., Duffy, T., & Klein, M. (1991, October). The impact of voltage sags on industrial plant loads. In First International Conference on Power Quality, PQA (Vol. 91).
  • Ludbrook, A. (1993). Manager's guide to electrical power quality. Iron and Steel Engineer;(United States), 70(5).
  • McGranaghan, M. F., Shaw, J. H., & Owen, R. E. (1981). Measuring voltage and current harmonics on distribution systems. IEEE Transactions on Power Apparatus and Systems, (7), 3599-3608.
  • McGranaghan, M. F., & Mueller, D. R. (1999). Designing harmonic filters for adjustable-speed drives to comply with IEEE-519 harmonic limits. IEEE transactions on industry applications, 35(2), 312-318.
  • National Electrical Manufacturers Association. (1996). American National Standard for Electric Power Systems and Equipment-Voltage Ratings (60 Hertz). National Electrical Manufacturers Association.
  • National Fire Protection Association. (2011). NFPA 70: National Electrical Code. NationalFireProtectionAssoc.
  • Radatz, J. (1998). The IEEE standard dictionary of electrical and electronics terms. IEEE Standards Office
  • Sankaran C., “Power Quality”, CRC Pres, 2001.
  • Schwartzenberg, J. W., & De Doncker, R. W. (1995, October). 15 kV medium voltage static transfer switch. In IAS'95. Conference Record of the 1995 IEEE Industry Applications Conference Thirtieth IAS Annual Meeting (Vol. 3, pp. 2515-2520). IEEE.
  • Series, T. F. (2014). Glossary and definitions of time and frequency terms.
  • Std, I. E. C. (2015). 61000-4-30: 2015. Electromagnetic Compatibility (EMC)–Part, 4-30.
  • Warren, C. M. (1992). The effect of reducing momentary outages on distribution reliability indices. IEEE Transactions on power delivery, 7(3), 1610-1617.

The Importance of Energy Quality in Medical Devices and Evaluation of Measurements Made in Kırıkkale University Medical Faculty MRI Device within the Scope of TS EN 50160

Year 2020, Volume: 12 Issue: 2, 700 - 710, 30.06.2020

Emre Metin Özgür Karagülle Kardelen Kamışlı Ertuğrul Çam

https://doi.org/10.29137/umagd.747710

Abstract

Today, the increase in demand for electrical energy has revealed a more reliable and higher quality energy concept. This subject has taken its place in electrical engineering as "Power Quality" or "Electric Energy Quality" and has made a point for its importance with the studies on it. Especially in the process of working with devices containing electronic circuits with direct current and using the alternating current offered from the network by using rectifiers, the devices may fail or become disabled due to self-protection circuits in case of power quality problems arising from the mains or the rectifiers of the device. In this article, a detailed analysis is carried out considering the problem may be due to the power quality due to the fact that the MRI device in Kırıkkale University Faculty of Medicine is in continuous failure mode. In addition, the analyzes made in accordance with TS EN 50160 standard within the scope of the research were analyzed in computer environment and the results were shared in our article. In this article, the relationship between power quality problems and grounding is also examined.

Keywords

energy analysis en50160 power qualty

References

  • Anderson, P.M., FOUAD, A.A., (1994), Power System Control and Stability, Revised Printing, IEEE Press, 1994.
  • Arrillaga, J., Bradley, D.A. ve Bodger, P.S., (1985), Power System Harmonics, John Wiley & Sons, Norwich.
  • Arrillaga, J. ve Arnold, C.P., (1990), Computer Analysis of Power Systems, John Wiley & Sons, Essex.
  • Arrillaga, J., Smith, B.C., Watson, N.R. ve Wood, A.R., (1997), Power System Harmonic Analysis, John Wiley & Sons.
  • BERG G.J., “Assestment of critical voltage and load margins in VAR compensated power transmission systems”, electric power system research, 12,pp.63-69,1978
  • Cenelec, E. N. (2014). 50160: Voltage characteristics of electricity supplied by public distribution systems. Cenelec, Brüssel.
  • Chapman, D. 2001. Güç Kalitesi Uygulama Kılavuzu, Copper Development Association, Sarkuysan Elektrolitik Bakır Sanayi ve Ticaret A.Ş. , İstanbul.
  • Domijan, A., & Embriz-Santander, E. (1992). A novel electric power laboratory for power quality and energy studies: training aspects. IEEE transactions on power systems, 7(4), 1571-1578.
  • Dommel, H. W. (1969). Digital computer solution of electromagnetic transients in single-and multiphase networks. IEEE transactions on power apparatus and systems, (4), 388-399.
  • Dugan, R.C., McGranaghan, M.F., Beaty, H.W., “Electrical Power Systems Quality”, McGraw-Hill, 1996.
  • EM Committee. (1995). IEEE recommended practice for monitoring electric power quality. IEEE Std, c1-81.
  • Frank, J. M. (1997). Origin, development, and design of K-factor transformers. IEEE Industry Applications Magazine, 3(5), 67-69.
  • Home Power Quality, http://energyoutlet.com/res/powerqual /index.html, Energy Outlet, Iris Communications, Inc, USA, 1996.
  • Kennedy, B. W. (2000). Power quality primer. McGraw Hill Professional.
  • Kocatepe, C., Uzunoğlu, M., Yumurtacı, R., Karakaş, A., & Arıkan, O. (2003). Elektrik Tesislerinde Harmonikler. Birsen Yayınevi, İstanbul.
  • Kwasnicki, W. T., Fernando, I. T., & Gole, A. M. (2004). Modeling of Conventional and Advanced Static Var Compensators In An Electromagnetic Transients Simulation Program. Winnipeg, Canada.: sn.
  • Lamoree, J., Smith, J. C., Vinett, P., Duffy, T., & Klein, M. (1991, October). The impact of voltage sags on industrial plant loads. In First International Conference on Power Quality, PQA (Vol. 91).
  • Ludbrook, A. (1993). Manager's guide to electrical power quality. Iron and Steel Engineer;(United States), 70(5).
  • McGranaghan, M. F., Shaw, J. H., & Owen, R. E. (1981). Measuring voltage and current harmonics on distribution systems. IEEE Transactions on Power Apparatus and Systems, (7), 3599-3608.
  • McGranaghan, M. F., & Mueller, D. R. (1999). Designing harmonic filters for adjustable-speed drives to comply with IEEE-519 harmonic limits. IEEE transactions on industry applications, 35(2), 312-318.
  • National Electrical Manufacturers Association. (1996). American National Standard for Electric Power Systems and Equipment-Voltage Ratings (60 Hertz). National Electrical Manufacturers Association.
  • National Fire Protection Association. (2011). NFPA 70: National Electrical Code. NationalFireProtectionAssoc.
  • Radatz, J. (1998). The IEEE standard dictionary of electrical and electronics terms. IEEE Standards Office
  • Sankaran C., “Power Quality”, CRC Pres, 2001.
  • Schwartzenberg, J. W., & De Doncker, R. W. (1995, October). 15 kV medium voltage static transfer switch. In IAS'95. Conference Record of the 1995 IEEE Industry Applications Conference Thirtieth IAS Annual Meeting (Vol. 3, pp. 2515-2520). IEEE.
  • Series, T. F. (2014). Glossary and definitions of time and frequency terms.
  • Std, I. E. C. (2015). 61000-4-30: 2015. Electromagnetic Compatibility (EMC)–Part, 4-30.
  • Warren, C. M. (1992). The effect of reducing momentary outages on distribution reliability indices. IEEE Transactions on power delivery, 7(3), 1610-1617.
There are 28 citations in total.

Details

Primary Language English
Subjects Electrical Engineering
Journal Section Articles
Authors

Emre Metin This is me 0000-0002-9905-402X

Özgür Karagülle This is me 0000-0002-7937-3103

Kardelen Kamışlı 0000-0002-5526-2767

Ertuğrul Çam 0000-0001-6491-9225

Publication Date June 30, 2020
Submission Date May 13, 2020
Published in Issue Year 2020 Volume: 12 Issue: 2

Cite

APA Metin, E., Karagülle, Ö., Kamışlı, K., Çam, E. (2020). The Importance of Energy Quality in Medical Devices and Evaluation of Measurements Made in Kırıkkale University Medical Faculty MRI Device within the Scope of TS EN 50160. International Journal of Engineering Research and Development, 12(2), 700-710. https://doi.org/10.29137/umagd.747710
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