Voltage Profile Enhancing Using HVDC for 132KV Power System: Kurdistan Case Study

محتوى المقالة الرئيسي

Truska Khalid Mohammed Salih
Zozan Saadallah Hussain
Firas Saaduldeen Ahmed

الملخص

Nowadays power systems are huge networks that consist of electrical energy sources, static and lumped load components, connected over long distances by A.C. transmission lines. Voltage improvement is an important aspect of the power system. If the issue is not dealt with properly, may lead to voltage collapse.  In this paper, HVDC links/bipolar connections were inserted in a power system in order to improve the voltage profile. The load flow was simulated by Electrical Transient Analyzer Program (ETAP.16) program in which Newton- Raphson method is used. The load flow simulation studies show a significant enhancement of the power system performance after applying HVDC links on Kurdistan power systems. The bus voltages are significantly increased after connecting High Voltage Direct Current.

تفاصيل المقالة

القسم

Articles

كيفية الاقتباس

"Voltage Profile Enhancing Using HVDC for 132KV Power System: Kurdistan Case Study" (2022) مجلة الهندسة, 28(1), ص 52–64. doi:10.31026/j.eng.2022.01.04.

المراجع

ABASS, A., PAVLYUCHENKO, D. & HUSSAIN, Z. S. Methods Comparison for Optimal Capacitor Placement in Distribution System. 2020 International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon), 2020. IEEE, 1-6.

• ABASS, A. Z., PAVLYUCHENKO, D. & HUSSAIN, Z. S. 2021a. Survey about impact voltage instability and transient stability for a power system with an integrated solar combined cycle plant in Iraq by using ETAP. Journal of Robotics and Control (JRC), 2, 134-139.

• ABASS, A. Z., PAVLYUCHENKO, D. A., PROKOPOV, A. V. & ZOZAN, S. H. 2021b. Load Flow and Transient Stability Analyses for an Integrated Solar Combined Cycle Station in Iraqi Southern by Using ETAP. Journal of Siberian Federal University. Engineering & Technologies, 14, 5-16.

• AHMED, F. S., HUSSAIN, Z. S. & SALIH, T. K. M. 2022. Enhancing performance for three-phase induction motor by changing the magnetic flux density and core material using COMSOL. International Journal of Electrical and Computer Engineering (IJECE), 12, 62-72.

• BHASKAR, M. A., SUBRAMANI, C., KUMAR, M. J. & DASH, S. S. Voltage profile improvement using FACTS devices: A comparison between SVC, TCSC and TCPST. 2009 International Conference on Advances in Recent Technologies in Communication and Computing, 2009. IEEE, 890-892.

• BROWN, K., SHOKOOH, F., ABCEDE, H. & DONNER, G. Interactive simulation of power systems: ETAP applications and techniques. Conference Record of the 1990 IEEE Industry Applications Society Annual Meeting, 1990. IEEE, 1930-1941.

• HABBI, H. M. & ALHAMADANI, A. 2018. Implementation of power system stabilizer based on conventional and Fuzzy Logic Controllers. Journal of Engineering, 24, 97-113.

• HUSSAIN, Z., DALLALBASHI, Z. & ALHAYALI, S. Reviews of using solar energy to cover the energy deficit after the recent war in Mosul city. International Conference on Data Science, E-learning and Information Systems 2021, 2021. 254-265.

• IDRIS, R. M., KHAIRUDDIN, A., MUSTAFA, M. & KALAM, A. 2010. Optimal allocation of multi-type FACTS devices using bees algorithm for ATC enhancement in deregulated power system. International Review of Electrical Engineering, 5.

• IQBAL, F., KHAN, M. T. & SIDDIQUI, A. S. 2018. Optimal placement of DG and DSTATCOM for loss reduction and voltage profile improvement. Alexandria Engineering Journal, 57, 755-765.

• ISMAIL, S. Y., HUSSAIN, Z. S., THABET, H. T. & THABIT, T. 2021. Using PI Controller Unit for Controlling the Water Temperature in Oil Fired Heaters by PLC Techniques. PRZEGLĄD ELEKTROTECHNICZNY, ISSN, 0033-2097.

• KUBBA, H. A. & ESMIEEL, M. T. 2018. Flexible Genetic Algorithm Based Optimal Power Flow of Power Systems. Journal of Engineering, 24, 84-96.

• LIU, C., ZHANG, B., HOU, Y., WU, F. F. & LIU, Y. 2010. An improved approach for AC-DC power flow calculation with multi-infeed DC systems. IEEE Transactions on Power Systems, 26, 862-869.

• LONG, W. & NILSSON, S. 2007. HVDC transmission: yesterday and today. IEEE Power and Energy Magazine, 5, 22-31.

• MAREFATJOU, H. & SOLTANI, I. 2013. Optimal placement of STATCOM to voltage stability improvement and reduce power losses by using QPSO algorithm. Journal of Science and Engineering, 2, 105-119.

• MUHAMMAD, T. K. 2019. Performance improvement of interconnected 400kV, 50Hz Kurdistan and Iraq power systems using proposed HVDC link. Zanco Journal of Pure and Applied Sciences, 31, 131-136.

• PATIL, P. S. & PORATE, K. Starting analysis of induction motor: A computer simulation by ETAP power station. 2009 Second International Conference on Emerging Trends in Engineering & Technology, 2009. IEEE, 494-499.

• RAMBABU, C., CBULESU, Y. & SAIBABU, C. 2011. Improvement of voltage profile and reduce power system losses by using multi type facts devices. International Journal of Computer Application, 13.

• SALAMA, A. Y., SHALABY, M., AZIZ, A. A. & REFAI, R. 2014. Aswan HighDam/Cairo proposed HVDC transmission system. Beni-Suef University Journal of Basic and Applied Sciences, 3, 37-44.

• SHESHAGIRI, M. & RAM, B. Voltage Improvement and Loss Reduction with Static-Var Compensator (SVC) Subjected to Reactive Load Changes. ICRTEMMS Conference Proceedings, 2018. Swarna Bharathi lnstitute of Science and Technology, 149-152.

• SOOD, V. K. 2018. HVDC Transmission. Power Electronics Handbook. Elsevier.

• THAPA, B. & MOHAN, T. M. 2013. Analysis of controller effects of statcom on power system during the fault condition. IJAIR, 2.

• WANG, H. & REDFERN, M. A. The advantages and disadvantages of using HVDC to interconnect AC networks. 45th International Universities Power Engineering Conference UPEC2010, 2010. IEEE, 1-5.