International Journal of Renewable Energy Research-IJRER

A power system is highly susceptible to system irregularities such as control failure, security system failure, instabilities and inadvertent human errors. Ensuring the reliability of the power system is vital for assuring the quality of the power supply by taking definite steps to safeguard against probable events that involve an element of risk. The application of reliability assessment techniques helps to guarantee reliability, thereby contributing to the better performance of the power system. The key objective of the reliability study is to predict and associate reliability indices for various reliability progress initiatives for network configurations. This comprehensive review presents the significance of reliability, reliability indices, various reliability methodologies, and supporting literature.

Yu shiwen, Houhui, Wang chengzhi, “ Review of risk assessment of power system”, science direct proceedia of computer science WTISG 2017,pp:1200-1205

Zio, E. (2016). Some challenges and opportunities in reliability engineering. IEEE Transactions on Reliability, 65(4), 1769–1782.

Sucita, T., Mulyadi, Y., & Timotius, C. (2018). Reliability Evaluation of Power Distribution System with Reliability Index Assessment (RIA). IOP Conference Series: Materials Science and Engineering, 384(1).

M. Kornatka, A. Gawlak, and G. Dudek, “Determination of reliability indices of the distribution network based on data from AMI,” E3S Web Conf., vol. 84, 2019.

Castillo, A. (2014). Risk analysis and management in power outage and restoration: A literature survey. Electric Power Systems Research, 107, 9–15.

Chawda, S., Mathuria, P., & Bhakar, R. (2016). Risk Management for Players in Electricity Market : Challenges and Opportunities.

Daoutidis, P., Zachar, M., & Jogwar, S. S. (2016). Sustainability and process control: A survey and perspective. Journal of Process Control, 44, 184–206.

At?n?soae, P., Pentiuc, R., & Hopulele, E. (2015). The Reliability Evaluation of the Electrical Substations with Various Connection Schemes, (May), 18–21.

Bhamare, S. S., Yadav, O. P., & Rathore, A. (2007). Evolution of reliability engineering discipline over the last six decades: a comprehensive review. International Journal of Reliability and Safety, 1(4), 377–410.

Zio, E. (2016). Some challenges and opportunities in reliability engineering. IEEE Transactions on Reliability, 65(4), 1769–1782.

Billinton, R. (1996). A test system for teaching overall power system reliability assessment. IEEE Transactions on Power Systems, 11(4), 1670–1676

T. Adefarati, R. C. Bansal, and J. J. Justo, “Reliability and economic evaluation of a microgrid power system,” Energy Procedia, vol. 142, pp. 43–48, 2017.

S. C. Reddy, P. V. N. Prasad, and A. J. Laxmi, “Reliability Improvement of Distribution System: A Hybrid Approach Based on GA and NN,” Int. J. Soft Computer. Eng., no. 2, p. 4, 2013.

Huang, T. C., & Zhang, Y. J. (2017). Reliability evaluation of microgrid considering incentive-based demand response. IOP Conference Series: Materials Science and Engineering, 222(1).

Sheng, W., Meng, X., Fan, T., & Du, S. (2016). Reliability Evaluation of Distribution System Considering Sequential Characteristics of Distributed Generation. MATEC Web of Conferences, 55.

E. Vidya Sagar and P. V. N. Prasad, “Reliability improvement of radial distribution system with smart grid technology,” Lect. Notes Eng. Computer. Sci., vol. 1, pp. 345–349, 2013.

S. Mashayekh and K. L. Butler-Purry, “A novel deterministic and probabilistic dynamic security assessment approach for isolated microgrids,” 2017 19th Int. Conf. Intell. Syst. Appl. to Power Syst. ISAP 2017, pp. 1–5, 2017.

L. Layton, L. T. Marques, D. Shirmohammadi, H. W. Hong, A. Semlyen, and G. X. Luo, “Electric System Reliability Indices,” IEEE Trans. Power Syst., vol. 3, no. 21, p. 12, 2004.

Kaur, Simrandeep. & Kaur, T. (2016). A Review of Microgrid Concept. International Journal of Advanced Research in Science, Engineering and Technology, 3(2).

Liang, H., & Zhuang, W. (2014). Stochastic modeling and optimization in a microgrid: A survey. Energies, 7(4), 2027–2050.

Pavan Kumar, Y. V. (2019). Overview on role of asset management systems for smart microgrids. International Journal of Scientific and Technology Research, 8(11), 2082–2092

Hirsch, A., Parag, Y., & Guerrero, J. (2018, July 1). Microgrids: A review of technologies, key drivers, and outstanding issues. Renewable and Sustainable Energy Reviews. Elsevier Ltd.

R.Wijekoon, “Determining the capacity reserve requirement for generation system reliability planning,” no. October 2016, 2018.

H. Zhang, L. Zhu, and S. Xu, “Modeling the City Distribution System Reliability with Bayesian Networks to Identify Influence Factors,” vol. 20, 2016.

Dharwad, V. (2015). Modeling and Analysis of RBTS IEEE-6 BUS System Based On Markov,International Journal of engineering research and general science,3(2).

Kwasinski, A. (2011).Quantitative evaluation of DC microgrids availability: Effects of system architecture and converter topology design choices. IEEE Transactions on Power Electronics, 26(3), 835–851.

I. A. Samuel, A. A. Awelewa, J. Katende, and I. A. Odigwe, “Fault Tree-Based Reliability Assessment of a 132-kV Transmission Line Protection Scheme,” no. 10, 2013.

Kirubarani, K., & Peer Fathima, A. (2019). Distribution system reliability assessment for improved feeder configurations. International Journal of Engineering and Advanced Technology, 8(6), 4416–4421.

Sailaja, C. V. S. S., Ramanamurthy, K. V., & Prasad, P. V. N. (2013). Evaluation of reliability indices using FMEA technique. Proceedings of 2013 International Conference on Power, Energy and Control, ICPEC 2013, 554–557.

Gupta, S., & Kansal, M. L. (2014). Reliability Assessment of a Real Time Distribution System. International Journal of Electronic and Electrical Engineering, 7(9), 993–999.

Raju, K. (2018). Evaluation of Distribution System Reliability in the presence of multiple DGs. 10, 17–28.

Mathew, R. K., Ashok, S., & Kumaravel, S. (2015). Analyzing the effect of DG on reliability of distribution systems. Proceedings of 2015 IEEE International Conference on Electrical, Computer and Communication Technologies, ICECCT 2015, 1–4.

Das, B. (2013). Impact of Distributed Generation on Reliability of Distribution System. IOSR Journal of Electrical and Electronics Engineering, 8(1), 42–50.

Liu, L., Ouyang, S., Chen, D., Ma, S., & Wang, X. (2017). A study on reliability of power customer in distribution network. IOP Conference Series: Materials Science and Engineering, 199(1).

Rajaiah, S., Satyanarayana RVS, Srinivas. S. Evaluation and Analysis of Customer Specific Distribution Reliability Indices, International Journal of Electrical and Electronics Engineering, 5(1), 16–24.

Das, T. S., Bera, P., & Biswas, P. (2019). A composite reliability index for power distribution system in renewable microgrid penetrated energy market. International Journal of Recent Technology and Engineering, 8(2 Special Issue 7).

Ezema, L. S., Chiedozie, P., & Ezugwu, E. (2019). Reliability Indices Evaluation of Distribution Networks for Automation. International Journal of Power Systems, 4(July).

Agarwal, U. (2015). Estimation of Reliability indices of Radial Distribution System with. 4(6), 1768–1770.

S. Yang, H. Li, Y. Yue, J. Hao, W. Luo, and M. Zhao, “Summary on reliability analysis of distributed power access on distribution network,” AIP Conf. Proc., vol. 1955, no. April 2018, 2018,

Okorie, P. U., & Ezekiel, D. M. (2014). Assessment of Reliability Indices of Abuja Distribution Network, 3(2), 2002–2006.

Omotosho, M. K. (2019). A Comparative Analysis of Reliability Indices of Kaduna and Kano Distribution Systems. Journal of Energy Technologies and Policy, 9(8), 43–52.

A. A. A. Ahmad and D. E. M. Hussein, “Electrical Distribution Reliability,” Int. J. Innov. Res. Sci. Eng. Technol., vol. 03, no. 09, pp. 16191–16198, 2014.

Lakshman, T. (2012). Reliability Evaluation of Composite System with Aging Failure. International Journal of Scientific and Research Publications, 2(9),1–7.

X. Xu and J. Mitra, “Distribution system reliability evaluation using credibility theory,” Int. J. Eng. Sci. Technol., vol. 2, no. 3, pp. 107–118, 2010.

Shokrollahi, A., Sangrody, H., Motalleb, M., Rezaeiahari, M., Foruzan, E., & Hassanzadeh, F. (2017). Reliability assessment of distribution system using fuzzy logic for modelling of transformer and line uncertainties. 2017 North American Power Symposium, NAPS 2017.

Xu, X., Mitra, J., Wang, T., & Mu, L. (2016). Reliability evaluation of a microgrid considering its operating condition. Journal of Electrical Engineering and Technology, 11(1), 47–54.

Mohan, C. V, Seetharam, K., & Raju, H. B. P. (2015). Reliability Indices of Distribution system by Fuzzy Method, 4(7), 2444–2446.

Hadow, M. M., Abd Allah, A. N., & Abdul Karim, S. P. (2012). Reliability evaluation of distribution power systems based on artificial neural network techniques. Journal of Electrical and Computer Engineering, 2012.

Lan, H., Wen, S., Fu, Q., Yu, D. C., & Zhang, L. (2015). Modeling Analysis and Improvement of Power Loss in Microgrid. Mathematical Problems in Engineering, 2015, 1–8.

Nikmehr, N., & Ravadanegh, S. N. (2016). Analysis of Reliability Indices in Next Generation Microgrids under Uncertainties of Load and Renewable Power Production. 48(1), 41–51.

Kahrobaee, S., Asgarpoor, S., & Kahrobaee, M. (2014). Optimum renewable generation capacities in a microgrid using generation adequacy study. Proceedings of the IEEE Power Engineering Society Transmission and Distribution Conference.

Jia, H., Qi, W., Liu, Z., Wang, B., Zeng, Y., & Xu, T. (2015). Hierarchical risk assessment of transmission system considering the influence of active distribution network. IEEE Transactions on Power Systems, 30(2), 1084–1093.

Arefifar, S. A., Mohamed, Y. A. R. I., & El-Fouly, T. H. M. (2013). Optimum microgrid design for enhancing reliability and supply-security. IEEE Transactions on Smart Grid, 4(3), 1567–1575.

Wang, C., Jiao, B., Guo, L., Yuan, K., & Sun, B. (2014). Optimal planning of stand-alone microgrids incorporating reliability. Journal of Modern Power Systems and Clean Energy, 2(3), 195–205.

Shen, J., Jiang, C., Liu, Y., & Wang, X. (2016). A Microgrid Energy Management System and Risk Management under an Electricity Market Environment. IEEE Access, 4, 2349–2356.

Molavi, A., Shi, J., Wu, Y., & Lim, G. J. (2020). Enabling smart ports through the integration of microgrids: A two-stage stochastic programming approach. Applied Energy, 258.

Hoseinpour, M., & Haghifam, M. R. (2017). Trade-off between flexible and economic operation of a microgrid under risk assessment. In 2017 62–67). Institute of Electrical and Electronics Engineers Inc.

Sabzehgar, R., Kazemi, M. A., Rasouli, M., & Fajri, P. (2020). Cost optimization and reliability assessment of a microgrid with large-scale plug-in electric vehicles participating in demand response programs. International Journal of Green Energy, 17(2), 127–136.

Akbari, M. A., Aghaei, J., Barani, M., Savaghebi, M., Shafie-Khah, M., Guerrero, J. M., & Catalao, J. P. S. (2017). New Metrics for Evaluating Technical Benefits and Risks of DGs Increasing Penetration. IEEE Transactions on Smart Grid, 8(6), 2890–2902.

Ghose, T., Pandey, H. W., & Gadham, K. R. (2019). Risk assessment of microgrid aggregators considering demand response and uncertain renewable energy sources. Journal of Modern Power Systems and Clean Energy, 7(6), 1619–1631.

Gabbar, H. A., Islam, R., Isham, M. U., & Trivedi, V. (2012). Risk-based performance analysis of microgrid topology with distributed energy generation. International Journal of Electrical Power and Energy Systems, 43(1), 1363–1375.

Zafra-Cabeza, A., Velarde, P., & Maestre, J. M. (2020). Multi criteria optimal operation of a microgrid considering risk analysis, renewable resources, and model predictive control. Optimal Control Applications and Methods, 41(1), 94–106.

Salman M, Falhadi B, Yang F (2015). Impact of demand response on distribution system reliability. Dianli Xitong Zidonghua/Automation of Electric Power Systems, 39(17), 49–55

Rajput, A. N., & Tomar, B. S. (2013). Integrated Reliability Evaluation of Distributed Power System, 2(12), 3437–3443.

Mukherjee, S. (2015). Applying the Distribution System in Grid Restoration/NERC CIP-014 Risk Assessment. In Papers Presented at the Annual Conference - Rural Electric Power Conference (Vol. 2015-May, pp. 103–105). Institute of Electrical and Electronics Engineers Inc.

He, J., Zhou, K., Xin, J., Chen, K., & Deng, C. (2015). New metrics for assessing fuel price and technological uncertainty in microgrid power planning. In Proceedings of the 2015 10th IEEE Conference on Industrial Electronics and Applications, ICIEA 2015 (pp. 23–27).

Hilber, P., Johan, C., Rosenlind, J., & Setréus, J. (2010). Risk analysis for Power Systems - Overview and Potential benefits, (0098), 7–8.

Kwasinski, A. (2010). Technology planning for electric power supply in critical events considering a bulk grid, backup power plants, and micro-grids. IEEE Systems Journal, 4(2), 167–178.

Rahimi-Kian, A., & Jalalabadi, E. (2014). Real-Time Risk and Cost Management of a Grid Connected Micro-Grid (pp. 0043–0043). Institution of Engineering and Technology (IET).

Y. Li and L. Zhu, “Risk analysis of human error in interaction design by using a hybrid approach based on FMEA, SHERPA, and fuzzy TOPSIS,” Qual. Reliab. Eng. Int., vol. 36, no.5,pp.1657–1677, 2020.

Li, C., Xu, Y., Yu, X., Ryan, C., & Huang, T. (2017). Risk-Averse Energy Trading in Multienergy Microgrids: A Two-Stage Stochastic Game Approach. IEEE Transactions on Industrial Informatics, 13(5), 2620–2630.

Goel, L. (1999). A comparison of distribution system reliability indices for different operating configurations. Electric Machines and Power Systems, 27(9), 1029–1039.

Agarwal, U., & Vardia, M. (2015). Reliability Enhancement of Radial Distribution System Using Network Reconfiguration. International Journal of Engineering Development and Research, 3(3), 2321–9939.

Bourezg, A., & Meglouli, H. (2014). Reliability assessment of power distribution systems using disjoint path-set algorithm. Journal of Industrial Engineering International, 11(1), 45–57.

Mohammadi, S., Moshtagh, J., & Golpîra, H. (2020). Impact of power exchange on reliability and economic indices of networked microgrids. International Transactions on Electrical Energy Systems, 30(5), 1–18.

Rao, M. S., & Naikan, V. N. A. (2016). Review of simulation approaches in reliability and availability modeling. International Journal of Performability Engineering, 12(4), 369–388.

Eminoglu, U., & Uyan, R. (2016). Reliability Analyses of Electrical Distribution System: A Case Study. International Refereed Journal of Engineering and Science, 5(12), 94–102.

M. C., Supriya, M. D., Shekhar, C., Atla, R., Mohan, K. R., & Kumara, T. M. V. (2014). Distribution System Reliability Evaluation using Time Sequential, 24–30.

Hanna, R., Disfani, V. R., & Kleissl, J. (2018). Reliability evaluation for microgrids using cross-entropy Monte Carlo simulation, 2018 International Conference on Probabilistic Methods Applied to Power Systems, PMAPS 2018 - Proceedings. Institute of Electrical and Electronics Engineers Inc.

Youli, S., & Nagasaka, K. (2010). The 2010 IAENG International Conference on Communication Systems and Applications, the 2010 IAENG International Conference, II, 762.

Kennedy, S., & Marden, M. M. (2009). Reliability of islanded microgrids with stochastic generation and prioritized load. 2009 IEEE Bucharest Power Tech: Innovative Ideas towards the Electrical Grid of the Future.

Arya, R. (2014). Estimation of distribution system reliability indices neglecting random interruption duration incorporating effect of distribution generation in standby mode. International Journal of Electrical Power and Energy Systems, 63, 270–275.

Ma, T., Wu, J., & Niu, X. (2017). Reliability assessment indices and method for urban microgrid. CIRED - Open Access Proceedings Journal, 2017(1), 837–840.

Sameera Bhardwaja.V H., Nesara, G. N., Meghashree, S. V, & Karthik, S. (2018). Operational Risk Assessment and Validation of the Energy Storage System in Micro grids and Distributed Energy Applications, (May), 4141–4145.

Ahshan, R., Iqbal, M. T., Mann, G. K. I., & Quaicoe, J. E. (2017). Microgrid reliability evaluation considering the intermittency effect of renewable energy sources. International Journal of Smart Grid and Clean Energy, 6(4), 252–268.

Venkatamuni, N. B., & Reddy, B. G. (2014). Reliability Indices Assessment of a Small Autonomous Hybrid Power System Using Aggregate Markov Model, 1(5), 42–47.

Idoniboyeobu, D. (2018). Reliability Assessment of Electrical Energy Distribution System – A Case Study of Port Harcourt Distribution Network. International Journal for Research in Applied Science & Engineering Technology (IJRASET), Volume 5 I(January), 432–441.

Tefera Mekonnon, Teshome Telesa, D. K. R. B. (2017). Reliability Improvement of Power Distribution System using Auto recloser case study: Bedele Power Distribution System. International Journal of Innovative Research in Computer and Communication Engineering, 5(4), 8198–8205.

Lemma, B. D. (2018).Analysis of Cause of Power Interruption and Reliability Improvement of Distribution System (Case of Dire Dawa ), 8(12), 19393–19398.

Krishnav Bhatia., & Kirar, K. (2016). Importance of microgrid in the current scenario and its Islanding. International Research Journal of Engineering and Technology.

Braide, S. L. (2018). Improved Reliability Analysis of Electricity Power Supply to Port Harcourt Distribution Network. International Journal of Engineering Science Invention, 7(7), 23–36.

Elkadeem, M. R., Alaam, M. A., & Azmy, A. (2017). Reliability Improvement of Power Distribution Systems using Advanced Distribution Automation. Renewable Energy and Sustainable Development, 3(1), 24–32.

Mokoka, O. K. P., & Awodele, K. O. (2013). Reliability evaluation of distribution networks using NEPLAN & DIgSILENT power factory. IEEE AFRICON Conference, 1–5.

Suthapanun, C., Jirapong, P., Bunchoo, P., & Thararak, P. (2015). Reliability assessment tool for radial and loop distribution systems using DIgSILENT Power Factory. ECTI-CON 2015, 12th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology.

Kamble, C. S., & Rewatkar, P. R. (2017). Load-flow Analysis of Distribution systems using ETAP, (April).

Kwasinski, A., Krishnamurthy, V., Song, J., & Sharma, R. (2012). Availability evaluation of micro-grids for resistant power supply during natural disasters. IEEE Transactions on Smart Grid, 3(4), 2007–2018.

Lakshmi, S. R., Tripathy, S. C., Rao, K. S. P., & Balasubramianian, R. (1995). Evaluation of generation system reliability indices by fast transform techniques. International Journal of Electrical Power and Energy Systems, 17(4), 281–287.

Y. Rolik, “Risk Management in Implementing Wind Energy Project,” Procedia Eng., vol. 178, pp. 278–288, 2017.

A. Paci, M. Celo, and R. Bualoti, “Distribution System Reliability IndicesCase Study Albanian Distribution System,” J. Multidiscipline. Eng. Sci. Technol., vol. 5, no. 12, pp. 9137–9143, 2018.

R. S. K Ali, R.O.Wiyagi, “Reliability Analysis of Power Distribution System,” J. Electr. Technol., Vol. 1, no. 02, 2017.

Y. Z. and Z. B. Bowen Hua, Haipeng Xie, “Reliability Evaluation of Distribution Systems Considering Demand Response,” 2012.

Kowalski, D., Kowalska, B., B?awucki, T., Suchorab, P., & Gaska, K. (2019). Impact assessment of distribution network layout on the reliability of water delivery. Water (Switzerland), 11(3).

Ahmad. S, Sardar. S, Noor B & Asal.A “Reliability Analysis of Distribution System using ETAP,” Int. J. Comput. Sci. Inf. Secur., vol. 15, no. 3, pp. 197–201, 2017.

P. M. Sonwane and B. E. Kushare, “Distribution System Reliability : An Overview,” vol. 5, no. 3, pp. 148–153, 2015.

M. Shahidehpour, “High reliability distribution systems in microgrids,” pp. 1–1, 2011.

Prakash T and Dr. K Thippeswamy, “Reliability Analysis of Power Distribution System: a Case Study,” Int. J. Eng. Res., vol. V6, no. 07, pp. 557–561, 2017.