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مقالات فارسیISIکنفرانسهاژورنالها

Power Management in Grid-Scale Energy Storage Systems; A Case Study of Trends

محل انتشار: فصلنامه هیدروژن و پیل سوختی ایران، دوره: 12، شماره: 2
سال انتشار: 1404
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 98

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استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این مقاله:
https://civilica.com/doc/2224733

شناسه ملی سند علمی:

JR_IJHFC-12-2_004

تاریخ نمایه سازی: 30 فروردین 1404

چکیده مقاله:

The global energy crisis poses a major challenge, driven by the depletion of fossil fuel reserves and the escalating impacts of climate change. In response, the transition to renewable energy sources, particularly solar and wind power, is accelerating to address these pressing issues. However, renewable energy systems require efficient storage solutions to enhance energy utilization and ensure a stable, resilient power grid. Energy storage systems play versatile roles within power grids, including peak shaving, fast frequency response, voltage stability, and power quality enhancement. This study examines the trends and current status of various energy storage technologies, highlighting lithium-ion (Li-ion) batteries as particularly promising. While pumped-hydro storage currently accounts for approximately ۹۵% of total storage capacity, Li-ion batteries demonstrate substantial potential for future applications. A case study highlights utility-scale applications of energy storage systems in Iran’s power system, emphasizing peak-shaving, load-leveling, power quality improvement, and energy efficiency enhancement. Energy storage plays a critical role in Iran, particularly for peak shifting and load leveling. In the summer of ۲۰۲۳, Iran's peak energy consumption reached approximately ۸۰,۰۰۰ MW, with an average demand of ۶۴,۰۰۰ MW during peak seasons. Diesel generators, with a grid capacity of approximately ۱۰۰۰ MW, serve as Iran's primary emergency power supply system. A comparison of the levelized cost of energy (LCOE) for lithium-ion (Li-ion) batteries, identified as an optimal fast-response system in Iran, revealed that diesel generation is more expensive, even without accounting for CO۲ emission costs. Given Iran's significant lithium reserves, estimated at ۸.۵ million metric tons, Li-ion batteries have the potential to emerge as the dominant energy storage solution both domestically and globally.

کلیدواژه ها:

Global energy crisis ، Renewable Energies ، Energy storage systems ، Li-ion batteries ، Iran’s power system

نویسندگان

Mohammad Golmohammad

Renewable Energy Department, Niroo Research Institute (NRI), Tehran, Iran

Vahid Sabzpoosh Saravi

Transmission Expansion Planning Office, Power Generation Transmission and Distribution Company (TAVANIR), Tehran, Iran

Hashem Alipour

Transmission Expansion Planning Office, Power Generation Transmission and Distribution Company (TAVANIR), Tehran, Iran

Shahriar Bozorgmehri

Renewable Energy Department, Niroo Research Institute (NRI), Tehran, Iran

Maryam Bazgir

Energy and Mechanical Department, Shahid Beheshti University, Tehran, Iran

مراجع و منابع این مقاله:

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  • ۱] https://ourworldindata.org/[۲] Satpathy R, Pamuru V. Off-grid solar photovoltaic systems; ...
  • Esparcia Jr EA, Castro MT, Odulio CMF, Ocon JD. A ...
  • El Haj Assad M, Khosravi A, Malekan M, Rosen M, ...
  • Arabkoohsar A. Classification of energy storage systems. In: Future Grid-Scale ...
  • Abdin Z, Khalilpour KR. Single and polystorage technologies for renewable-based ...
  • Foroozandeh Z, Ramos S, Soares J, Canizes B. Energy Storage ...
  • Spiers; ۲۰۱۸. ۳rd edition ...
  • Saravi VS, Kalantar M, Anvari-Moghaddam A. Resilience-constrained expansion planning of ...
  • Habibifar R, Khoshjahan M, Saravi VS, Kalantar M. Robust energy ...
  • Global installed energy storage capacity by scenario ۲۰۲۳ and ۲۰۳۰;. ...
  • Wilberforce T, Thompson J, Olabi AG. Classification of energy storage ...
  • Gilfillan D, Pittock J. Pumped storage hydropower for sustainable and ...
  • Axsen J, Burke A, Kurani KS. Batteries for plugin hybrid ...
  • Alam MM, Rahman MH, Ahmed MF, Chowdhury MZ, Jang YM. ...
  • Technology cost trends and key material prices for lithium ionbatteries ...
  • Donadei S, Schneider GS. Compressed air energy storage. In: Storing ...
  • Budt M, Wolf D, Span R, Yan J. A review ...
  • Wang J, Luo X, Krupke C, Dooner M. Compressed air ...
  • Yao E, Wang H, Wang L, Xi G, Mar´echal F. ...
  • Guo J, Ma R, Zou H. Compressed air energy storage ...
  • Bazdar E, Sameti M, Nasiri F, Haghighat F. Compressed air ...
  • Razmi A, Soltani M, Aghanajafi C, Torabi M. Thermodynamic and ...
  • Cheekatamarla PK, Kassaee S, Abu-Heiba A, Momen AM. Near isothermal ...
  • Choudhury S. Flywheel energy storage systems: A critical review on ...
  • Zhang J, Wang Y, Liu G, Tian G. A review ...
  • Li X, Palazzolo A. A review of flywheel energy storage ...
  • Barbour E, Wilson IG, Radcliffe J, Ding Y, Li Y. ...
  • https://www.statista.com/statistics/۶۸۹۶۶۷/pumped-storage-hydropower-capacity-world wide-by-country[۳۱] https://www.hydropower.org/publications/۲۰۲۱-hydropower-status-report[۳۲] Ali S, Stewart RA, Sahin O. Drivers ...
  • Hunt JD, Byers E, Riahi K, Langan S. Comparison between ...
  • Chen H, Xu Y, Liu C, He F, Hu S. ...
  • https://www.iea.org/reports/energy-storage[۳۶] Morstyn T, Botha CD. Gravitational energy storage with weights. ...
  • Fyke A. The fall and rise of gravity storage technologies. ...
  • Yolda¸s Y, Onen A, Muyeen S, Vasilakos AV, Alan ¨ ...
  • Tong W, Lu Z, Sun J, Zhao G, Han M, ...
  • Bowoto OK, Emenuvwe OP, Azadani MN. Gravitricity based on solar ...
  • https://www.energyvault.com/projects/cnrudong[۴۲] Lai C, Thomas P. In: Capacitors/Supercapacitors Section — Encyclopedia ...
  • Molina-Ib´a˜nez EL, Colmenar-Santos A, RosalesAsensio E. Superconducting Magnetic Energy Storage ...
  • Lilia B, Hennig R, Hirschfeld P, Profeta G, Sanna A, ...
  • Zhang H, Lin D, Wang D, Shi J, Zhu B, ...
  • Chen X, Xie Q, Bian X, Shen B. Energysaving superconducting ...
  • Chen L, Zhang X, Han P, Chen H, Xu Y, ...
  • Koehler U. General overview of non-lithium battery systems and their ...
  • Sun C, Zhang H. Review of the development of first-generation ...
  • S´anchez-D´ıez E, Ventosa E, Guarnieri M, Trov`o A, Flox C, ...
  • Zhen Y, Zhang C, Yuan J, Zhao Y, Li Y. ...
  • https://vanitec.org/latest-from-vanitec/article/eight-long-duration-energy-storage-projects[۵۴] Zhang H, Sun C. Cost-effective iron-based aqueous redox flow ...
  • Doetsch C, Pohlig A. The use of flow batteries in ...
  • Nagde KR, Dhoble S. Li-S ion batteries: a substitute for ...
  • Shahjalal M, Roy PK, Shams T, Fly A, Chowdhury JI, ...
  • Chen Y, Kang Y, Zhao Y, Wang L, Liu J, ...
  • Ashuri M, Golmohammad M, Soleimany Mehranjani A, Faghihi Sani M. ...
  • Sharifi O, Golmohammad M, Soozandeh M, Oskouee M. Effects of ...
  • Abbasi A, Mirhabibi A, Arabi H, Golmohammad M, Brydson R. ...
  • Golmohammad M, Sazvar A, Shahraki MM, Golestanifard F. Synthesis and ...
  • Golmohammad M, Golestanifard F, Mirhabibi A. Synthesis and characterization of ...
  • Naskar A, Ghosh A, Roy A, Chattopadhyay K, Ghosh M. ...
  • Yu P, Li M, Wang Y, Chen Z. Fuel cell ...
  • https://www.fortunebusinessinsights.com/zincair-battery-market[۶۷] Tsais PJ, Chan L. Nickel-based batteries: Materials and chemistry. ...
  • Hasa I, Mariyappan S, Saurel D, Adelhelm P, Koposov AY, ...
  • Dong Y, Wen P, Shi H, Yu Y, Wu ZS. ...
  • Ahmad H, Kubra KT, Butt A, Nisar U, Iftikhar FJ, ...
  • Liu T, Xiang P, Li Y, Li Z, Sun H, ...
  • Zhao L, Zhang T, Li W, Li T, Zhang L, ...
  • Karabelli D, Singh S, Kiemel S, Koller J, Konarov A, ...
  • Li ZY, Li Z, Fu JL, Guo X. Sodium-ion conducting ...
  • Xu X, Zhou D, Qin X, Lin K, Kang F, ...
  • Wang Y, Zhou D, Palomares V, Shanmukaraj D, Sun B, ...
  • Nundwe V, Makokha AB, Mwasiagi JI. Effect of electrolyte additives ...
  • Bhatt JM, Ramana P, Mehta JR. Experimental investigation on the ...
  • Prengaman RD, Mirza A. Recycling concepts for lead–acid batteries. In: ...
  • Zhang S, Pan N. Supercapacitors Performance Evaluation. Advanced Energy Materials. ...
  • Sharma K, Arora A, Tripathi SK, et al. Review of ...
  • Chakraborty S, Mary N. An overview on supercapacitors and its ...
  • Abasali Karaj Abad Z, Nemati A, Malek Khachatourian A, Golmohammad ...
  • Nemati A, Khachatourian AM, Golmohammad M, et al. The Effect ...
  • Khiarak BN, Golmohammad M, Shahraki MM, Simchi A. Facile synthesis ...
  • Sahin ME. Supercapacitor Applications and Developments, In Encyclopedia; ۲۰۲۲ ...
  • Freund S, Abarr M, McTigue JD, Frick KL, Mathur A, ...
  • https://www.energy.gov/eere/buildings/articles/design-and-integration-thermochemical-energystorage-tces- buildingsload[۸۹] https://www.man-es.com/energy-storage/campaigns/mosas[۹۰] Mohammadi A, Ahmadi MH, Bidi M, Joda ...
  • www.iea.org[۹۲] Fuchs G, Lunz B, Leuthold M, Sauer DU. Technology ...
  • Bhandari R, Shah RR. Hydrogen as energy carrier: Techno-economic assessment ...
  • Kolb S, M¨uller J, Luna-Jaspe N, Karl J. Renewable hydrogen ...
  • Ghorbani-Moghadam T, Kompany A, Golmohammad M. The comparative study of ...
  • Ma J, Li Y, Grundish NS, Goodenough JB, Chen Y, ...
  • https://totalenergies.com/projects/electricity/battery-based-energy-storage-our-projects-andachievements[۹۸] https://www.spaceflightpower.com/deep-cyclelead-acid-batteries[۹۹] Baliyan A, Mwakitalima IJ, Jamil M, Rizwan M. ...
  • Vahabzad N, Mohammadi-Ivatloo B, AnvariMoghaddam A. Modeling hybrid energy systems ...
  • Lee S, Choi DH. Energy management of smart home with ...
  • https://energypress.eu/investment-interestsoars-for-res- units-with-batteries[۱۰۳] Gupta N, Kaur N, Jain SK, Joshal KS. ...
  • Sharifi AH, Maghouli P. Energy management of smart homes equipped ...
  • Dalirian S; ۲۰۱۸ ...
  • Saryani H; ۲۰۲۲ ...
  • https://ourworldindata.org/grapher/annualpercentage- change-renewables[۱۰۸] Feldman D, Ramasamy V, Fu R, Ramdas A, ...
  • Akhlaghi MM, Abbasizade F, Shafiei Alavijeh A, Hosseinalizadeh R, AmirAbadi ...
  • Mauler L, Duffner F, Zeier WG, Leker J. Battery cost ...
  • https://www.energy-storage.news/li-ion-besscosts-could-fall-۴۷-by-۲۰۳۰-nrel-says-in-longterm-forecast-update/[۱۱۲] ۲۰۲۴ Commercial Diesel Generator Maintenance Cost Guide; ...
  • Cole W, Karmakar A. Cost Projections for Utility-Scale Battery Storage: ...
  • https://esfccompany.com/en/articles/ solar- energy/ solar-power-plant-construction-cost/[۱۱۵] Cameron H. Impact on solar energy ...
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