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Zarządzanie energią dla nowej konfiguracji systemu zasilania bazowej stacji nadawczo-odbiorczej (BTS) przeznaczonej do odległych i odizolowanych obszarów
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Abstrakty
This paper discusses the energy management for the new power system configuration of the telecommunications site that also provides power to electric vehicles. The modeling and control of the proposed system, composed of hybrid energy sources that are photovoltaic panels and a diesel generator with batteries, are also presented. The hybrid system will provide energy to a telecommunications site located in an isolated area. The management algorithm used in this work aims to significantly reduce the investment costs of the power system. From an environmental point of view, the hybrid system can reduce gas emissions from the diesel generator, while maintaining spaced maintenance targets compatible with the operation of the isolated site.
W artykule omówiono zarządzanie energią w nowej konfiguracji systemu elektroenergetycznego obiektu telekomunikacyjnego, który zapewnia również zasilanie pojazdom elektrycznym. Przedstawiono również modelowanie i sterowanie proponowanym systemem, składającym się z hybrydowych źródeł energii, którymi są panele fotowoltaiczne oraz generator spalinowy z bateriami. System hybrydowy dostarczy energię do zakładu telekomunikacyjnego zlokalizowanego na odizolowanym obszarze. Zastosowany w pracy algorytm zarządzania ma na celu znaczne obniżenie kosztów inwestycyjnych systemu elektroenergetycznego. Z punktu widzenia ochrony środowiska. System hybrydowy może zmniejszyć emisje gazów z generatora Diesla, przy jednoczesnym zachowaniu rozmieszczonych w odstępach celów konserwacji zgodnych z działaniem odizolowanego miejsca.
Wydawca
Czasopismo
Rocznik
Tom
Strony
1--8
Opis fizyczny
Bibliogr. 29 poz., rys., tab.
Twórcy
autor
- ICEPS Laboratory, Department of Electrical Engineering, Djillali Liabes University, Sidi Bel Abbes, 22000, Algeria
autor
- ICEPS Laboratory, Department of Electrical Engineering, Djillali Liabes University, Sidi Bel Abbes, 22000, Algeria
autor
- ICEPS Laboratory, Department of Electrical Engineering, Djillali Liabes University, Sidi Bel Abbes, 22000, Algeria
autor
- ICEPS Laboratory, Department of Electrical Engineering, Djillali Liabes University, Sidi Bel Abbes, 22000, Algeria
autor
- Department of Electrical Engineering, Taher Moulay University, Saida, 20000, Algeria
Bibliografia
- [1] Bitterlin.I.F., Modelling a reliable wind/PV/storage power system for remote radio base station sites without utility power, Journal of Power Sources, 162 (2006), No.2, 906-912
- [2] Afif, B., Merabet, B., Benhamou, A., Chaker, A., Standalone hybrid power system using homer software optimal case sizing of ferraguig (Northwest of Algeria), International Journal of applied Power Engineering, 8 (2019), No.3, 287-298
- [3] Yahiaoui, A., Benmansour, K., Tadjine, M., A new sizing algorithm of renewable hybrid systems PV-diesel generatorbattery: Application to the case of Djanet city of Algeria, 8th International Conference on Modelling, Identification and Control (ICMIC), (2016)
- [4] Samer, R., Contribution to the modelling of reversible electrolyser and hydrogen fuel cell systems for coupling to photovoltaic generators, PhD thesis, University of Toulouse, France, 42 (2008), No.8, 183
- [5] Rezzouk, H., Mellit, A., Feasibility study and sensitivity analysis of a stand-alone photovoltaic-diesel-battery hybrid energy system in the north of Algeria, Renewable and Sustainable Energy Reviews, 43 (2015), 1134-1150
- [6] Mathieu, D., Diagnosis of diesel generator sets by analysis of crankshaft rotation speed, Doctoral thesis, Jean Monnet University, France, 43 (2010), No.1, 215
- [7] Issaadi, W., Khireddine, A., Issaadi, S., Management of a base station of a mobile network using a photovoltaic system, Renewable and Sustainable Energy Reviews, 59 (2016), 1570- 1590
- [8] Kaldellis, J.K., Optimum Hybrid Photovoltaic-Based Solution for Remote Telecommunication Stations, Renewable Energy, 35 (2010), 2307-2315
- [9] Alsharif, M., Jeong, K., Hybrid Off-Grid SPV/WTG Power System for Remote Cellular Base Stations Towards Green and Sustainable Cellular Networks in South Korea, Energies, 10 (2017), No.1, 1-23
- [10] Benatiallah, A., Mostefaoui, R., Boubekri, M., A comparison of Simplified and Statistical Methods of Sizing Photovoltaic Installation for a Remote Dwelling in the Saharan Region, Journal of the Human-Environmental System, 8 (2005), No.1,1- 6
- [11] Ike, Dike U., Adoghe, Anthony U., Ademola, A., Analysis of Telecom Base Stations Powered by Solar Energy, International journal of scientific & technology research, 3 (2014), 369-374
- [12] Notton, G., Muselli, M., and Louche, A., Autonomous hybrid photovoltaic power plant using a back-up generator: a case study in a Mediterranean Island, Renewable Energy, 7 (1996), No.4, 371-391
- [13] Rekioua, Djamila, Matagne, Ernest., Optimization of photovoltaic power systems: Modelization, simulation and Control, Green Energy and Technology Series, Springer, (2012)
- [14] Idda, A., Slimani, M.E., Bentouba, S., Hammaoui, Y., Different PV System Configurations for Uninterruptible Power Supply (UPS): Application to GSM Relay, Journal of Advanced Research in Science and Technology, 4 (2017), 574-582
- [15] El Khadimi, A., Bchir, L., Zeroual, A., Dimensioning and optimisation technico-economic to a system of energy photovoltaic hybrid wind - with the Storage System, Rev. Energ. Ren, 7 (2004), 73-83
- [16] Borrowy, BS., and Salameh, Z.M., Methodology for Optimally Sizing the Combination Battery Bank and PV Array in a Wind/PV Hybrid System, IEEE Transaction on Energy Conversion, 12 (1997), No.1, 73-78
- [17] Shafiqur, R., Mahbub Alam, Md., Meyer, J.P., Al-Hadhrami, Luai M., Feasibility study of a wind PV diesel hybrid power system for a village, Renewable Energy, 38 (2012), No.1, 258- 268
- [18] Shaahid, S.M., El-Amin, I., Rehman, S., Al-Shehri, A., Ahmad, F., Bakashwain, J., Al-Hadhrami, Luai M., Techno-Economic Potential of Retrofitting Diesel Power Systems with Hybrid Wind-Photovoltaic-Diesel Systems for Off-Grid Electrification of Remote Villages of Saudi Arabia, International Journal of Green Energy, 7 (2010), No.6, 632-646
- [19] Data file from the site is a BTS station, owned by one of the Algerian cell phone network operators: http://www.algercity. com/economie/operateurs-telephoniques, (2020)
- [20] Azah, M., Tamer, k., Design of Hybrid PV/Diesel Generator Systems at Minimum Cost: Case study for kuching, Malaysia, Transmission and Distribution Conference and Exposition (T&D), IEEE PES ,Orlando, FL, (2012), 1-6
- [21] Gourbi, A., Bousmaha, I., Brahmi, M., Tilmatine, A., Numerical study of hybrid photovoltaic Power supply system, Journal of power Technologies, 96 (2016), No.2, 137-144
- [22] Dekker, J., Nthonotho, M., Chowdhury, S., Economic analysis of PV/diesel hybrid power systems in different climatic zones of South Africa, Electrical Power and Energy Systems, 40 (2012),104-112
- [23] Ying-Yi, H., Yuan-Ming, L., Yung-Ruei, C., Yih-Der, L., and Pang-Wei, L., Optimization Capacities of Distributed Generation and Energy Storage in a Small Autonomous Power System Considering Uncertainty in Renewables, Energies, 8 (2015), No.4, 2473-2492
- [24] Jacobus, H., Evaluating the impact of adding energy storage on the performance of a hybrid power system, Energy Conversion and Management, 334 (2011), 928-935
- [25] Phuangpornpitak, N., Kumar, S., PV hybrid systems for rural electrification in Thailand, Renewable and Sustainable Energy Reviews, 11 (2007), No.7, 1530-1543
- [26] Deshmukha, MK., and Deshmukh, SS., Modeling of hybrid renewable energy systems, Renewable and Sustainable Energy Review, 12 (2008), No.1, 235-249
- [27] Mondal, A.H., Manfred, D., Hybrid systems for decentralized power generation in Bangladesh, Energy for Sustainable Development, 14 (2010), 48-55
- [28] Pirhaghshenasvali, M., Behzad, A., Optimal modeling and sizing of a practical hybrid wind/PV/diesel generation system, The 5th Annual International Power Electronics, Drive Systems and Technologies Conference(PEDSTC), (2014)
- [29] Makhija, Satya, P., and Dubey, S.P., Techno-economic analysis of standalone hybrid energy systems to run auxiliaries of a cement plant located in Jamul, Chhattisgarh, India , Environmental Progress & Sustainable Energy, 35 (2015), 221- 229
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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