Battery state of voltage modelling and an algorithm describing dynamic conditions for long-term storage simulation in a renewable system

The behaviour of lead-acid batteries during dynamic operation on a long-period basis is analyzed in this paper. An algorithm which takes into account all possible battery conditions during real operation has been developed and is used for the battery state of voltage, SOV, predictions. This battery...

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Veröffentlicht in:	Solar energy 1994-12, Vol.53 (6), p.517-527
Hauptverfasser:	Protogeropoulos, C., Marshall, R.H., Brinkworth, B.J.
Format:	Artikel
Sprache:	eng
Schlagworte:	ALGORITHMS Applied sciences Batteries CONVERSION ELECTRIC BATTERIES ELECTROCHEMICAL CELLS Energy ENERGY CONVERSION ENERGY STORAGE Exact sciences and technology LEAD-ACID BATTERIES MATHEMATICAL LOGIC Natural energy Simulation SOLAR ENERGY SOLAR ENERGY CONVERSION Solar energy storage STORAGE STORAGE LIFE TESTING 140500 > Solar Energy Conversion VALIDATION
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container_end_page	527
container_issue	6
container_start_page	517
container_title	Solar energy
container_volume	53
creator	Protogeropoulos, C. Marshall, R.H. Brinkworth, B.J.
description	The behaviour of lead-acid batteries during dynamic operation on a long-period basis is analyzed in this paper. An algorithm which takes into account all possible battery conditions during real operation has been developed and is used for the battery state of voltage, SOV, predictions. This battery algorithm is general and therefore can be used for other types of accumulators, provided that the model parameters are known. For model validation, a typical battery was incorporated for energy storage in a stand-alone, renewable power supply system and the experimental results were compared with the algorithm predictions. The results show that very good agreement between measured and simulated battery SOVs has been achieved for monthly periods of continuous system operation.
doi_str_mv	10.1016/0038-092X(94)90132-L
format	Article
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An algorithm which takes into account all possible battery conditions during real operation has been developed and is used for the battery state of voltage, SOV, predictions. This battery algorithm is general and therefore can be used for other types of accumulators, provided that the model parameters are known. For model validation, a typical battery was incorporated for energy storage in a stand-alone, renewable power supply system and the experimental results were compared with the algorithm predictions. 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An algorithm which takes into account all possible battery conditions during real operation has been developed and is used for the battery state of voltage, SOV, predictions. This battery algorithm is general and therefore can be used for other types of accumulators, provided that the model parameters are known. For model validation, a typical battery was incorporated for energy storage in a stand-alone, renewable power supply system and the experimental results were compared with the algorithm predictions. The results show that very good agreement between measured and simulated battery SOVs has been achieved for monthly periods of continuous system operation.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><doi>10.1016/0038-092X(94)90132-L</doi><tpages>11</tpages></addata></record>
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subjects	ALGORITHMS Applied sciences Batteries CONVERSION ELECTRIC BATTERIES ELECTROCHEMICAL CELLS Energy ENERGY CONVERSION ENERGY STORAGE Exact sciences and technology LEAD-ACID BATTERIES MATHEMATICAL LOGIC Natural energy Simulation SOLAR ENERGY SOLAR ENERGY CONVERSION Solar energy storage STORAGE STORAGE LIFE TESTING 140500 -- Solar Energy Conversion VALIDATION
title	Battery state of voltage modelling and an algorithm describing dynamic conditions for long-term storage simulation in a renewable system
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