VRLA Battery Discharge Reserve Time Estimation

Pascoe, P.E.; Anbuky, A.H.

doi:10.1109/tpel.2004.836680

Cited by 46 publications

(13 citation statements)

References 3 publications

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“…According to [47], there are 3 groups of battery models: mathematicians, electrochemical and electrical. Mathematical models are very complex, which can use equations, mathematical methods and stochastic approaches to represent the battery runtime behavior [58], its efficiency and capacity [59] [60]. In another hand, electrochemical models optimize physical aspects of battery design.…”

Section: A Basic Theoretical Concepts In the Electrical Behavior Of mentioning

confidence: 99%

A Survey on Technologies to Implement Battery Emulators based on DC/DC Power Converters

Rubén¹,

Gonzalo²,

Pablo³

et al. 2016

Proceedings of the 14th LACCEI International Multi-Conference for Engineering, Education, and Technology: “Engineering Innovati

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Currently, many researchers from industry and academic institutions are working on the study of electric vehicles, battery systems and renewable energy sources (solar, wind, geothermal, etc.). In order to carry out research on each of these technologies it is required large capital investment for equipment. Additionally, problems must be faced such as variability of environmental parameters, large space requirements, pollution (in some cases), etc. The use of software and hardware to emulate different types of actual batteries shows to be a low-cost and environmentally friendly option due to some of its features. The battery emulator system has the ability to replicate the behavior of any kind of actual battery using a virtual battery model (also known as battery electric model) and a controllable DC/DC power converter to be used in laboratory environments. Moreover, emulators are not only used for batteries, these can be used to emulate fuel cells, photovoltaic systems, wind generators, thermoelectric generator, etc. This survey aims to present the technologies to implement battery emulators based on DC/DC power converters. This survey is split up into five sections. In the first section, as an introduction, we present the advantages offered by the use of battery emulators to the scientific community and the environment. The second section presents a review about batteries (technologies, models, model parameters, etc.) and also it includes the virtual battery models, which are the main components of battery emulators based on DC/DC power converters. In the third section, we present the main DC/DC power converter types used in these systems and their operation modes. Additionally, in section 4 are presented some case studies where different topologies battery emulators based on DC/DC power converters with battery model are analyzed. These topologies are focused on their use in electric vehicles (EV).Digital Object Identifier (DOI):http://dx. first section, as an introduction, we present the advantages offered by the use of battery emulators to the scientific community and the environment. The second section presents a review about batteries (technologies, models, model parameters, etc.) Abstract-Currently, many researchers from industry and academic institutions are working on the study of electric vehicles, battery systems and renewable energy sources (solar, wind, geothermal, etc.). In order to carry out research on each of these technologies it is required large capital investment for equipment. Additionally, problems must be faced such as variability of environmental parameters, large space requirements, pollution (in some cases), etc. The use of software and hardware to emulate different types of actual batteries shows to be a low-cost and environmentally friendly option due to some of its features. The battery emulator system has the ability to replicate the behavior of any kind of actual battery using a virtual battery model (also known as battery electric model) and a controllable DC/DC power converte...

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Section: A Basic Theoretical Concepts In the Electrical Behavior Of mentioning

confidence: 99%

A Survey on Technologies to Implement Battery Emulators based on DC/DC Power Converters

Rubén¹,

Gonzalo²,

Pablo³

et al. 2016

Proceedings of the 14th LACCEI International Multi-Conference for Engineering, Education, and Technology: “Engineering Innovati

View full text Add to dashboard Cite

show abstract

“…In this type of models, the result accuracy is highly dependent on the experimental data employed for model identification; the models are typically applicable only to a reduced range of devices and ratings; and they do not include terminal voltage and current characteristic, which are essential for circuit analysis and system simulation [19,20].…”

Section: Battery Energy Storage Modeling and Test Setupsmentioning

confidence: 99%

Modeling and Management of Batteries and Ultracapacitors for Renewable Energy Support in Electric Power Systems–An Overview

Hamidi

Ionel

Nasiri

2015

Electric Power Components and Systems

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“…Peukert's law, which describes the relationship between rate of discharge and discharge capacity, is one of the earliest mathematical models [5,6]. Other mathematical models describe a battery's non-linear capacity/recovery effects [23,24,25,26] or energy efficiency [27].…”

Section: Distributed Energy Resources and Microgridsmentioning

confidence: 99%

Combining a dynamic battery model with high-resolution smart grid data to assess microgrid islanding lifetime

Fares

Webber

2015

Applied Energy

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In this paper, we use experimental data collected from an Austin, Texas smart grid test bed with a system-level battery energy storage model to assess the lifetime of batteries in a microgrid operating in islanded mode during a distribution-level outage. We consider a hypothetical microgrid consisting of 21 single-family detached homes and three transformer-level community energy storage (CES) battery units ranging in size from 25 kWh to 75 kWh.

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VRLA Battery Discharge Reserve Time Estimation

Cited by 46 publications

References 3 publications

A Survey on Technologies to Implement Battery Emulators based on DC/DC Power Converters

A Survey on Technologies to Implement Battery Emulators based on DC/DC Power Converters

Modeling and Management of Batteries and Ultracapacitors for Renewable Energy Support in Electric Power Systems–An Overview

Combining a dynamic battery model with high-resolution smart grid data to assess microgrid islanding lifetime

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