Your search keyword '"Swierczynski, Maciej"' showing total 111 results

101. Thermal Behavior and Heat Generation Modeling of Lithium Sulfur Batteries

Author

Ioan, Daniel, Knap, Vaclav, Swierczynski, Maciej, and Schaltz, Erik

Abstract

Lithium Sulfur batteries are receiving a lot of research interest because of their intrinsic characteristics, such as very high energy density and increased safety, which make them a suitable solution for zero-emission vehicles and space application. This paper analyses the influence of the temperature on the performance parameters of a 3.4 Ah Lithium-Sulfur battery cell. Furthermore, the values of the internal resistance and entropic heat coefficient, which are necessary for the parametrization of a heat generation model, are determined experimentally.

Published

2017

102. Lifetime Estimation of the Nanophosphate \LiFePO4\/C Battery Chemistry Used in Fully Electric Vehicles.

Author

Swierczynski, Maciej, Stroe, Daniel-Ioan, Stan, Ana-Irina, Teodorescu, Remus, and Kaer, Soren Knudsen

Subjects

*ELECTRIC vehicle batteries, *PHOSPHATES, *RELIABILITY in engineering, *PRODUCT life cycle, *ENERGY dissipation

Abstract

There are currently many different lithium ion (Li-ion) chemistries available on the market, and several new players are in the research and development process; however, none of them is superior to the other chemistries in all aspects. Relatively low price, long cycle and calendar lifetime, and intrinsic safety of the nanophosphate \LiFePO4\/C Li-ion chemistry make it possible to consider this chemistry for electric vehicle (EV)applications. This paper investigates the lifetime of the nanophosphate \LiFePO4\/C battery chemistry when it is used for full electrical vehicles. The investigation is performed considering a semiempirical calendar and cycle lifetime model, which was developed based on extended accelerated lifetime tests. Both capacity and power capability degradations during calendar and cycle life aging are considered and quantified. Finally, the developed battery cell lifetime model is used to study the capacity and power capability degradation behavior of the tested nanophosphate \LiFePO4\/C battery for two EV operational scenarios. [ABSTRACT FROM PUBLISHER]

Published

2015

103. An Electrochemical Impedance Spectroscopy Study on a Lithium Sulfur Pouch Cell

Author

Ioan, Daniel, Knap, Vaclav, Swierczynski, Maciej, Stanciu, Tiberiu, Schaltz, Erik, and Teodorescu, Remus

Abstract

The impedance behavior of a 3.4 Ah pouch Lithium-Sulfur cell was extensively characterized using the electrochemical impedance spectroscopy (EIS) technique. EIS measurements were performed at various temperatures and over the entire state-of-charge (SOC) interval without applying a superimposed DC current. The obtained results have revealed a high dependency of the pouch cell's impedance spectrum on the operating conditions. An equivalent electrical circuit was proposed to further analyze the results and to quantify the contributions of different resistances to the total impedance of the Li-S pouch cell at different SOCs and temperatures.

Published

2016

104. The AC Impedance Characteristic of High Power Li4Ti5O12-Based Battery Cells

Author

Stroe, Irina, Ioan, Daniel, Swierczynski, Maciej, Stanciu, Tiberiu, Teodorescu, Remus, and Knudsen, Soren

Abstract

This paper studies the impedance characteristics of a fresh 13 Ah high-power lithium titanate oxide (LTO) battery cell and analyses its dependence on the temperature and state-of-charge. The impedance of the battery cell was measured by means of the electrochemical impedance spectroscopy (EIS) technique for the entire state-of-charge (SOC) interval and considering five temperatures between 5oC and 45oC. By analyzing the measured impedance spectra of the LTO-based battery cell, it was found out that the cell's impedance is extremely dependent on the operating conditions. By further processing the measurements data by means of curve fitting, it was found that the parameters of the equivalent electrical circuit (and the corresponding electro-chemical processes) are following different dependencies on the SOC, which in most of the cases are only slightly changing with the measurement temperature.

Published

2015

105. Investigation of Multidimensional Electrothermal Impedance Spectroscopy Measurement on Lithium Ion Battery Cell

Author

Swierczynski, Maciej, Ioan, Daniel, Rezwan, Mohammad, Jr, Khan, Knudsen, Soren, and, Kaer, and Teodorescu, Remus

Abstract

Because of the safety concerns and strive for optimal battery thermal management, the importance of thermal modelling of lithium ion batteries is growing. Thermal modelling is becoming even more important with ongoing improvements of power capabilities of modern lithium ion batteries and the decrease in their physical dimensions. Recently an electrothermal impedance spectroscopy (ETIS) was proposed by Barsoukov (9) as a non-destructive method of determining the thermal properties of batteries. This paper presents the initial test results from the concept of extending from ETIS measurements from 1D into more battery dimensions what should facilitate in the future in battery 2D and 3D thermal modelling without any a prori knowledge about battery internal composition, internal parameters and electrical behavior

Published

2015

106. Field Experience from Li-Ion BESS Delivering Primary Frequency Regulation in the Danish Energy Market

Author

Swierczynski, Maciej, Ioan, Daniel, Laerke, Rasmus, Irina, Ana, Carne, Philip, Teodorescu, Remus, and Knudsen, Soren

Abstract

In this paper it is presented the practical experience from operating a 1.6 MW/ 0.4 MWh lithium ion battery energy storage system, which is providing primary frequency regulation service on the Danish energy market. Aspects of the battery system requirements and the used control strategy for primary frequency regulation service are discussed. Moreover, the estimation of the battery storage system lifetime is discussed based on the results from 1.5 years periodic inspections and measured performance degradation of the both BESSs.

Published

2014

107. An interdisciplinary review of energy storage for communities: challenges and perspectives

Author

Parra, David, Swierczynski, Maciej, Stroe, Daniel I., Norman, Stuart A., Abdon, Andreas, O'Doherty, Travis, Gillott, Mark C., Zhang, Xiaojin, Bauer, Christian, and Patel, Martin K.

Subjects

Energy storage, Community, Renewable energy technologies, Interdisciplinary review

Abstract

Given the increasing penetration of renewable energy technologies as distributed generation embedded in the consumption centres, there is growing interest in energy storage systems located very close to consumers. These systems allow to increase the amount of renewable energy generation consumed locally, they provide opportunities for demand-side management and help to decarbonise the electricity, heating and transport sectors. In this paper, the authors present an interdisciplinary review of community energy storage (CES) with a focus on its potential role and challenges as a key element within the wider energy system. The discussion includes: the whole spectrum of applications and technologies with a strong emphasis on end user applications; techno-economic, environmental and social assessments of CES; and an outlook on CES from the customer, utility company and policy-maker perspectives. Currently, in general only traditional thermal storage with water tanks is economically viable. However, CES is expected to offer new opportunities for the energy transition since the community scale introduces several advantages for electrochemical technologies such as batteries. Technical and economic benefits over energy storage in single dwellings are driven by enhanced performance due to less spiky community demand profile and economies of scale respectively. In addition, CES brings new opportunities for citizen participation within communities and helps to increase awareness of energy consumption and environmental impacts.

108. An interdisciplinary review of energy storage for communities: challenges and perspectives

Author

Parra, David, Swierczynski, Maciej, Stroe, Daniel I., Norman, Stuart A., Abdon, Andreas, Worlitschek, Jörg, O'Doherty, Travis, Rodrigues, Lucélia Taranto, Gillott, Mark C., Zhang, Xiaojin, Bauer, Christian, Patel, Martin K., Parra, David, Swierczynski, Maciej, Stroe, Daniel I., Norman, Stuart A., Abdon, Andreas, Worlitschek, Jörg, O'Doherty, Travis, Rodrigues, Lucélia Taranto, Gillott, Mark C., Zhang, Xiaojin, Bauer, Christian, and Patel, Martin K.

Abstract

Given the increasing penetration of renewable energy technologies as distributed generation embedded in the consumption centres, there is growing interest in energy storage systems located very close to consumers. These systems allow to increase the amount of renewable energy generation consumed locally, they provide opportunities for demand-side management and help to decarbonise the electricity, heating and transport sectors. In this paper, the authors present an interdisciplinary review of community energy storage (CES) with a focus on its potential role and challenges as a key element within the wider energy system. The discussion includes: the whole spectrum of applications and technologies with a strong emphasis on end user applications; techno-economic, environmental and social assessments of CES; and an outlook on CES from the customer, utility company and policy-maker perspectives. Currently, in general only traditional thermal storage with water tanks is economically viable. However, CES is expected to offer new opportunities for the energy transition since the community scale introduces several advantages for electrochemical technologies such as batteries. Technical and economic benefits over energy storage in single dwellings are driven by enhanced performance due to less spiky community demand profile and economies of scale respectively. In addition, CES brings new opportunities for citizen participation within communities and helps to increase awareness of energy consumption and environmental impacts.

109. An Overview and Comparison of Online Implementable SOC Estimation Methods for Lithium-Ion Battery

Author

Daniel-Ioan Stroe, Mattia Ricco, Maciej Swierczynski, Ana-Irina Stroe, Remus Teodorescu, Guangzhao Luo, Jinhao Meng, Meng, Jinhao, Ricco, Mattia, Luo, Guangzhao, Swierczynski, MacIej, Stroe, Daniel-Ioan, Stroe, Ana-Irina, and Teodorescu, Remus

Subjects

state of charge (SOC) estimation, Computer science, 020209 energy, Computation, Speech recognition, Comparison, lithium-ion battery, 02 engineering and technology, Execution time, Industrial and Manufacturing Engineering, Lithium-ion battery, online implementation, Nonlinear system, State of charge, Computer engineering, Control and Systems Engineering, Nonlinear filter, Robustness (computer science), nonlinear filter, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Estimation methods, state ofcharge (SOC) estimation

Abstract

With the popularity of Electrical Vehicles (EVs), Lithium-ion battery industry is developing rapidly. To ensure the battery safe usage and to reduce its average lifecycle cost, an accurate State of Charge (SOC) tracking algorithms for real-time implementation are required for different applications. Many SOC estimation methods have been proposed in the literature. However, only a few of them consider the real-time applicability. This paper reviews recently proposed online SOC estimation methods and classifies them into five categories. Their principal features are illustrated, and the main pros and cons are provided. The SOC estimation methods are compared and discussed in terms of accuracy, robustness, and computation burden. Afterward, as the most popular type of model based SOC estimation algorithms, seven nonlinear filters existing in literature are compared in terms of their accuracy and execution time as a reference for online implementation.

Published

2018

110. An overview of online implementable SOC estimation methods for Lithium-ion batteries

Author

Guangzhao Luo, Ana-Irina Stroe, Daniel-Ioan Stroe, Remus Teodorescu, Mattia Ricco, Maciej Swierczynski, Jinhao Meng, Meng, Jinhao, Ricco, Mattia, Luo, Guangzhao, Swierczynski, Maciej, Stroe, Daniel-Ioan, Stroe, Ana-Irina, and Teodorescu, Remus

Subjects

Engineering, Control and Optimization, business.industry, Mechanical Engineering, 020209 energy, Computation, Energy Engineering and Power Technology, Comparison, 02 engineering and technology, Kalman filter, Multimedia Broadcast Multicast Service, Reliability engineering, Online implementation, State of charge, Robustness (computer science), Lithium-ion battery, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, SOC, Electrical and Electronic Engineering, business, Estimation methods, EV

Abstract

With the popularity of Electrical Vehicles (EVs), Lithium-ion battery industry is also developing rapidly. To ensure the battery safety usage and reduce the average lifecycle cost, accurate State Of Charge (SOC) tracking algorithms for real-time implementation are required in different applications. Many different SOC estimation methods have been proposed in the literature. However, only few of them consider the real-time applicability. This paper reviews the recently proposed online SOC estimation methods and classifies them into five categories,that is, Coulomb Counting methods (CCMs), Open Circuit Voltage methods (OCVMs), Impedance Spectroscopy Based Methods (ISBMs), Model Based methods (MBMs) and ANN Based methods (ANNBMs). Then, their principal features are illustrated and the main pros and cons are given. After that, SOC estimation methods are compared in terms of their accuracy, robustness, and computation burden. Finally, some conclusions are drawn With the popularity of Electrical Vehicles (EVs), Lithium-ion battery industry is also developing rapidly. To ensure the battery safety usage and reduce the average lifecycle cost, accurate State Of Charge (SOC) tracking algorithms for real-time implementation are required in different applications. Many different SOC estimation methods have been proposed in the literature. However, only few of them consider the real-time applicability. This paper reviews the recently proposed online SOC estimation methods and classifies them into five categories, that is, Coulomb Counting methods (CCMs), Open Circuit Voltage methods (OCVMs), Impedance Spectroscopy Based Methods (ISBMs), Model Based methods (MBMs) and ANN Based methods (ANNBMs). Then, their principal features are illustrated and the main pros and cons are given. After that, SOC estimation methods are compared in terms of their accuracy, robustness, and computation burden. Finally, some conclusions are drawn.

Published

2017

111. Overview of Lithium-Ion Battery Modeling Methods for State-of-Charge Estimation in Electrical Vehicles

Author

Daniel-Ioan Stroe, Guangzhao Luo, Remus Teodorescu, Jinhao Meng, Mattia Ricco, Maciej Swierczynski, Meng, Jinhao, Luo, Guangzhao, Ricco, Mattia, Swierczynski, Maciej, Stroe, Daniel-Ioan, and Teodorescu, Remus

Subjects

Battery (electricity), Computer science, 020209 energy, 02 engineering and technology, Electric vehicle, lcsh:Technology, Lithium-ion battery, lcsh:Chemistry, Engineering (all), Model-based SOC estimation, Hardware_GENERAL, Genetic algorithm, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, General Materials Science, Instrumentation (computer programming), lcsh:QH301-705.5, Instrumentation, electric vehicles, Fluid Flow and Transfer Processes, State of Charge, Basis (linear algebra), lcsh:T, Process Chemistry and Technology, State of charge, General Engineering, Battery model, Computer Science Applications1707 Computer Vision and Pattern Recognition, lcsh:QC1-999, Computer Science Applications, Support vector machine, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Equivalent circuit, Materials Science (all), lcsh:Engineering (General). Civil engineering (General), Electric Vehicles, lcsh:Physics, Lithium-ion Battery

Abstract

As a critical indictor in the Battery Management System (BMS), State of Charge (SOC) is closely related to the reliable and safe operation of lithium-ion (Li-ion) batteries. Model-based methods are an effective solution for accurate and robust SOC estimation, the performance of which heavily relies on the battery model. This paper mainly focuses on battery modeling methods, which have the potential to be used in a model-based SOC estimation structure. Battery modeling methods are classified into four categories on the basis of their theoretical foundations, and their expressions and features are detailed. Furthermore, the four battery modeling methods are compared in terms of their pros and cons. Future research directions are also presented. In addition, after optimizing the parameters of the battery models by a Genetic Algorithm (GA), four typical battery models including a combined model, two RC Equivalent Circuit Model (ECM), a Single Particle Model (SPM), and a Support Vector Machine (SVM) battery model are compared in terms of their accuracy and execution time.

Published

2018