Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations

Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations

Electric vehicles are becoming more and more popular. One of the most promising possible solutions is one where a hybrid powertrain made up of a FC (Fuel Cell) and a battery is used. This type of vehicle offers great autonomy and high recharging speed, which makes them ideal for many industrial appl...

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Main Authors: Germán Andrés Ramos, Tomàs Montobbio de Pérez-Cabrero, Carles Domènech-Mestres, Ramon Costa-Castelló
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Electronics
Subjects:
hybrid power-train
power-train typologies
hydrogen vehicles
Online Access:https://www.mdpi.com/2079-9292/10/12/1431
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spelling doaj-58736d0aacfb47d48947ffe82cd872ca2021-07-01T00:09:15ZengMDPI AGElectronics2079-92922021-06-01101431143110.3390/electronics10121431Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different ConfigurationsGermán Andrés Ramos0Tomàs Montobbio de Pérez-Cabrero1Carles Domènech-Mestres2Ramon Costa-Castelló3Department of Electrical and Electronic Engineering, Universidad Nacional de Colombia, Bogotá 111321, ColombiaInstitut de Robòtica i Informàtica Industrial, CSIC-UPC, Llorens i Artigas 4-6, 08028 Barcelona, SpainCenter of Industrial Equipment Design, Polytechnic University of Catalonia, 08028 Barcelona, SpainInstitut de Robòtica i Informàtica Industrial, CSIC-UPC, Llorens i Artigas 4-6, 08028 Barcelona, SpainElectric vehicles are becoming more and more popular. One of the most promising possible solutions is one where a hybrid powertrain made up of a FC (Fuel Cell) and a battery is used. This type of vehicle offers great autonomy and high recharging speed, which makes them ideal for many industrial applications. In this work, three ways to build a hybrid power-train are presented and compared. To illustrate this, the case of an industrial robot designed to move loads within a fully automated factory is used. The analysis and comparison are carried out through different objective criteria that indicate the power-train performance in different battery charge levels. The hybrid configurations are tested using real power profiles of the industrial robot. Finally, simulation results show the performance of each hybrid configuration in terms of hydrogen consumption, battery and FC degradation, and dc bus voltage and current regulation.https://www.mdpi.com/2079-9292/10/12/1431hybrid power-trainpower-train typologieshydrogen vehicles
collection DOAJ
language English
format Article
sources DOAJ
author Germán Andrés Ramos
Tomàs Montobbio de Pérez-Cabrero
Carles Domènech-Mestres
Ramon Costa-Castelló
spellingShingle Germán Andrés Ramos
Tomàs Montobbio de Pérez-Cabrero
Carles Domènech-Mestres
Ramon Costa-Castelló
Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations
Electronics
hybrid power-train
power-train typologies
hydrogen vehicles
author_facet Germán Andrés Ramos
Tomàs Montobbio de Pérez-Cabrero
Carles Domènech-Mestres
Ramon Costa-Castelló
author_sort Germán Andrés Ramos
title Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations
title_short Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations
title_full Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations
title_fullStr Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations
title_full_unstemmed Industrial Robots Fuel Cell Based Hybrid Power-Trains: A Comparison between Different Configurations
title_sort industrial robots fuel cell based hybrid power-trains: a comparison between different configurations
publisher MDPI AG
series Electronics
issn 2079-9292
publishDate 2021-06-01
description Electric vehicles are becoming more and more popular. One of the most promising possible solutions is one where a hybrid powertrain made up of a FC (Fuel Cell) and a battery is used. This type of vehicle offers great autonomy and high recharging speed, which makes them ideal for many industrial applications. In this work, three ways to build a hybrid power-train are presented and compared. To illustrate this, the case of an industrial robot designed to move loads within a fully automated factory is used. The analysis and comparison are carried out through different objective criteria that indicate the power-train performance in different battery charge levels. The hybrid configurations are tested using real power profiles of the industrial robot. Finally, simulation results show the performance of each hybrid configuration in terms of hydrogen consumption, battery and FC degradation, and dc bus voltage and current regulation.
topic hybrid power-train
power-train typologies
hydrogen vehicles
url https://www.mdpi.com/2079-9292/10/12/1431
work_keys_str_mv AT germanandresramos industrialrobotsfuelcellbasedhybridpowertrainsacomparisonbetweendifferentconfigurations
AT tomasmontobbiodeperezcabrero industrialrobotsfuelcellbasedhybridpowertrainsacomparisonbetweendifferentconfigurations
AT carlesdomenechmestres industrialrobotsfuelcellbasedhybridpowertrainsacomparisonbetweendifferentconfigurations
AT ramoncostacastello industrialrobotsfuelcellbasedhybridpowertrainsacomparisonbetweendifferentconfigurations
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