24 Cell Proton Exchange Membrane Fuel Cell stack, 300 square cm area voltage parameterization

Siegel, Jason B.; Stefanopoulou, Anna G.; McKahn, Denise (McKay)

Work Description

Title: 24 Cell Proton Exchange Membrane Fuel Cell stack, 300 square cm area voltage parameterization Open Access Deposited

Attribute	Value
Methodology	This section contains work related to the modeling of voltage degradation in a 24 cell PEM fuel cell stack with 300 cm2 cross-sectional area. The experimental hardware used to validate the model consists of a computer controlled system that coordinates air, hydrogen, cooling, and electrical subsystems to operate the stack. Dry hydrogen is pressure regulated for full utilization in the dead ended anode. Using a solenoid valve, the anode is periodically purged to recover the gradual degradation in voltage. A membrane based humidifier controls the vapor content of the cathode gas stream while a mass flow controller is used to regulate the flow to a desired stoichiometry.
Description	This section contains work related to the modeling of voltage degradation in a 24 cell PEM fuel cell stack with 300 cm2 cross-sectional area. The experimental hardware used to validate the model consists of a computer controlled system that coordinates air, hydrogen, cooling, and electrical subsystems to operate the stack. Dry hydrogen is pressure regulated for full utilization in the dead-ended anode. Using a solenoid valve, the anode is periodically purged to recover the gradual degradation in voltage. A membrane based humidifier controls the vapor content of the cathode gas stream while a mass flow controller is used to regulate the flow to the desired stoichiometry.
Creator	Siegel, Jason B. Stefanopoulou, Anna G. McKahn, Denise (McKay)
Depositor	siegeljb@umich.edu
Contact information	siegeljb@umich.edu
Discipline	Engineering
Funding agency	National Science Foundation (NSF)
Date coverage	2007-01-01
Citations to related material	Denise A. McKay, Jason B. Siegel, William Ott, and Anna G. Stefanopoulou. Parameterization and prediction of temporal fuel cell voltage behavior during flooding and drying conditions. Journal of Power Sources, 178(1):207 - 222, 2008. https://doi.org/10.1016/j.jpowsour.2007.12.031
Resource type	Dataset
Last modified	07/06/2020
Published	07/06/2020
DOI	https://doi.org/10.7302/dy3h-sf31
License	http://creativecommons.org/licenses/by-nc/4.0/

To Cite this Work:
Siegel, J. B., Stefanopoulou, A. G., McKahn, D. (. (2020). 24 Cell Proton Exchange Membrane Fuel Cell stack, 300 square cm area voltage parameterization [Data set], University of Michigan - Deep Blue Data. https://doi.org/10.7302/dy3h-sf31

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Files (Count: 15; Size: 55.8 MB)

Title	Original Upload	Last Modified	File Size	Access	Actions
voltage_param_readme.txt	2019-04-19	2019-04-19	2.77 KB	Open Access	View Details Download
Dec18FulldayData.mat	2019-04-19	2019-04-19	3.4 MB	Open Access	View Details Download
Dec17_validation_alpha_11_5_all.mat	2019-04-19	2019-04-19	8.98 MB	Open Access	View Details Download
Tuning_data_Dec18.mat	2019-04-19	2019-04-19	30 MB	Open Access	View Details Download
GDLModel.mdl	2019-04-19	2019-04-19	474 KB	Open Access	View Details Download
Run_GDL_Model.m	2019-04-19	2019-04-19	10.6 KB	Open Access	View Details Download
Voltage_parameterization_linear_...ime.m	2019-04-19	2019-04-19	37.9 KB	Open Access	View Details Download
fcs_params.m	2019-04-19	2019-04-19	6.03 KB	Open Access	View Details Download
mscaledata.m	2019-04-19	2019-04-19	2.89 KB	Open Access	View Details Download
mscaledata_a.m	2019-04-19	2019-04-19	1.93 KB	Open Access	View Details Download
satpressure.m	2019-04-19	2019-04-19	532 Bytes	Open Access	View Details Download
Dec17FulldayData.mat	2019-04-19	2019-04-19	2.76 MB	Open Access	View Details Download
Dec20FulldayData.mat	2019-04-19	2019-04-19	4.67 MB	Open Access	View Details Download
Dec21FulldayData.mat	2019-04-19	2019-04-19	5.39 MB	Open Access	View Details Download
calcdata.m	2019-04-19	2019-04-19	289 Bytes	Open Access	View Details Download

****************************************************************************************** COPYRIGHT � 2008 THE REGENTS OF THE UNIVERSITY OF MICHIGAN ALL RIGHTS RESERVED PERMISSION IS GRANTED TO USE, COPY AND REDISTRIBUTE THIS SOFTWARE FOR NONCOMMERCIAL EDUCATION AND RESEARCH PURPOSES, SO LONG AS NO FEE IS CHARGED, AND SO LONG AS THE COPYRIGHT NOTICE ABOVE, THIS GRANT OF PERMISSION, AND THE DISCLAIMER BELOW APPEAR IN ALL COPIES MADE; AND SO LONG AS THE NAME OF THE UNIVERSITY OF MICHIGAN IS NOT USED IN ANY ADVERTISING OR PUBLICITY PERTAINING TO THE USE OR DISTRIBUTION OF THIS SOFTWARE WITHOUT SPECIFIC, WRITTEN PRIOR AUTHORIZATION. PERMISSION TO MODIFY OR OTHERWISE CREATE DERIVATIVE WORKS OF THIS SOFTWARE IS NOT GRANTED. THIS USE OF THIS SOFTWARE REQUIRES SIMULINK�, A LICENSED PRODUCT OF THE MATHWORKS, INC. THE SOFTWARE USER IS SOLELY RESOPNSIBLE FOR OBTAINTING AN APPROPRIATE LICENSE FOR SIMULINK�. NO LICENSE TO SIMULINK� IS GRANTED, INFERRED OR IMPLIED BY THE DISTRIBUTION OF THIS SOFTWARE. THIS SOFTWARE IS PROVIDED AS IS, WITHOUT REPRESENTATION AS TO ITS FITNESS FOR ANY PURPOSE, AND WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE REGENTS OF THE UNIVERSITY OF MICHIGAN SHALL NOT BE LIABLE FOR ANY DAMAGES, INCLUDING SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, WITH RESPECT TO ANY CLAIM ARISING OUT OF OR IN CONNECTION WITH THE USE OF THE SOFTWARE, EVEN IF IT HAS BEEN OR IS HEREAFTER ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. ****************************************************************************************** ** To run the model - download Dec18FulldayData.mat, Dec17_validation_alpha_11_5_all.mat, Tuning_data_Dec18.mat - open GDLmodel.mdl - run Run_GDL_model.m - run voltage_parameterization_linear_jason_time.m (tune the voltage and plot variables) ** Description of files and folders fcsparams.m - fuel cell parameters and data constants GDLModel.mdl - Simulink model mscaledata - convert raw data to SI units mscaledata_a - convert data back to non-SI units for plotting as in publication satpressure.m - Calculate saturation pressure as a function of temperature voltage_parameterization_linear_jason_time.m - tunes the model and creates figures from publication ** The model is created by Denise McKay, Jason Siegel, W. Ott, and Anna Stefanopoulou Fuel Cell Control Systems Laboratory (FCCS) Department of Mechanical Engineering University of Michigan ** Model derivation The detail of the model can be found in "Parameterization and prediction of temporal fuel cell voltage behavior during flooding and drying conditions." by D. McKay, J. Siegel, W. Ott, A.G. Stefanopoulou. Journal of Power Sources. 178 (2008).

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