Regression analysis of PEM fuel cell transient response

Edwards, Russell L.; Demuren, A. O.

doi:10.1007/s40095-016-0209-1

Cited by 16 publications

(7 citation statements)

References 37 publications

(43 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Using the simulation RC model shown in Figure 4, the shape of the transient response of this model to the step load change is represented in Figure 5. It should be noted that when the load current steps up, the voltage drops simultaneously to some value due to the ohmic losses, and then it decays exponentially to its steady-state value due to the capacitor C. However, the experimental voltage of the PEMFC, as can be seen later (Section 5) and found in many works [12,31,32] has the form of Figure 5. This figure clearly illustrates a big difference between the experimental fuel cell voltage and the corresponding voltage given by the RC model.…”

Section: Equivalent Electrical Rc Circuit (Rcm)mentioning

confidence: 90%

New Equivalent Electrical Model of a Fuel Cell and Comparative Study of Several Existing Models with Experimental Data from the PEMFC Nexa 1200 W

et al. 2021

View full text Add to dashboard Cite

The present work investigates different models of polymer electrolyte membrane fuel cell. More specifically, three models are studied: a nonlinear state-space model, a generic dynamic model integrated into MATLAB/Simulink, and an equivalent RC electrical circuit. A new equivalent electrical RL model is proposed, and the methodology for determining its parameters is also given. An experimental test bench, based on a 1200-W commercial PEMFC, is built to compare the static and dynamic behaviour of the existing models and the proposed RL model with the experimental data. The comparative analysis highlights the advantages and drawbacks of each of these models. The major advantages of the proposed RL model lie in both its simplicity and its ability to provide a similar transitory behaviour compared to the commercially manufactured PEMFC employed in this research.

show abstract

Section: Equivalent Electrical Rc Circuit (Rcm)mentioning

confidence: 90%

New Equivalent Electrical Model of a Fuel Cell and Comparative Study of Several Existing Models with Experimental Data from the PEMFC Nexa 1200 W

et al. 2021

View full text Add to dashboard Cite

show abstract

“…The system must be designed such that the DC bus voltage and battery SOC stay within their allowed operation ranges. Additionally, since FCs are typically very sensible to quick power transients [15], the FCs must be prevented from experiencing quick power transients. A load power transient is considered quick if it leads to FC current increasing or…”

Section: A the General Philosofy Of The Approachmentioning

confidence: 99%

Modified Variable DC Approach Applicable to Fuel Cells and DOL Batteries in Shipboard Power Systems

Haxhiu

Kyyrä

Chan

et al. 2020

2020 9th International Conference on Renewable Energy Research and Application (ICRERA)

View full text Add to dashboard Cite

Previously, a Variable DC approach has been proposed for hybrid fuel cell and battery shipboard systems. The approach was shown to reduce system powertrain losses, and hence cost of operation. However, in addition to cost, some vessel types are quite sensible to system weight and footprint. For such vessels, use of batteries without power converters is an attractive solution. However, the Variable DC approach is not applicable to batteries integrated without power converters. This paper proposes modifications on the previously presented Variable DC approach. The new approach enables reductions in system weight and footprint, while also achieving improvements in powertrain efficiency. The validation of the proposed method is carried out using a real-time hardware in loop test setup.

show abstract

“…By using this technique, the relationship between variables that enter the regression process will be found without needing to enter the coefficient and constants needed in mathematical techniques. Thus, it will make it easier to know the power curve by ignoring these values [35]- [37].…”

Section: Modeling Of Power Characteristic Curve On Small Scale Comprementioning

confidence: 99%

“…In other studies, there have been several studies that discussed the use of polynomial regression, to be able to predict the characteristics of data. Some of the studies included [37] used polynomial regression to analyze transient responses from PEM fuel cells. In other research carried out by Fumo et al [38], this regression technique was used to predict the energy consumption in residential buildings.…”

Section: Modeling Of Power Characteristic Curve On Small Scale Comprementioning

confidence: 99%

Prediction of Power Characteristic Curve on Small Scale Compressed Air Energy Storage by Using Regression Analysis

Widjonarko¹,

Soenoko²,

Wahyudi³

et al. 2018

Preprint

View full text Add to dashboard Cite

The research on small scale compressed air energy storage (SS-CAES) becomes an interesting topic especially in optimizing the performance of the system. In this topic, the characteristic curve of the energy storage system is the key to control the system to reach optimum power to the load. In previous research, mathematical equations were used to get the characteristic curve. This paper proposes the polynomial regression based on the actual output data from the prototype to model the characteristic curve of the SS-CAES prototype. The authors have compared the use of mathematical models and polynomial regression in modeling the power curve with actual observational data and determining the level of accuracy of modeling. The results showed that by using polynomial regression, the characteristics of the SS-CAES prototype power curve could only be obtained by using the sample data from the system output with accuracy value 0.967 for R-square. Thus, an approach using this method would facilitate researchers to obtain the characteristics of the curve of the system.

show abstract

Regression analysis of PEM fuel cell transient response

Cited by 16 publications

References 37 publications

New Equivalent Electrical Model of a Fuel Cell and Comparative Study of Several Existing Models with Experimental Data from the PEMFC Nexa 1200 W

New Equivalent Electrical Model of a Fuel Cell and Comparative Study of Several Existing Models with Experimental Data from the PEMFC Nexa 1200 W

Modified Variable DC Approach Applicable to Fuel Cells and DOL Batteries in Shipboard Power Systems

Prediction of Power Characteristic Curve on Small Scale Compressed Air Energy Storage by Using Regression Analysis

Contact Info

Product

Resources

About