Computational investigation of auto‐thermal reforming process of diesel for production of hydrogen for PEM fuel cell applications

Ješić, Dimitrij; Zajec, Vivian Erklavec; Bajec, David; Dolanč, Gregor; Berčič, Gorazd; Likozar, Blaž

doi:10.1002/er.8370

Cited by 1 publication

(3 citation statements)

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“…Secondly, we assessed our system by varying control parameters. The ATR minimum operating temperature is set to 800 °C [21] and the WGS minimum operating temperature is set to 180 °C [38], which are necessary conditions for proper system operation. A high η effectiveness ) improved the system performance by reducing the WGS reactor's temperature and CO concentration.…”

Section: Discussionmentioning

confidence: 99%

“…This study assumes the ATR model is adiabatic and all hydrocarbons in the gas are fully reformed at 800 °C or higher. Thus, the minimum ATR outlet gas temperature is set as 800 °C because hydrocarbons in the gas cannot be fully reformed when ATR's temperature(T ATR ) is lower than 800 °C [21]. For simplicity, ATR outlet gases consist only of H 2 , CO, CO 2 , H 2 O, and N 2 .…”

Section: Pemfcmentioning

confidence: 99%

“…Ješić et al simulated the auto-thermal reforming with the operational water-gas shift (WGS) using Aspen Plus. They analyzed the influence of the oxygen-to-carbon ratio, steam-to-carbon ratio, inlet ATR temperature, and pressure [21]. Lee et al suggested diesel fuel processing utilizing hydrogen peroxide (H 2 O 2 ) to obtain the high-purity H 2 .…”

Section: Introductionmentioning

confidence: 99%

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Mobile Proton-Exchange Membrane Fuel Cell Powered by Diesel Fuel: System Simulation and Life Cycle Analysis

Hwang,

Yoon,

Choi

2023

International Journal of Energy Research

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Diesel engine generators used at construction sites generate noise, vibration, and large amounts of pollutant emissions. With the strengthening of emission standards for construction equipment, technologies must be developed to meet new requirements. We proposed and analyzed a mobile proton-exchange membrane fuel cell diesel-powered system to address these issues. The proposed system consisted of an autothermal reformer, a proton-exchange membrane fuel cell, and a balance of plant components. Previous studies on the system have not explored the optimal design and operating condition of the system and have not shown whether the proposed system is superior to the system using the hydrogen-fueled proton-exchange membrane fuel cell system in the life-cycle greenhouse gas emissions point of view. In this study, we clarified system operation characteristics, determined the operational design point, and evaluated system performance and life-cycle greenhouse gas emissions. The system was analyzed by constructing a zero-dimensional simulation model. Several control parameters were varied in parametric studies to determine the operational design point (steam-to-carbon ratio of 2, oxygen-to-carbon ratio of 0.5, fuel utilization factor of 0.85, and heat exchanger effectiveness of 0.85). Considering system performance, the determined design point achieved a 32.3% efficiency. Additionally, we assessed the life-cycle greenhouse gas emissions of the system and compared them with those of an alternative system, which is a hydrogen-fueled proton exchange membrane fuel cell system. It was confirmed that in the United States of America, the proposed system emits 1010.2 g-CO2-eq/kWh of greenhouse gas at a 300 km fuel transportation distance, which is similar to a hydrogen-fueled proton-exchange membrane fuel cell system (1001.1 g-CO2-eq/kWh). The proposed system emits less greenhouse gas emissions than the hydrogen-fueled proton-exchange membrane fuel cell system if the distance from the hydrogen production site to the construction site is more than 318 km. Therefore, for a construction site far from a hydrogen production plant, the proposed diesel-fueled proton-exchange membrane fuel cell system is preferable from both the greenhouse gas emissions and convenience perspectives.

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Section: Discussionmentioning

confidence: 99%

Section: Pemfcmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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