Experimental and Process Modelling Investigation of the Hydrogen Generation from Formic Acid Decomposition Using a Pd/Zn Catalyst

Sanaa Hafeez; Achilleas Constantinou

doi:10.3390/app11188462

Experimental and Process Modelling Investigation of the Hydrogen Generation from Formic Acid Decomposition Using a Pd/Zn Catalyst

Sanaa Hafeez, Achilleas Constantinou

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

The use of hydrogen as a renewable fuel has attracted great attention in recent years. The decomposition of formic acid under mild conditions was investigated using a 2%Pd6Zn4 catalyst in a batch reactor. The results showed that the conversion of formic acid increases with reaction temperature and with the formic acid concentration. A process-simulation model was developed to predict the decomposition of formic acid using 2%Pd6Zn4 in a batch reactor. The model demonstrated very good validation with the experimental work. Further comparisons between the 2%Pd6Zn4 catalyst and a commercial Pd/C catalyst were carried out. It was found that the 2%Pd6Zn4 demonstrated significantly higher conversions when compared with the commercial catalyst.

Original language	English
Article number	8462
Pages (from-to)	e8462
Journal	Applied Sciences
Volume	11
Issue number	18
DOIs	https://doi.org/10.3390/app11188462
Publication status	Published - 12 Sept 2021
Externally published	Yes

Keywords

green chemistry
renewable energy
H2 production
formic acid decomposition
process simulation modelling

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3390/app11188462Licence: CC BY 4.0

Applsci-11-08462-v2

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title = "Experimental and Process Modelling Investigation of the Hydrogen Generation from Formic Acid Decomposition Using a Pd/Zn Catalyst",

abstract = "The use of hydrogen as a renewable fuel has attracted great attention in recent years. The decomposition of formic acid under mild conditions was investigated using a 2%Pd6Zn4 catalyst in a batch reactor. The results showed that the conversion of formic acid increases with reaction temperature and with the formic acid concentration. A process-simulation model was developed to predict the decomposition of formic acid using 2%Pd6Zn4 in a batch reactor. The model demonstrated very good validation with the experimental work. Further comparisons between the 2%Pd6Zn4 catalyst and a commercial Pd/C catalyst were carried out. It was found that the 2%Pd6Zn4 demonstrated significantly higher conversions when compared with the commercial catalyst.",

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author = "Sanaa Hafeez and Achilleas Constantinou",

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T1 - Experimental and Process Modelling Investigation of the Hydrogen Generation from Formic Acid Decomposition Using a Pd/Zn Catalyst

AU - Hafeez, Sanaa

AU - Constantinou, Achilleas

PY - 2021/9/12

Y1 - 2021/9/12

N2 - The use of hydrogen as a renewable fuel has attracted great attention in recent years. The decomposition of formic acid under mild conditions was investigated using a 2%Pd6Zn4 catalyst in a batch reactor. The results showed that the conversion of formic acid increases with reaction temperature and with the formic acid concentration. A process-simulation model was developed to predict the decomposition of formic acid using 2%Pd6Zn4 in a batch reactor. The model demonstrated very good validation with the experimental work. Further comparisons between the 2%Pd6Zn4 catalyst and a commercial Pd/C catalyst were carried out. It was found that the 2%Pd6Zn4 demonstrated significantly higher conversions when compared with the commercial catalyst.

AB - The use of hydrogen as a renewable fuel has attracted great attention in recent years. The decomposition of formic acid under mild conditions was investigated using a 2%Pd6Zn4 catalyst in a batch reactor. The results showed that the conversion of formic acid increases with reaction temperature and with the formic acid concentration. A process-simulation model was developed to predict the decomposition of formic acid using 2%Pd6Zn4 in a batch reactor. The model demonstrated very good validation with the experimental work. Further comparisons between the 2%Pd6Zn4 catalyst and a commercial Pd/C catalyst were carried out. It was found that the 2%Pd6Zn4 demonstrated significantly higher conversions when compared with the commercial catalyst.

KW - green chemistry

KW - renewable energy

KW - H2 production

KW - formic acid decomposition

KW - process simulation modelling

U2 - 10.3390/app11188462

DO - 10.3390/app11188462

M3 - Article

SN - 2076-3417

VL - 11

SP - e8462

JO - Applied Sciences

JF - Applied Sciences

IS - 18

M1 - 8462

ER -

Experimental and Process Modelling Investigation of the Hydrogen Generation from Formic Acid Decomposition Using a Pd/Zn Catalyst

Abstract

Keywords

UN SDGs

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