Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab
Biomass is a product in which is a renewable resource that can beused for production of hydrogen. The hydrogen has the potential to be a source for alternative fuel required in the future. The alternative way concept is based on a two-stage process, which are fast pyrolysis and catalytic steam re...
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Universiti Teknologi PETRONAS
2009
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my-utp-utpedia.92272013-10-22T11:18:11Z http://utpedia.utp.edu.my/9227/ Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab Imrat, Mohd Zharif TP Chemical technology Biomass is a product in which is a renewable resource that can beused for production of hydrogen. The hydrogen has the potential to be a source for alternative fuel required in the future. The alternative way concept is based on a two-stage process, which are fast pyrolysis and catalytic steam reforming [17]. There exists a wide range of modeling approaches to represent hydrogen production from bio oil via steam reforming. The modeling approach, even it is less expensive and more extendable compared to experimental procedures, has its own limitation. In this project, the bio oil will be represented by crude ethanol as there are difficulties of finding the right journals. The main objective for this project is to screen suitable models to represent hydrogen production from bio-oil via steam reforming. The models of each process steps in hydrogen production are compiled by MATLAB. The process steps from steam reforming to water gas shift reaction, to PSA purification of hydrogen are gathered into one system so that the integrated results can be determined. In the case of steam reforming process, Model 1 has the Average Relative Error of 29.1%. Whereas for Model 2 and Power Law, both have the Average Relative Error of 21.1% and 17.2% respectively. Basically, Model 2 and Power Law are on the active site of the Rate Determining Step as the Average Relative Error is less than 25 %. For the Water Gas Shift reaction, it is concluded that the final temperature for the shift reactor for this system is around 493 K. The conversion of the reactor is 68 % and the GHSV will be approximately about 6250 h"1. Finally, the H2 purity for this work is 98.9119 %because the bed only consists ofactivated carbon with the purpose istotrap CO2- It is determined that the Relative error (%) for this work and Ribeiro ., based on H2 purity is 1.08 %. Universiti Teknologi PETRONAS 2009-01 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/9227/1/2009%20Bachelor%20-%20Modelling%20of%20Hydrogen%20Production%20From%20Bio%20Oil%20Via%20Steam%20Reforming%20Using%20Matlab.pdf Imrat, Mohd Zharif (2009) Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab. Universiti Teknologi PETRONAS. (Unpublished) |
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TP Chemical technology Imrat, Mohd Zharif Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab |
| description |
Biomass is a product in which is a renewable resource that can beused for production of
hydrogen. The hydrogen has the potential to be a source for alternative fuel required in
the future. The alternative way concept is based on a two-stage process, which are fast
pyrolysis and catalytic steam reforming [17]. There exists a wide range of modeling
approaches to represent hydrogen production from bio oil via steam reforming. The
modeling approach, even it is less expensive and more extendable compared to
experimental procedures, has its own limitation. In this project, the bio oil will be
represented by crude ethanol as there are difficulties of finding the right journals. The
main objective for this project is to screen suitable models to represent hydrogen
production from bio-oil via steam reforming. The models of each process steps in
hydrogen production are compiled by MATLAB. The process steps from steam
reforming to water gas shift reaction, to PSA purification of hydrogen are gathered into
one system so that the integrated results can be determined. In the case of steam
reforming process, Model 1 has the Average Relative Error of 29.1%. Whereas for Model
2 and Power Law, both have the Average Relative Error of 21.1% and 17.2%
respectively. Basically, Model 2 and Power Law are on the active site of the Rate
Determining Step as the Average Relative Error is less than 25 %. For the Water Gas
Shift reaction, it is concluded that the final temperature for the shift reactor for this
system is around 493 K. The conversion of the reactor is 68 % and the GHSV will be
approximately about 6250 h"1. Finally, the H2 purity for this work is 98.9119 %because
the bed only consists ofactivated carbon with the purpose istotrap CO2- It is determined
that the Relative error (%) for this work and Ribeiro ., based on H2 purity is 1.08 %. |
| format |
Final Year Project |
| author |
Imrat, Mohd Zharif |
| author_facet |
Imrat, Mohd Zharif |
| author_sort |
Imrat, Mohd Zharif |
| title |
Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab |
| title_short |
Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab |
| title_full |
Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab |
| title_fullStr |
Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab |
| title_full_unstemmed |
Modeling of Hydrogen Production from Bio-Oilvia Steam Reforming using Matlab |
| title_sort |
modeling of hydrogen production from bio-oilvia steam reforming using matlab |
| publisher |
Universiti Teknologi PETRONAS |
| publishDate |
2009 |
| url |
http://utpedia.utp.edu.my/9227/1/2009%20Bachelor%20-%20Modelling%20of%20Hydrogen%20Production%20From%20Bio%20Oil%20Via%20Steam%20Reforming%20Using%20Matlab.pdf http://utpedia.utp.edu.my/9227/ |
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13.211869 |