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Deacha Chatsiriwech. Simulation of hydrogen production from water-hyacinth with equilibrium reactors. (). King Mongkut's University of Technology North Bangkok. Central Library. : , 2024.
Simulation of hydrogen production from water-hyacinth with equilibrium reactors
Name: Sirikul Boonterm
Organization :
Chulalongkorn University. Faculty of Engineering
Name: Deacha Chatsiriwech
Organization :
Chulalongkorn University. Faculty of Engineering
Email :
deacha.c@chula.ac.th
LCSH:
Hydrogen
-- Utilization
LCSH:
Biomass energy
Abstract:
The dependency on non-renewable resources, particularly fossil fuels, to produce chemical and energy
to support daily needs has resulted in growing negative environmental impacts. Climate change is one of the
most significant impacts of greenhouse gas emissions, especially carbon dioxide (CO2) from the combustion
of fossil fuels. Currently, using renewable energy sources, hydrogen fuel (H2) is a more interesting way to
reduce the effects of climate change. Utilizing biomass conversion is one of sustainable renewable methods
for producing H2. A potential process that combines steam reforming (SR), CO2 reforming (DR), and water
gas shift (WS) reactions is called bi-reforming (BR). This process can be utilized for the generation of H2
while capturing CO2. The process has been simulated with a series of equilibrium reactors on Aspen plus
process simulator for hydrogen production from Water-Hyacinth. The bi-reforming process has been
investigated on a single equilibrium reactor (SR+DR+WS), 2 equilibrium reactors in series (SR+WS separate
DR), and 3 equilibrium reactors in series (SR to WS to DR, DR to SR to WS, and SR to DR to WS). The
investigated results have revealed that the equilibrium concentration of H2 and CO products could be 0.48%
and 0.52% respectively, at 950 oC 1 bar. Consequently, equilibrium reactor models could be employed for
predicting equilibrium product distribution for well-defined catalytic reactions
King Mongkut's University of Technology North Bangkok. Central Library
Address:
BANGKOK
Email:
library@kmutnb.ac.th
Created:
2024
Modified:
2024-11-28
Issued:
2024-11-28
บทความ/Article
application/pdf
BibliograpyCitation :
In Kasetsart University. Faculty of Science. The Pure and Applied Chemistry International Conference 2024 (PACCON 2024) (pp.327-333). Bangkok : Kasetsart University, 2024
eng
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Sirikul Boonterm
| Title | Contributor | Type |
|---|---|---|
| Simulation of hydrogen production from water-hyacinth with equilibrium reactors
มหาวิทยาลัยเทคโนโลยีพระจอมเกล้าพระนครเหนือ Sirikul Boonterm;Deacha Chatsiriwech | บทความ/Article |
Deacha Chatsiriwech
| Title | Contributor | Type |
|---|---|---|
| Simulation of hydrogen production from water-hyacinth with equilibrium reactors
มหาวิทยาลัยเทคโนโลยีพระจอมเกล้าพระนครเหนือ Sirikul Boonterm;Deacha Chatsiriwech | บทความ/Article |