Authors :
Cherrie Lyn Villanueva; Cherrie Lyn Villanueva
Volume/Issue :
Volume 7 - 2022, Issue 11 - November
Google Scholar :
https://bit.ly/3IIfn9N
Scribd :
https://bit.ly/3GMNqAp
DOI :
https://doi.org/10.5281/zenodo.7353222
Abstract :
- Technology for capturing carbon dioxide
(CO2) has been applied in industry for more than 80
years
[7.]. In this study the usage of CO2 separation units
will be facilitated by extensive knowledge in the carbon
capture procedures and different applications of CO2
[7.].
As the production of carbon dioxide (CO2) is a
byproduct of burning fossil fuels, effective CO2 capture
from industrial and commercial operations is seen as a
key method with the potential to significantly lower
atmospheric CO2 levels [2.].
[66.] The three primary types of capture now in use
are oxy-fuel combustion, pre-combustion capture, and
post-combustion capture. The fossil fuel is precombusted with air or oxygen and partially oxidized to
produce CO and H2 [2.]. The result of this reaction with
steam is a mixture of CO2 and additional H2. Before
combustion occurs, the carbon dioxide is eliminated and
the H2 can be used as fuel. Oxy-combustion is the
process of burning oxygen rather than air, which
produces [2.] a flue gas that is primarily pure CO2 and
may be appropriate for storage. In post combustion
capture, CO2 is extracted from the flue gas produced
when fossil fuels are burned. The post combustion
capture (PCC) technology offers a way for [12.]
stationary fossil fuel-fired power plants, both new and
old, to absorb CO2 in the near future without having to
make significant changes to their current combustion
processes and infrastructure.
- Technology for capturing carbon dioxide
(CO2) has been applied in industry for more than 80
years
[7.]. In this study the usage of CO2 separation units
will be facilitated by extensive knowledge in the carbon
capture procedures and different applications of CO2
[7.].
As the production of carbon dioxide (CO2) is a
byproduct of burning fossil fuels, effective CO2 capture
from industrial and commercial operations is seen as a
key method with the potential to significantly lower
atmospheric CO2 levels [2.].
[66.] The three primary types of capture now in use
are oxy-fuel combustion, pre-combustion capture, and
post-combustion capture. The fossil fuel is precombusted with air or oxygen and partially oxidized to
produce CO and H2 [2.]. The result of this reaction with
steam is a mixture of CO2 and additional H2. Before
combustion occurs, the carbon dioxide is eliminated and
the H2 can be used as fuel. Oxy-combustion is the
process of burning oxygen rather than air, which
produces [2.] a flue gas that is primarily pure CO2 and
may be appropriate for storage. In post combustion
capture, CO2 is extracted from the flue gas produced
when fossil fuels are burned. The post combustion
capture (PCC) technology offers a way for [12.]
stationary fossil fuel-fired power plants, both new and
old, to absorb CO2 in the near future without having to
make significant changes to their current combustion
processes and infrastructure.
