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Main Authors: Fortun, Noel, Gaspar, Piolo, Jose, Editha, Lao, Angelyn, Mendoza, Eduardo, Razon, Luis
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.17568
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author Fortun, Noel
Gaspar, Piolo
Jose, Editha
Lao, Angelyn
Mendoza, Eduardo
Razon, Luis
author_facet Fortun, Noel
Gaspar, Piolo
Jose, Editha
Lao, Angelyn
Mendoza, Eduardo
Razon, Luis
contents This paper focuses on what we call Reaction Network Cardon Dioxide Removal (RNDCR) framework to analyze several proposed negative emissions technologies (NETs) so as to determine when present-day Earth carbon cycle system would exhibit multistationarity (steady-state multiplicity) or possibly monostationarity, that will in effect lower the rising earth temperature. Using mathematical modeling based on the techniques of chemical reaction network theory (CRNT), we propose an RNDCR system consisting of the Anderies subnetwork, fossil fuel emission reaction, the carbon capture subnetwork and the carbon storage subnetwork. The RNCDR framework analysis was done in the cases of two NETs: Bioenergy with Carbon Capture and Storage and Afforestation/Reforestation. It was found out that these two methods of carbon dioxide removal are almost similar with respect to their network properties and their capacities to exhibit multistationarity and absolute concentration robustness in certain species.
format Preprint
id arxiv_https___arxiv_org_abs_2412_17568
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A reaction network approach to modeling carbon dioxide removal systems
Fortun, Noel
Gaspar, Piolo
Jose, Editha
Lao, Angelyn
Mendoza, Eduardo
Razon, Luis
Systems and Control
Dynamical Systems
This paper focuses on what we call Reaction Network Cardon Dioxide Removal (RNDCR) framework to analyze several proposed negative emissions technologies (NETs) so as to determine when present-day Earth carbon cycle system would exhibit multistationarity (steady-state multiplicity) or possibly monostationarity, that will in effect lower the rising earth temperature. Using mathematical modeling based on the techniques of chemical reaction network theory (CRNT), we propose an RNDCR system consisting of the Anderies subnetwork, fossil fuel emission reaction, the carbon capture subnetwork and the carbon storage subnetwork. The RNCDR framework analysis was done in the cases of two NETs: Bioenergy with Carbon Capture and Storage and Afforestation/Reforestation. It was found out that these two methods of carbon dioxide removal are almost similar with respect to their network properties and their capacities to exhibit multistationarity and absolute concentration robustness in certain species.
title A reaction network approach to modeling carbon dioxide removal systems
topic Systems and Control
Dynamical Systems
url https://arxiv.org/abs/2412.17568