On the evaluation of the carbon dioxide solubility in polymers using gene expression programming

Abstract: Evaluation, prediction, and measurement of carbon dioxide (CO2) solubility in different polymers are crucial for engineers in various chemical applications, such as extraction and generation of novel materials. In this paper, correlations based on gene expression programming (GEP) were generated to predict the value of carbon dioxide solubility in three polymers. Results showed that the generated correlations could represent an outstanding efficiency and provide predictions for carbon dioxide solubility with s… Show more

“…Strategically planting these trees near structures can significantly reduce their carbon footprint (Table 1), with this group capable of absorbing 105 kg of CO 2 daily [26][27][28][29][30][31][32]. These trees continue to absorb CO 2 throughout a building's lifespan, enhancing air quality and fostering a harmonious ecosystem that counters the structure's environmental impact [32,33]. This enduring relationship highlights the importance of integrating nature into the built environment for climate change mitigation.…”

Learning from Past Research for a Green Future: Harnessing Organic and Genetically Enhanced Trees to Reduce Construction-Induced CO2 Emissions

“…Strategically planting these trees near structures can significantly reduce their carbon footprint (Table 1), with this group capable of absorbing 105 kg of CO 2 daily [26][27][28][29][30][31][32]. These trees continue to absorb CO 2 throughout a building's lifespan, enhancing air quality and fostering a harmonious ecosystem that counters the structure's environmental impact [32,33]. This enduring relationship highlights the importance of integrating nature into the built environment for climate change mitigation.…”

Learning from Past Research for a Green Future: Harnessing Organic and Genetically Enhanced Trees to Reduce Construction-Induced CO2 Emissions

Modeling CO2 loading capacity of triethanolamine aqueous solutions using advanced white-box approaches: GMDH, GEP, and GP

Modeling thermo-physical properties of hydrogen utilizing machine learning schemes: Viscosity, density, diffusivity, and thermal conductivity