In Silico Investigation of the Impact of Reaction Kinetics on the Physico-Mechanical Properties of Coconut-Oil-Based Rigid Polyurethane Foam-Reference-Cited by-同舟云学术

In Silico Investigation of the Impact of Reaction Kinetics on the Physico-Mechanical Properties of Coconut-Oil-Based Rigid Polyurethane Foam

Published:2023-04-25 Issue:9 Volume:15 Page:7148
ISSN:2071-1050
Container-title:Sustainability
language:en
Short-container-title:Sustainability

Author:

Alfeche Fortia Louise Adeliene M.¹²^ORCID,Dingcong Roger G.¹,Mendija Leanne Christie C.¹²,Al-Moameri Harith H.³^ORCID,Dumancas Gerard G.⁴^ORCID,Lubguban Alona A.⁵,Malaluan Roberto M.¹⁶,Alguno Arnold A.⁷^ORCID,Lubguban Arnold A.¹⁶^ORCID

Affiliation:

1. Center for Sustainable Polymers, Mindanao State University—Iligan Institute of Technology, Iligan City 9200, Philippines

2. Material Science and Engineering Program, Graduate School of Engineering, Mindanao State University—Iligan Institute of Technology, Iligan City 9200, Philippines

3. Department of Materials Engineering, Mustansiriyah University, Baghdad 10052, Iraq

4. Department of Chemistry, The University of Scranton, Scranton, PA 18510, USA

5. Department of Mathematics, Statistics, and Computer Studies, University of the Philippines Rural High School, Laguna 4033, Philippines

6. Department of Chemical Engineering and Technology, Mindanao State University—Iligan Institute of Technology, Iligan City 9200, Philippines

7. Department of Physics, Mindanao State University—Iligan Institute of Technology, Iligan City 9200, Philippines

Abstract

Conventionally, designing rigid polyurethane foams (RPUFs) with improved physico-mechanical properties from new, bio-based polyols is performed by modifying foam formulations via experimentation. However, experimental endeavors are very resource-dependent, costly, cumbersome, time-intensive, waste-producing, and present higher health risks. In this study, an RPUF formulation utilizing a coconut-oil (CO)-based polyol with improved physico-mechanical properties was approximated through a computational alternative in the lens of the gel time of the RPUF formation. In the RPUF formation of most bio-based polyols, their very fast gel times negatively impact foam robustness. The computational alternative functioned by finding a CO-based RPUF formulation with a gel time in good agreement with a formulation based on commercial petroleum-derived polyol (control). The CO-based RPUF formulation with the best-fit catalyst loading was approximated by simulating temperature profiles using a range of formulations with modified catalyst loadings iteratively. The computational approach in designing RPUF with improved properties was found to effectively negate foam collapse (with a shrinkage decrease of >60%) and enhance foam strength (with a compressive strength increase of >300%). This study presents an economically and environmentally sustainable approach to designing RPUFs by enabling minimized utilization of material sources for experimentation and analysis and minimized dependence on waste-producing methods.

Funder

the Philippine Department of Science and Technology (DOST) through the Niche Centers in the Region (NICER) – R&D Center for Sustainable Polymers

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction

Link

https://www.mdpi.com/2071-1050/15/9/7148/pdf

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