Reusing polyethylene terephthalate bottles (PETBs) for sealing panels manufacturing: The influence of bottle types on their thermal performance

African Journal of Environmental Science and Technology Pub Date : 2024-02-29 DOI:10.5897/ajest2023.3251

Alonso Pippo Walfrido, Dario Gomez Araujo Ivan, Hideo Ando Junior Oswaldo, Ari Fiamonzini Luciano

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Abstract

This study aims to investigate the influence of PET bottle type used during PET panel manufacturing on their thermal performance. Used PETBs are an increasing threat to the environment. Plastic wastes cause air pollution, and water and soil contamination. Nowadays, vast amounts of such waste are unsafely disposed of in Brazil. The reuse of PETBs for PET panel manufacturing may contribute to minimizing or eliminating their recycling costs and reduce solid waste pollution. The classification and characterization of the most frequently commercialized PETBs were carried out. A PET panel prototype, adjustable to the PETB types most commonly used in Brazil, was designed and built. The influence of PETB type on PET panels' thermal performance was evaluated by measuring the PET panel prototype's equivalent thermal resistance with an unfilled air chamber and with the air chamber filled with 5, 2-, 1, and 0.5-L PETBs, respectively. The null hypothesis, which corresponds to the equal variability between the equivalent thermal resistance for the filled and unfilled PET panel prototype's air chamber, was tested. F-tests were used. The Null hypothesis for 5-L PETB may be accepted and rejected for 2-, 1, and 0.5-L PETBs. The thermal transmittance of PETB panels manufactured with all PETB types included in this work meets the requirements established by law for any Brazilian bioclimatic subzone.

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重复使用聚对苯二甲酸乙二醇酯瓶（PETB）制造密封板：瓶子类型对热性能的影响

本研究旨在调查 PET 板制造过程中使用的 PET 瓶类型对其热性能的影响。废旧 PETB 对环境的威胁日益严重。塑料废物会造成空气污染、水和土壤污染。目前，巴西有大量此类废物被不安全地处置。将 PETB 再用于 PET 面板制造，有助于最大限度地降低或消除其回收成本，并减少固体废物污染。我们对最常见的商业化 PETB 进行了分类和表征。设计并制作了一个 PET 板原型，可根据巴西最常用的 PETB 类型进行调整。通过测量 PET 面板原型的等效热阻，评估了 PETB 类型对 PET 面板热性能的影响，热阻分别为未填充气室和填充 5、2、1 和 0.5 升 PETB 的气室。测试了无效假设，即填充和未填充 PET 板原型气室的等效热阻具有相同的变异性。使用了 F 检验。可以接受 5 升 PETB 的零假设，但拒绝接受 2、1 和 0.5 升 PETB 的零假设。使用本研究中的所有 PETB 类型制造的 PETB 板材的热透射率均符合巴西生物气候亚区的法律规定要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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African Journal of Environmental Science and Technology

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