Residue fluidized catalytic cracking in lightweight polystyrene concrete: A sustainable construction solution

Sustainable Chemistry One World Pub Date : 2024-03-01 DOI:10.1016/j.scowo.2024.100003

Dung Doan Do , Ha Manh Bui , Cong-Sac Tran

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Abstract

This study explores the potential of Polystyrene concrete, a globally recognized lightweight concrete, in the context of Vietnam's construction industry. The research incorporates non-hazardous industrial waste, specifically Residue Fluidized Catalytic Cracking (RFCC), as a novel additive in the production of lightweight concrete. The systematic approach involves evaluating different cement types and gradually replacing cement with RFCC to identify an optimal formula for lightweight Polystyrene concrete. The study aligns with global sustainability goals and addresses local gaps by contributing practical insights and solutions to challenges in traditional brick production. The experimental setup utilizes Expanded Polystyrene (EPS) granules, standard cement types (PCB50, PCB40, and PCB30), and super foaming additives. Results indicate the feasibility of replacing up to 10% of cement with RFCC, offering a promising avenue for effective industrial waste management. This research aligns with the Sustainable Development Goals (SDGs) and contributes to a more environmentally conscious scientific community.

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轻质聚苯乙烯混凝土中的残渣流化催化裂解：可持续的建筑解决方案

本研究探讨了全球公认的轻质混凝土--聚苯乙烯混凝土在越南建筑业中的应用潜力。研究将无害工业废物，特别是流化催化裂化残渣（RFCC），作为一种新型添加剂用于生产轻质混凝土。该系统方法包括评估不同类型的水泥，并逐步用 RFCC 替代水泥，以确定轻质聚苯乙烯混凝土的最佳配方。这项研究与全球可持续发展目标保持一致，并通过提供实用的见解和解决方案来应对传统砖块生产中的挑战，从而填补当地的空白。实验设置使用了发泡聚苯乙烯（EPS）颗粒、标准水泥类型（PCB50、PCB40 和 PCB30）以及超级发泡添加剂。结果表明，用 RFCC 替代 10%的水泥是可行的，这为有效的工业废物管理提供了一条前景广阔的途径。这项研究符合可持续发展目标（SDGs），有助于提高科学界的环保意识。

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Sustainable Chemistry One World

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