废液催化裂化催化剂对粉煤灰-硅酸盐水泥新型粘结剂性能的影响

10th MATBUD&rsquo;2023 Scientific-Technical Conference Pub Date : 2023-02-14 DOI:10.3390/materproc2023013008

J. Rakić, Z. Baščarević

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引用次数: 1

摘要

:减少波特兰水泥(PC)制造过程中碳足迹的措施之一是通过更广泛地使用补充胶凝剂和废料。这项工作的主要目的是利用两种不同的废物:火力发电厂的粉煤灰(FA)和炼油厂的废流体催化裂化催化剂(sFCCC)生产一种新的粘合剂。为了提高它们的反应性，在制备粘合剂之前，FA和sFCCC都被机械活化。新型粘结剂主要由废料(70%质量%)组成，PC为少量成分(30%质量%)。研究发现，使用sFCCC作为粘结剂组分，可加速水泥水化和火山灰反应。与未添加sFCCC的粘结剂相比，该粘结剂具有更短的凝固时间和更高的早期强度

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Influence of Spent Fluid Catalytic Cracking Catalyst on the Properties of the New Binder Based on Fly Ash and Portland Cement

: One of the measures to reduce the carbon footprint of the Portland cement (PC) manufacturing process is through a wider use of supplementary cementitious and waste materials. The main objective of this work was to produce a new binder using two different waste materials: ﬂy ash (FA) from thermal power plants and spent ﬂuid catalytic cracking catalyst (sFCCC) from petrol reﬁneries. In order to improve their reactivity, both FA and sFCCC were mechanically activated prior to the preparation of the binder. The new binder consisted mostly of the waste materials (70 mass %), with PC as a minor component (30 mass %). It was found that using sFCCC as the binder component accelerated cement hydration and the pozzolanic reaction. The new binder had a shorter setting time and a higher early strength than the binder prepared without sFCCC

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10th MATBUD’2023 Scientific-Technical Conference

10th MATBUD&rsquo;2023 Scientific-Technical Conference

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