Pedro Delgado-Plana, Miguel Ángel Gómez-Casero, Salvador Bueno-Rodríguez, Pedro José Sánchez-Soto, Dolores Eliche-Quesada
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The results indicated that the addition of SOFE caused a delay in the geopolymerization or alkaline activation reactions, which resulted in a decrease in mechanical properties at low hydration times, 7 days. However, substitution of SOFE led to an improvement in physical, mechanical, and thermal properties after 28 days of curing. Ideal substitution ratios were 30 wt% or higher. At optimum substitution ratios, the bulk density of alkaline-activated cements decreased, water absorption and total porosity increased, but conversely, flexural and compressive strengths raised from 8.3 MPa and 19.3 MPa, respectively, for control cements to 11.3-11.8 MPa and 24.5-25.7 MPa for cements that incorporated 30-50 wt% SOFE. The increase in mechanical properties could be attributed to the synergistic formation of a hybrid N,C-A-S-H gel, resulting from the higher formation of N-A-S-H geopolymeric gel in comparison to C-A-S-H gel, owing to the higher amount of silica in the SOFE residue. The insulating capability of the cements improved as increasing amounts of SOFE residue were incorporated, with values ranging from 0.68 W/mK for the control binders to 0.34-0.15 W/mK for the cements that included 30-50% by weight of SOFE. The results of this study may help to promote the application of SOFE in the production of more environmentally friendly EAFS-based alkaline activation cements.</p>","PeriodicalId":545,"journal":{"name":"Environmental Science and Pollution Research","volume":" ","pages":""},"PeriodicalIF":5.8000,"publicationDate":"2025-04-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Impact of incorporating spent oil filtering earths into the formulation of alkali-activated cements based on electric arc furnace slag.\",\"authors\":\"Pedro Delgado-Plana, Miguel Ángel Gómez-Casero, Salvador Bueno-Rodríguez, Pedro José Sánchez-Soto, Dolores Eliche-Quesada\",\"doi\":\"10.1007/s11356-025-36429-w\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>In this study an investigation of the effect of incorporating spent oil filtering earths (SOFE) as a precursor in the manufacture of alkaline activation cements based on electric arc furnace slags (EAFS) has been carried out. SOFE were mixed up to 50 wt% with EAFS at 10 wt% intervals. As a control, a binder containing only EAFS was manufactured. The fresh binder samples were cured at room temperature for 7 and 28 days. Phase analysis was conducted using X-ray Diffraction (XRD), attenuated total reflectance Fourier transform infrared spectroscopy (ATR-FTIR), and Scanning Electron Microscopy-Energy Dispersive X-ray spectroscopy (SEM-EDS). The results indicated that the addition of SOFE caused a delay in the geopolymerization or alkaline activation reactions, which resulted in a decrease in mechanical properties at low hydration times, 7 days. However, substitution of SOFE led to an improvement in physical, mechanical, and thermal properties after 28 days of curing. Ideal substitution ratios were 30 wt% or higher. At optimum substitution ratios, the bulk density of alkaline-activated cements decreased, water absorption and total porosity increased, but conversely, flexural and compressive strengths raised from 8.3 MPa and 19.3 MPa, respectively, for control cements to 11.3-11.8 MPa and 24.5-25.7 MPa for cements that incorporated 30-50 wt% SOFE. The increase in mechanical properties could be attributed to the synergistic formation of a hybrid N,C-A-S-H gel, resulting from the higher formation of N-A-S-H geopolymeric gel in comparison to C-A-S-H gel, owing to the higher amount of silica in the SOFE residue. The insulating capability of the cements improved as increasing amounts of SOFE residue were incorporated, with values ranging from 0.68 W/mK for the control binders to 0.34-0.15 W/mK for the cements that included 30-50% by weight of SOFE. 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引用次数: 0
摘要
在本研究中,研究了加入废油过滤土(SOFE)作为前驱体在电弧炉炉渣(EAFS)碱性活化水泥生产中的效果。SOFE与EAFS以10 wt%的间隔混合至50 wt%。作为对照,制备了只含EAFS的粘结剂。将新鲜粘结剂样品室温固化7天和28天。采用x射线衍射(XRD)、衰减全反射傅里叶变换红外光谱(ATR-FTIR)和扫描电子显微镜-能量色散x射线光谱(SEM-EDS)进行物相分析。结果表明,在低水化时间(7天)下,SOFE的加入会延迟土聚合反应或碱活化反应,导致其力学性能下降。然而,在固化28天后,SOFE的替代导致了物理、机械和热性能的改善。理想替代率为30%或更高。在最佳替代比例下,碱活性水泥的体积密度降低,吸水率和总孔隙率增加,但相反,抗折强度和抗压强度分别从对照水泥的8.3 MPa和19.3 MPa提高到含有30- 50% SOFE的水泥的11.3-11.8 MPa和24.5-25.7 MPa。力学性能的提高可归因于混合N,C-A-S-H凝胶的协同形成,由于SOFE残渣中硅含量较高,N- a - s - h地聚合物凝胶比C-A-S-H凝胶形成率更高。随着SOFE残留量的增加,水泥的绝缘性能得到改善,其范围从对照粘结剂的0.68 W/mK到含30-50% SOFE的水泥的0.34-0.15 W/mK不等。本研究结果有助于促进SOFE在生产更环保的eafs基碱性活化水泥中的应用。
Impact of incorporating spent oil filtering earths into the formulation of alkali-activated cements based on electric arc furnace slag.
In this study an investigation of the effect of incorporating spent oil filtering earths (SOFE) as a precursor in the manufacture of alkaline activation cements based on electric arc furnace slags (EAFS) has been carried out. SOFE were mixed up to 50 wt% with EAFS at 10 wt% intervals. As a control, a binder containing only EAFS was manufactured. The fresh binder samples were cured at room temperature for 7 and 28 days. Phase analysis was conducted using X-ray Diffraction (XRD), attenuated total reflectance Fourier transform infrared spectroscopy (ATR-FTIR), and Scanning Electron Microscopy-Energy Dispersive X-ray spectroscopy (SEM-EDS). The results indicated that the addition of SOFE caused a delay in the geopolymerization or alkaline activation reactions, which resulted in a decrease in mechanical properties at low hydration times, 7 days. However, substitution of SOFE led to an improvement in physical, mechanical, and thermal properties after 28 days of curing. Ideal substitution ratios were 30 wt% or higher. At optimum substitution ratios, the bulk density of alkaline-activated cements decreased, water absorption and total porosity increased, but conversely, flexural and compressive strengths raised from 8.3 MPa and 19.3 MPa, respectively, for control cements to 11.3-11.8 MPa and 24.5-25.7 MPa for cements that incorporated 30-50 wt% SOFE. The increase in mechanical properties could be attributed to the synergistic formation of a hybrid N,C-A-S-H gel, resulting from the higher formation of N-A-S-H geopolymeric gel in comparison to C-A-S-H gel, owing to the higher amount of silica in the SOFE residue. The insulating capability of the cements improved as increasing amounts of SOFE residue were incorporated, with values ranging from 0.68 W/mK for the control binders to 0.34-0.15 W/mK for the cements that included 30-50% by weight of SOFE. The results of this study may help to promote the application of SOFE in the production of more environmentally friendly EAFS-based alkaline activation cements.
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