ABSTRACT
Extraction of valuable metals besides silica from high-alumina fly ash is one of the most important high-value utilization pathways. However, it is difficult to realize high-efficiency extraction due to the stable structure e.g. of quartz and mullite. In this paper, mineral phase transformation for valuable metal recovery and mesoporous silica in situ preparation from fly ash by a selective acid leaching method was proposed. The mineral phase transformation, dissolution behavior of each metal, and pore structure of fly ash derived mesoporous silica were systematically investigated. The results show that the co-activation of fly ash by Na2CO3-K2CO3 formed the phases of kalsilite and (Na, K)AlSiO4. During the acid leaching process, Al, Li, and Ga could be leached with the efficiencies of 86.17%, 89%, and 80% in the FK system. In the FN system, the efficiencies of Al, Li, and Ga are 92.38%, 95%, and 83%, respectively. The crystal plane (002) was destroyed for kaliophilite while all the crystal planes were destroyed for nepheline. With the increase of HCl solution concentration, the porous silica exhibited the same change order of pore shape. The pore structure of as-prepared porous silica was type IV and the hysteresis loop was type H3, and the specific surface areas could be 565.54, 448.02, and 746.76 m2 g-1, respectively. Finally, the leaching liquors can be used to produce crystal aluminum chloride, lithium carbonate and gallium. This paper might provide technical support for full recycling of high-value resources from fly ash.
ABSTRACT
Background: Shensong Yangxin Capsules (SSYX) is a proprietary Chinese medicine commonly, used in the treatment of arrhythmia. In recent years, a flurry of randomized controlled trials of SSYX was reported in the treatment of Coronary heart disease arrhythmia in China. However, these experiments have not been systematically evaluated by economics. The purpose of this study was to assess the efficacy, safety, and economy of the SSYX in the treatment of arrhythmia in patients with coronary heart disease. Methods: With "Shensong Yangxin Capsules" "Coronary Heart Disease" "Coronary Atherosclerotic Heart Disease"and "Arrhythmia" as the subject words, the relevant journals and conference papers were searched manually in China National Knowledge Infrastructure (CNKI), Wanfang Database, VIP, PubMed, Web Of Science, CBM, Embase and The Cochrane Library. The literature of randomized controlled trials of SSYX in the treatment of coronary heart disease arrhythmia was searched until November 2022. All data were analyzed using RevMan 5.3 Sotware and combined with cost-effectiveness for economic evaluation. Results: Twenty randomized controlled trials were included in this study, with a total of 2011 cases. The meta-analysis showed that the therapeutic effect of SSYX-metoprolol is superior to that of metoprolol alone. SSYX is superior to amiodarone in improving the total clinical effective rate, reducing the incidence of adverse reactions, and reducing the junction premature beats. There was no significant difference between the SSYX and amiodarone in the curative effect of ECG, ventricular premature complexes, and atrial premature beats. The results of pharmacoeconomics show that SSYX has a cost-effectiveness advantage in treating coronary heart disease arrhythmia. Single-factor sensitivity analysis also confirmed the stability of the results. In summary, SSYX has a curative effect, safety, and economy in treating coronary heart disease arrhythmia.
ABSTRACT
In this paper, comprehensive utilization of hazardous zinc-bearing dust for preparation of non-toxic mixed iron oxides as a magnetically recyclable photo-Fenton catalyst for degradation of dye by a facile solid state reaction process was proposed. The as-prepared samples were characterized by X-ray diffraction (XRD), Raman spectra, ultraviolet and visible (UV-Vis) spectra and Physical Property Measurement System (PPMS), and the degradation performance of as-prepared catalysts was also tested and analyzed. The results show that spinel ferrite coexisting with or without Fe2O3 was the predominant phase in the as-prepared samples, which were confirmed by Raman analysis. The as-prepared samples presented high degradation efficiency (about 90%) of rhodamine B (RhB) in the presence of hydrogen peroxide (H2O2) with visible light irradiation, owing to the synergistic effect of photocatalyst reaction and Fenton-like catalyst reaction during the degradation process. The mixed iron oxides also presented stable structure and exhibited excellent reusability with a degradation efficiency of 87% after the fifth cycle of reuse. Importantly, the heavy metals in the zinc-bearing dust could be fixed in the stable spinel structure. This paper could provide a simple approach for comprehensive utilization of zinc-bearing dust to synthesize non-toxic mixed iron oxides as a magnetically recyclable photo-Fenton catalyst for degradation of dye.
