Effect of varying hydrothermal temperature, time, and sludge pH on sludge solubilisation

IF 6.4 3区环境科学与生态学 Q2 ENERGY & FUELS Carbon Resources Conversion Pub Date : 2023-06-01 DOI:10.1016/j.crcon.2022.12.001

Reshma Babu, Gustavo Capannelli, Massimo Bernardini, Marcello Pagliero, Antonio Comite

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引用次数: 2

Abstract

In recent years, hydrothermal treatment has been considered as among the most promising option for sludge solubilisation and carbon recovery in terms of sludge management. In this study, the effect of different individual hydrothermal operating conditions like temperature (110–250 °C), sludge pH (6–13) and reaction time (0.5–3 h) were varied to understand their influence on sludge solubilisation. The most effective hydrothermal conditions (severity factor of 9.7) were found to be at 200 °C, sludge pH of 12 and reaction time of 1 h which solubilised about 1743 mg/g and 131 mg/g of COD and carbohydrates respectively into the aqueous phase. Also, gas chromatography- mass spectrometry (GC–MS) analysis was done that identified the organic compounds in the treated liquid phase to be mainly carboxylic acids, phenols, esters, and their derivatives. Although further studies are required to efficiently separate and recover the different organic compounds present, this work provides more insights for future valorisation of the organic rich hydrothermally treated liquid phase.

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不同水热温度、时间和污泥pH值对污泥溶解的影响

近年来，在污泥管理方面，水热处理被认为是污泥增溶和碳回收最有前途的选择之一。在本研究中，不同的水热操作条件，如温度(110-250°C)、污泥pH(6-13)和反应时间(0.5-3 h)的影响是不同的，以了解它们对污泥增溶的影响。最有效的水热条件(严重系数为9.7)是在200℃、污泥pH为12、反应时间为1 h时，将约1743 mg/g的COD和131 mg/g的碳水化合物分别溶解到水相中。气相色谱-质谱(GC-MS)分析表明，处理后液相中的有机化合物主要为羧酸类、酚类、酯类及其衍生物。虽然需要进一步的研究来有效地分离和回收存在的不同有机化合物，但这项工作为富有机水热处理液相的未来估值提供了更多的见解。

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来源期刊

Carbon Resources Conversion Materials Science-Materials Science (miscellaneous)

CiteScore

9.90

自引率

11.70%

发文量

审稿时长

10 weeks

期刊介绍： Carbon Resources Conversion (CRC) publishes fundamental studies and industrial developments regarding relevant technologies aiming for the clean, efficient, value-added, and low-carbon utilization of carbon-containing resources as fuel for energy and as feedstock for materials or chemicals from, for example, fossil fuels, biomass, syngas, CO2, hydrocarbons, and organic wastes via physical, thermal, chemical, biological, and other technical methods. CRC also publishes scientific and engineering studies on resource characterization and pretreatment, carbon material innovation and production, clean technologies related to carbon resource conversion and utilization, and various process-supporting technologies, including on-line or off-line measurement and monitoring, modeling, simulations focused on safe and efficient process operation and control, and process and equipment optimization.

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