化学沉淀法和CO有效去除猪粪液体消化液中的污染物碱灰矿化

IF 3.6 4区 农林科学 Q1 AGRONOMY
Zhengxin FEI, Zijie DING, Xuan ZHENG, Liang FENG, Qingyao HE, Shuiping YAN, Long JI
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引用次数: 0

摘要

●采用粉煤灰基化学沉淀法和CO2矿化法处理LFD。●>的COD去除率为93%,TP去除率为98%,EC < 2 mS·cm−1。●CO2矿化过程中采用共沉淀法去除COD和TP。●CO2矿化中和碱性LFD,去除重质met。化学沉淀法是一种广泛应用于农业废弃物消化液部分的方法,但其大规模应用需要低成本、高效的沉淀剂和新颖的工艺设计。本研究评估了利用粉煤灰基化学沉淀法、过滤和二氧化碳矿化法高效去除LFD污染物的新方法。通过pH值、电导率(EC)以及处理过程中总磷(TP)、化学需氧量(COD)和重金属的去除率对该方法的技术可行性进行了评价。本研究中使用的粉煤灰作为化学沉淀剂,在处理后的废液中具有良好的去除COD和TP的性能,涉及沉淀和吸附的复杂作用。粉煤灰化学沉淀后CO2鼓泡,通过CO2与粉煤灰中过量碱性矿物的碳化反应进一步去除COD和TP。虽然粉煤灰的加入使LFD的pH从8.3提高到12.9,EC从7.01提高到13.7 mS·cm−1,但CO2鼓泡有助于中和处理后的LFD,并通过碳化反应降低EC和有毒离子浓度。粉煤灰基化学沉淀法和CO2矿化法对COD和TP的去除率分别为> ~ 93%和> ~ 98%,处理后的废液EC < 2 mS·cm−1,pH为中性,产物为高纯方解石。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EFFICIENT CONTAMINANT REMOVAL FROM LIQUID DIGESTATE OF PIG MANURE BY CHEMICAL PRECIPITATION AND CO$lt;inf$gt;2$lt;/inf$gt; MINERALIZATION USING ALKALINE ASH
● LFD was treated by fly ash-based chemical precipitation and CO2 mineralization. ● > 93% COD and > 98% TP removal efficiency, and < 2 mS·cm−1 EC was achieved. ● COD and TP removal was achieved by co-precipitation during CO2 mineralization. ● CO2 mineralization neutralized the alkaline LFD and removed heavy met. Chemical precipitation is a widely applied approach for a liquid fraction of digestate (LFD) of agricultural waste but its large-scale application requires low-cost and efficient precipitating agents and novel process design. This study evaluated novel approach for the efficient removal of contaminants from the LFD using fly ash-based chemical precipitation, followed by filtration and CO2 mineralization. The technical feasibility of this approach was evaluated using pH and electrical conductivity (EC), and removal efficiencies of total phosphorus (TP), chemical oxygen demand (COD) and heavy metals during the treatment. The fly ash used in this study showed a promising performance as a chemical precipitation agent for COD and TP removal from the treated LFD involving complex effects of precipitation and adsorption. CO2 bubbling after fly ash-based chemical precipitation provided further COD and TP removal by carbonation reactions between CO2 and the excessive alkaline minerals in fly ash. Although addition of fly ash to untreated LFD increased pH from 8.3 to 12.9 and EC from 7.01 to 13.7 mS·cm−1, CO2 bubbling helped neutralize the treated LFD and reduce the EC, and concentrations of toxic ions by carbonation reactions. The fly ash-based chemical precipitation and CO2 mineralization had > 93% COD and > 98% TP removal efficiencies, and resulted in an EC of < 2 mS·cm−1 and a neutral pH in the treated LFD, as well as the high purity calcite product.
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来源期刊
CiteScore
5.10
自引率
2.70%
发文量
33
期刊介绍: Frontiers of Agricultural Science and Engineering (FASE) is an international journal for research on agricultural science and engineering. The journal’s aim is to report advanced and innovative scientific proceedings in agricultural field including Crop Science, Agricultural Biotechnology, Horticulture, Plant Protection, Agricultural Engineering, Forestry Engineering, Agricultural Resources, Animal Husbandry and Veterinary Medicine, Applied Ecology, Forestry and Fisheries. FASE is committed to provide a high level scientific and professional forum for researchers worldwide to publish their original findings and to utilize these novel findings to benefit the society.
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