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首页> 外文期刊>Waste and biomass valorization >Protecting Thermally Hydrolyzed Biosolids from Pathogenic Bacterial Growth by Addition of Compost
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Protecting Thermally Hydrolyzed Biosolids from Pathogenic Bacterial Growth by Addition of Compost

机译:通过添加堆肥保护热水解的生物溶解体免受致病细菌生长

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摘要

Sludge biosolids for agricultural application represent a valuable fertilizer but also a health risk unless pathogens are effectively reduced, and recontamination controlled. The Post Anaerobic Digestion Thermal Hydrolysis Process (Post-AD THP) is gaining interest due to improved dewaterability, reducing the volume and thus transportation costs of biosolids. However, Post-AD THP results in sterile biosolids easily exposed to recontamination by pathogens due to the lack of microbial competitors. In theory, this could be suppressed by establishing a competing community of harmless bacteria. The theory was tested by monitoring the abundance of Escherichia coli (viable counts) and gene abundance (ddPCR) in wastewater recontaminated Post-AD THP biosolids, with and without addition of compost. Respiration, total bacterial population and bacterial diversity (16S rRNA amplicon sequencing) were used to monitor the microbial community. Biosolids from the regulatory approved methods thermophilic AD (TAD) and Pre-AD THP were tested in parallel for comparison. The results demonstrated that regulatory requirements can be reached by storing the TAD and Pre-AD THP biosolids for 3 days after recontamination and the Post-AD THP biosolids for more than 13 days. However, addition of compost suppressed growth of E. coli in Post-AD THP biosolids, reducing the time to comply with regulative requirements. In conclusion, pathogen growth in Post-AD THP biosolids can be controlled by inoculation with compost.[GRAPHICS].
机译:农业应用的污泥生物溶解剂代表了一个有价值的肥料,但除非有效减少病原体,否则健康风险,并控制受控制。由于改善的脱水性,降低了生物溶解的体积,降低了体积,从而降低了脱水性,降低了体积,从而降低了生物溶胶的运输成本,厌氧消化热水解过程(AD-AD THP)是利益的。然而,由于缺乏微生物竞争对手,AD后THP导致无菌生物溶胶容易暴露于通过病原体的再污染。理论上,这可以通过建立无害细菌的竞争群体来抑制这一点。通过监测废水中的大肠杆菌(可行计数)和基因丰度(DDPCR)进行测试,通过添加堆肥来监测废水中的大肠杆菌(可行计数)和基因丰度(DDPCR)来测试该理论。呼吸,总细菌种群和细菌多样性(16S rRNA扩增子测序)用于监测微生物群落。来自调节方法的生物溶解方法嗜热扫描(TAD)和Pre-AD THP进行对比进行比较。结果表明,通过在再污染后3天和AD-AD-ZP生物溶解剂超过13天,可以通过将TAD和Pre-AD THP生物溶解剂储存来达到调节要求。然而,添加堆肥抑制了AD-ADS中大肠杆菌的生长,减少了符合调节要求的时间。总之,通过用堆肥接种,可以控制后AD THP生物溶解剂的病原体生长。[图形]。

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  • 来源
    《Waste and biomass valorization》 |2021年第8期|4263-4275|共13页
  • 作者

    Svennevik Oda K.; Jonassen Kjell R.; Svensson Kine; Hagen Live H.; Westereng Bjorge; Solheim Odd Egil; Nilsen Pal J.; Horn Svein J.; Bakken Lars;

  • 作者单位

    Cambi Grp AS Skysstasjon 11A N-1383 Asker Norway|Norwegian Univ Life Sci Fac Chem Biotechnol & Food Sci POB 5003 N-1432 As Norway;

    Norwegian Univ Life Sci Fac Chem Biotechnol & Food Sci POB 5003 N-1432 As Norway|Vestfjorden Avlopsselskap Bjerkasholmen 125 N-3470 Slemmestad Norway;

    Cambi Grp AS Skysstasjon 11A N-1383 Asker Norway;

    Norwegian Univ Life Sci Fac Chem Biotechnol & Food Sci POB 5003 N-1432 As Norway;

    Norwegian Univ Life Sci Fac Chem Biotechnol & Food Sci POB 5003 N-1432 As Norway;

    Cambi Grp AS Skysstasjon 11A N-1383 Asker Norway;

    Cambi Grp AS Skysstasjon 11A N-1383 Asker Norway;

    Norwegian Univ Life Sci Fac Chem Biotechnol & Food Sci POB 5003 N-1432 As Norway;

    Norwegian Univ Life Sci Fac Chem Biotechnol & Food Sci POB 5003 N-1432 As Norway;

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  • 正文语种 eng
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  • 关键词

    Anaerobic digestion; Biosolids; E. coli; Sanitation; Thermal hydrolysis;

    机译:厌氧消化;生物溶胶;e。 Coli;卫生;热水解;

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