探索农业工业废物和水葫芦之间嗜热厌氧共消化的潜力：运行性能、动力学研究和降解途径。

Exploring the potential of thermophilic anaerobic co-digestion between agro-industrial waste and water hyacinth: operational performance, kinetic study and degradation pathway.

机构信息

Faculty of Civil Engineering Technology, Universiti Malaysia Perlis, 02600, Arau, Perlis, Malaysia.

Water Research and Environmental Sustainability Growth, Centre of Excellence (WAREG), Universiti Malaysia Perlis (UniMAP), Perlis, Malaysia.

出版信息

Bioprocess Biosyst Eng. 2023 Jul;46(7):995-1009. doi: 10.1007/s00449-023-02879-0. Epub 2023 May 9.

DOI:10.1007/s00449-023-02879-0

PMID:37160769

Abstract

Anaerobic co-digestion (co-AD) of agro-industrial waste, namely, palm oil mill effluent (POME) and sugarcane vinasse (Vn), with water hyacinth (WH) as co-substrate was carried out in two separate Anaerobic Suspended Growth Closed Bioreactors (ASGCBs) under thermophilic (55 °C) conditions. The highest chemical oxygen demand (COD) and soluble COD reduction in co-AD of POME-WH (78.61%, 78.86%) is slightly higher than co-AD of Vn-WH (75.75%, 78.24%). However, VFA reduction in co-AD of POME-WH (96.41%) is higher compared to co-AD of Vn-WH (85.94%). Subsequently, biogas production peaked at 13438 mL/day values and 16122 mL/day for co-AD of POME-WH and Vn-WH, respectively. However, the methane content was higher in the co-AD of POME-WH (72.04%) than in the co-AD of Vn-WH (69.86%). Growth yield (Y), maximum specific substrate utilization rate (r) and maximum specific biomass growth rate (μ) are higher in co-AD of POME-WH, as supported by the higher mixed liquor volatile suspended solids (MLVSS) and COD reduction efficiency compared to co-AD of Vn-WH. However, methane yield ([Formula: see text]) reported in the co-AD of POME-WH and Vn-WH are 0.2748 and 0.3112 L CH/g COD, respectively, which suggests that WH is a more suitable co-substrate for Vn compared to POME.

摘要

水葫芦作为共基质，在两个独立的高温（55°C）厌氧悬浮生长闭式生物反应器（ASGCB）中，对农业工业废物（即棕榈油厂废水（POME）和糖蜜酒精糟液（Vn））进行了厌氧共消化（共 AD）。POME-WH（78.61%，78.86%）共 AD 的化学需氧量（COD）和可溶性 COD 还原率略高于 Vn-WH（75.75%，78.24%）。然而，POME-WH 共 AD 的 VFA 还原率（96.41%）高于 Vn-WH 共 AD（85.94%）。随后，沼气产量分别达到了 13438 mL/天和 16122 mL/天的峰值，用于 POME-WH 和 Vn-WH 的共 AD。然而，POME-WH 共 AD 的甲烷含量（72.04%）高于 Vn-WH 共 AD（69.86%）。共 AD 的 POME-WH 的生长产率（Y）、最大比基质利用速率（r）和最大比生物质生长速率（μ）均高于共 AD 的 Vn-WH，这是因为与共 AD 的 Vn-WH 相比，混合液挥发性悬浮固体（MLVSS）和 COD 还原效率更高。然而，POME-WH 和 Vn-WH 共 AD 的甲烷产率（[公式：见正文]）分别为 0.2748 和 0.3112 L CH/g COD，这表明与 POME 相比，水葫芦是 Vn 更适合的共基质。

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探索农业工业废物和水葫芦之间嗜热厌氧共消化的潜力：运行性能、动力学研究和降解途径。

Exploring the potential of thermophilic anaerobic co-digestion between agro-industrial waste and water hyacinth: operational performance, kinetic study and degradation pathway.

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