pH 值、底物负荷、氧气和产甲烷菌抑制剂对柑橘废物厌氧消化产生挥发性脂肪酸 (VFA) 的影响。

Effect of pH, substrate loading, oxygen, and methanogens inhibitors on volatile fatty acid (VFA) production from citrus waste by anaerobic digestion.

机构信息

Istanbul Technical University, Environmental Engineering Department, Maslak, 34469 Istanbul, Turkey; Swedish Centre for Resource Recovery, University of Borås, SE 501-90 Borås, Sweden.

Swedish Centre for Resource Recovery, University of Borås, SE 501-90 Borås, Sweden.

出版信息

Bioresour Technol. 2020 Apr;302:122800. doi: 10.1016/j.biortech.2020.122800. Epub 2020 Jan 14.

DOI:10.1016/j.biortech.2020.122800

PMID:31986336

Abstract

Citrus waste from e.g., juice production is a potential substrate for anaerobic digestion (AD). However, due to the toxic citrus peel oil content, citrus waste has several challenges in biogas production. Hence, volatile fatty acids (VFAs) are very interesting intermediate products of AD. This paper was aimed to investigate VFA production from citrus wastes by boosting its production and inhibiting methane formation. Therefore, the effects of inoculum to substrate ratio (ISR), O presence, pH, and inhibitor for methanogens, in VFA production from citrus waste through acidification process were studied. The addition of 2 g/L methanogens inhibitor and the presence of O in the reactors were able to reduce methane production. The highest yield of VFA (0.793 g VFA/g VS) was achieved at controlled pH at 6 and low substrate loading (ISR 1:1). Acetic acid (32%), caproic acid (21%), and butyric acid (15%) dominate the VFA composition in this condition.

摘要

例如，从橙汁生产中产生的柑橘废料是厌氧消化（AD）的潜在底物。然而，由于柑橘皮油含量有毒，柑橘废料在沼气生产中存在几个挑战。因此，挥发性脂肪酸（VFA）是 AD 的非常有趣的中间产物。本文旨在通过提高产量和抑制甲烷形成来研究从柑橘废料中生产 VFA。因此，研究了接种物与底物比（ISR）、O 的存在、pH 值以及用于产甲烷菌的抑制剂对通过酸化过程从柑橘废料中生产 VFA 的影响。在反应器中添加 2 g/L 的产甲烷菌抑制剂和 O 的存在能够减少甲烷的产生。在控制 pH 值为 6 和低底物负荷（ISR 1:1）的条件下，获得了最高的 VFA 产率（0.793 g VFA/g VS）。在此条件下，乙酸（32%）、己酸（21%）和丁酸（15%）占 VFA 组成的主导地位。

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pH 值、底物负荷、氧气和产甲烷菌抑制剂对柑橘废物厌氧消化产生挥发性脂肪酸 (VFA) 的影响。

Effect of pH, substrate loading, oxygen, and methanogens inhibitors on volatile fatty acid (VFA) production from citrus waste by anaerobic digestion.

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