Anaerobic Co-Digestion of Palm Oil Mill Waste Residues with Sewage Sludge for Biogas Production

机译：棕榈油厂废物残留物的厌氧共消化，沼气污泥

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Empty fruit bunches (EFB), palm oil mill effluent (POME), sewage chemical sludge and sewage biological sludge were evaluated for methane production under liquid-state anaerobic digestion (L-AD) and solid-state anaerobic digestion (SS-AD). The highest methane yield of 456 mL CH4 g~(-1)VS was achieved from co-digestion POME with sewage chemical sludge at a ratio of 99:1 under L-AD. The highest methane yield of 18 mL CH4 g~(-1)VS was achieved from co-digestion EFB with sewage chemical sludge at a ratio of 95:5 and EFB with sewage biological sludge at a ratio of 95:5 under SS-AD. An increasing of sewage sludge content of 6-42% in both AD systems resulted in decreasing of methane yield. The L-AD system has 2-3 times higher volumetric methane productivity than the SS-AD system. The electricity production from 1-tonne a mixture of POME and sewage chemical sludge or sewage biological sludge would be 218 MJ or 60 kWh of electricity. Anaerobic co-digestion POME with sewage sludge has great potential for biogas production.

机译：在液态厌氧消化（L-Ad）下评估甲烷产量的空果束（EFB），露出化学污泥和污水生物污泥，以及固态无厌氧消化（SS-AD）。通过在L-AD下的比例为99：1的污水化学污泥，从共消化泥场获得了456ml CH 4 G〜（-1）Vs的最高甲烷产率。通过污水化学污泥的共消化EFB实现最高甲烷产率为18mL CH4 G〜（-1）Vs，其比例为95：5和EFB，在SS-AD下的比例为95：5的比例。在两个AD系统中增加污水污泥含量为6-42％导致甲烷产量的降低。 L-AD系统比SS-AD系统具有2-3倍的体积甲烷生产率。从1吨的电力生产池和污水化学污泥或污水生物污泥的电力产量将是218 MJ或60千瓦时的电力。具有污水污泥的Anaerobic Co-Digestion Pome具有巨大的沼气生产潜力。

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《International Conference on Alternative Energy in Developing Countries and Emerging Economies》|2018年|604-1201 p.|共6页
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Wantanasak Suksong; Kanathip Promnuan; Jiravut Seengenyoung;
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Biogas; Anaerobic co-digestion; Palm oil mill effluent; Empty fruit bunches; Sewage sludge;

机译：沼气;厌氧共消化;棕榈油磨流出物;空果串;污泥;

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1. Improving biogas production from anaerobic co-digestion of sewage sludge with a thermal dried mixture of food waste, cheese whey and olive mill wastewater [J] . A.E. Maragkaki, I. Vasileiadis, M. Fountoulakis, Waste Management . 2018,第JANa期

机译：通过食物残渣，干酪乳清和橄榄磨机废水的热干燥混合物厌氧共消化污水污泥的消化来提高沼气产量
2. Anaerobic co-digestion of sewage sludge, food waste and yard waste: Synergistic enhancement on process stability and biogas production [J] . Lan Mu, Lei Zhang, Kongyun Zhu, The Science of the Total Environment . 2020,第Feba20期

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3. Thermophilic anaerobic co-digestion of oil palm empty fruit bunches with palm oil mill effluent for efficient biogas production [J] . Sompong O-Thong, Kanokwan Boe, Irini Angelidaki Applied Energy . 2012,第期

机译：油棕空果串与棕榈油厂废水的高温厌氧共消化，可高效生产沼气
4. Anaerobic Co-Digestion of Palm Oil Mill Waste Residues with Sewage Sludge for Biogas Production [C] . Wantanasak Suksong, Kanathip Promnuan, Jiravut Seengenyoung International Conference on Alternative Energy in Developing Countries and Emerging Economies . 2018

机译：棕榈油厂废物残留物的厌氧共消化，沼气污泥
5. Increased biogas production by anaerobic co-digestion of wastewater sludge with fruit and vegetable waste, and by sludge pre-treatment. [D] . Park, Nathan D. 2012

机译：废水污泥与水果和蔬菜废物的厌氧共消化以及污泥的预处理提高了沼气的产量。
6. Biogas Production by Anaerobic Co-Digestion of Dairy Wastewater with the Crude Glycerol from Slaughterhouse Sludge Cake Transesterification [O] . Yu-Chun Chou, Jung-Jeng Su 2019

机译：屠宰场污泥饼酯交换反应通过厌氧共消化乳品废水和粗甘油生产沼气
7. Anaerobic co-digestion of vegetal oil and thickened waste-activated sludge: Effects on biogas production and microbial community structure [O] . Lauwers Joost, Appels Lise, Ruyters Stefan, 2013

机译：厌氧消化植物油和增稠的废物活化污泥：对沼气生产和微生物群落结构的影响

Anaerobic Co-Digestion of Palm Oil Mill Waste Residues with Sewage Sludge for Biogas Production

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