Beijing Key Laboratory of Farmland Soil Pollution Prevention and Remediation, College of Resources and Environmental Sciences, China Agricultural University, Beijing 100193, China.
Beijing Key Laboratory of Farmland Soil Pollution Prevention and Remediation, College of Resources and Environmental Sciences, China Agricultural University, Beijing 100193, China; Organic Recycling Institute (Suzhou) of China Agricultural University and Suzhou ViHong Biotechnology, Wuzhong District, 215128, Jiangsu Province, China.
Sci Total Environ. 2022 Mar 10;811:151363. doi: 10.1016/j.scitotenv.2021.151363. Epub 2021 Nov 3.
This study investigated the effects of anaerobic digestion duration on methane yield, net energy production, and humification of compost during solid state anaerobic digestion (SSAD) and composting hybrid process for food waste treatment. Carbon flow and balance were used to evaluate organic methanation and humification inclination of carbon in the whole SSAD and aerobic composting system. Results showed that SSAD for 15 (AD-15) and 21 days (AD-21) could increase net energy production and degraded organic matter contained in the mixtures to achieve high biological stability. The cumulative net energy production between the AD-15 and AD-21 treatments was not significantly different, which was 8.3% higher than that in SSAD for 30 days (AD-30). Furthermore, digestate (AD-15 and AD-21) composting for 3 days reached maturity and absence of phytotoxic substances. Carbon fixed into humus of the AD-21 treatment (11.6%) was not significantly different from that of AD-15 (12.0%). However, the total amount of carbon fixed into compost in AD-15 was 6.6% higher than that in AD-21. Moreover, the CO -C loss of the AD-15 treatment (22.9%) was slightly higher than that of AD-21 (20.6%). Thus, AD-21 treatment achieved the most effective use of carbon during SSAD and composting hybrid process for food waste treatment. These results could provide valuable insights for the effective management of food waste in practice.
本研究探讨了厌氧消化时间对固态厌氧消化(SSAD)和堆肥混合工艺处理食物垃圾过程中甲烷产量、净能量产生和腐殖化的影响。采用碳流和平衡法评估了整个 SSAD 和有氧堆肥系统中有机甲烷化和碳腐殖化倾向。结果表明,厌氧消化 15 天(AD-15)和 21 天(AD-21)可以增加净能量产生,并降解混合物中的有机物,以达到高生物稳定性。AD-15 和 AD-21 处理之间的累积净能量产生没有显著差异,比 SSAD 处理 30 天(AD-30)高 8.3%。此外,消化物(AD-15 和 AD-21)堆肥 3 天即可成熟,且无植物毒性物质。AD-21 处理中固定到腐殖质的碳(11.6%)与 AD-15 处理(12.0%)没有显著差异。然而,AD-15 处理中固定到堆肥中的总碳量比 AD-21 处理高 6.6%。此外,AD-15 处理的 CO-C 损失(22.9%)略高于 AD-21 处理(20.6%)。因此,AD-21 处理在 SSAD 和堆肥混合工艺处理食物垃圾过程中实现了碳的最有效利用。这些结果可为食物垃圾的有效管理提供有价值的参考。
