School of Environment, Henan Normal University, Xinxiang, 453003, Henan, People's Republic of China.
Key Laboratory of Yellow River and Huai River Water Environment and Pollution Control, Ministry of Education, Xinxiang, 453007, Henan, People's Republic of China.
Environ Sci Pollut Res Int. 2019 Nov;26(33):33870-33881. doi: 10.1007/s11356-018-2534-9. Epub 2018 Jun 27.
Traditional composting processes must be conducted with a bulking agent to ensure adequate air space for aeration. The bulking agent and composting materials are always completely mixed. A novel layered structure was introduced in sewage sludge composting, in which no bulking agent was used and bamboo charcoal was used as a separating material. Three lab-scale composting reactors (A: sawdust and sludge; B: bamboo charcoal and sludge; and C: sawdust, bamboo charcoal, and sludge) were continuously operated for 29 days. Several physicochemical parameters were investigated to evaluate the feasibility of layered composting with bamboo charcoal. The results indicated that the maximum temperatures during the thermophilic stage in treatments A, B, and C were 51.4, 50.9, and 51 °C, respectively. Layered composting with bamboo charcoal decreased the pH of the thermophilic stage from 8.98 in A to 8.75 in C, and delayed the peaks by about 120 h. The degradation rates of dissolve organic carbon (DOC) and dissolved nitrogen (DN) were 75 and 71.5% in treatment B, respectively, which were significantly higher than those of control group A (60 and 59.1%, respectively). The total NH emissions of treatment C (2127.8 mg) were significantly lower than those of A (2522.8 mg). Our results suggested that layered composting using bamboo charcoal as a separating material could be an alternative strategy to the traditional composting method. Moreover, layered composting combined with sawdust could effectively reduce NH emissions and N loss.
传统的堆肥过程必须使用膨松剂来确保充足的空气空间进行曝气。膨松剂和堆肥材料总是完全混合的。在污水污泥堆肥中引入了一种新型的分层结构,其中不使用膨松剂,而是使用竹炭作为分离材料。三个实验室规模的堆肥反应器(A:木屑和污泥;B:竹炭和污泥;C:木屑、竹炭和污泥)连续运行 29 天。研究了几个理化参数,以评估使用竹炭进行分层堆肥的可行性。结果表明,处理 A、B 和 C 的高温阶段的最高温度分别为 51.4、50.9 和 51°C。竹炭分层堆肥将 A 中高温阶段的 pH 值从 8.98 降低到 C 中的 8.75,并且将峰值延迟了约 120 小时。处理 B 中溶解有机碳 (DOC) 和溶解氮 (DN) 的降解率分别为 75%和 71.5%,明显高于对照 A(分别为 60%和 59.1%)。处理 C 的总 NH3 排放量(2127.8 mg)明显低于 A(2522.8 mg)。我们的结果表明,使用竹炭作为分离材料的分层堆肥可以作为传统堆肥方法的替代策略。此外,分层堆肥与木屑结合可以有效减少 NH3 排放和氮损失。
