环境卫生工程 ›› 2026, Vol. 34 ›› Issue (3): 45-52.doi: 10.19841/j.cnki.hjwsgc.2026.03.006

• 固体废物分选与资源化利用 • 上一篇    下一篇

真空膜蒸馏对碱性尿液脱水浓缩的效果研究

王 霜,钟丽锦,熊丽君,徐康宁   

  1. 1. 北京林业大学 环境科学与工程学院 北京市水体污染源控制技术重点实验室;2. 北京环丁环保大数据研究院;3. 国家发展和改革委员会 国土开发与地区经济研究所
  • 出版日期:2026-06-30 发布日期:2026-06-30

Effect Study of Alkaline Dehydration of Source-separated Urine by Vacuum Membrane Distillation

WANG Shuang, ZHONG Lijin, XIONG Lijun, XU Kangning   

  1. 1. Beijing Key Laboratory for Source Control Technology of Water Pollution, College of Environmental Science and Engineering, Beijing Forestry University; 2. Beijing Huanding Environmental Big Data Institute; 3. Institute of Spatial Planning & Regional Economy, National Development and Reform Commission
  • Online:2026-06-30 Published:2026-06-30

摘要: 为实现源分离尿液的资源化利用,探究真空膜蒸馏系统关键因素对碱化尿液浓缩效果及能耗的影响,以添加氢氧化钙碱化并稀释5倍的真实新鲜尿液为处理对象,考察进料液温度(40~70 ℃)、冷凝温度(0~20 ℃)和进料泵转速(1 000~1 600 r/min)的影响规律,并通过多元线性回归分析各因素显著性。结果表明:进料液温度是影响膜通量和系统能耗的核心因素,温度由40 ℃升至70 ℃时,膜通量由0.82 L/(m2·h)增至3.02 L/(m2·h),当温度为70 ℃时,水回收率达72.36%、尿液浓缩倍数达3.62、比能耗降低29.3%;冷凝温度为20 ℃时的膜通量、水回收率及能耗效率均优于0 ℃,比能耗降低13.0%;进料泵转速对处理效果和能耗无显著影响,膜通量稳定在1.99~2.06 L/(m2·h),比能耗维持在1.429~1.442 kWh/L。系统总能耗主要来源于进料液加热,全程截盐率超98.5%,总氮回收率达80%以上,多元线性回归模型拟合度良好。研究表明真空膜蒸馏技术适用于碱化尿液浓缩,可为工艺优化提供理论支持。

关键词: 真空膜蒸馏, 源分离, 尿液, 碱性脱水, 能耗

Abstract: To achieve nutrients recovery from source-separated urine, the study investigated the impact of key factors in a vacuum membrane distillation system on the concentration effect and energy consumption of alkalized urine. Real fresh urine, alkalized and diluted fivefold with calcium hydroxide, was used as the treatment object. The influence of feed temperature (40-70 ℃), condensation temperature (0-20 ℃), and feed pump speed (1 000-1 600 r/min) was investigated, and the significance of each factor was analyzed through multiple linear regression. The results showed that feed temperature was the core factor affecting membrane flux and energy consumption. When the temperature increased from 40 ℃ to 70 ℃, membrane flux increased from 0.82 L/(m2·h)to 3.02 L/(m2·h). When the feed temperature was 70 ℃, the water recovery efficiency reached 72.36%, the urine concentration index reached 3.62, and the specific energy consumption decreased by 29.3%. At a condensation temperature of 20 ℃, membrane flux, water recovery efficiency, and energy consumption efficiency were all superior to those at 0 ℃, with a specific energy consumption reduction of 13.0%. The feed pump speed had no significant impact on treatment efficiency and energy consumption, with membrane flux stabilizing at 1.99-2.06 L/(m2·h)and specific energy consumption maintaining at 1.429-1.442 kWh/L. The total energy consumption of the system mainly came from the heating of the feed, with a total salt rejection efficiency exceeding 98.5% and a total nitrogen recovery efficiency of over 80%. The multiple linear regression model exhibited good fit with the experimental results. This study indicates that vacuum membrane distillation is suitable for the concentration of alkalized urine, providing theoretical support for process optimization.

Key words: vacuum membrane distillation, source-separation, urine, alkaline dehydration, energy consumption

[1] 段文俊, 陆 茵, 孙利利, 卢 军, 李继云, 徐康宁. 我国高寒旱地区源分离尿液碱性稳定化研究[J]. 环境卫生工程, 2023, 31(3): 1-8.
[2] 林向宇, 孟寒玉, 王晓君, 周挺进, 沈君煌, 陈少华. 分散式堆肥设备结合二次堆肥对蔬菜废弃物的处理效能及能耗分析[J]. 环境卫生工程, 2022, 30(5): 40-46.
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