Optimization of Ammonia Nitrogen Removal and Recovery from Raw Liquid Dairy Manure Using Vacuum Thermal Stripping and Acid Absorption Process: A Modeling Approach Using Response Surface Methodology

Nitrogen Pub Date : 2024-05-09 DOI:10.3390/nitrogen5020026
Srijana Sapkota, Arif Reza, Lide Chen
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Abstract

Dairy manure adds a substantial amount of nitrogen to wastewater due to its high levels of associated nutrients. Removal and recovery of ammonia nitrogen (NH3-N) from raw liquid dairy manure (RLDM) is greatly valued. This study was focused on the vacuum thermal stripping–acid absorption (VTS-AA) process for NH3-N from RLDM, followed by modeling and optimization. Using the response surface methodology (RSM)-based central composite design (CCD) approach, the critical operational parameters of the vacuum thermal stripping process, including temperature (50–70 °C), pH (9–11), vacuum pressure (35–55 kPa), and treatment time (60–90 min), were optimized. With the specified parameters set at temperature 69.9 °C, pH 10.5, vacuum pressure 53.5 kPa, and treatment time 64.2 min, the NH3-N removal efficiency attained was 98.58 ± 1.05%, aligning closely with the model prediction. Furthermore, the recovered ammonium sulfate ((NH4)2SO4) closely matched their commercial counterparts, confirming the effectiveness of the VTS-AA process in recovering NH3-N from RLDM. The distinct advantage of the employed technology lies in the concurrent energy demand reduction achieved by introducing a vacuum system. These findings contribute valuable insights into the practical implementation of the VTS-AA process for treating raw dairy manure, particularly in large-scale operational contexts.
利用真空热剥离和酸吸收工艺优化原液奶牛粪便中氨氮的去除和回收:采用响应面方法的建模方法
由于含有大量的相关营养物质,奶牛粪便会给废水中增加大量的氮。去除和回收原液奶牛粪便(RLDM)中的氨氮(NH3-N)非常有价值。本研究的重点是真空热剥离-酸吸收(VTS-AA)工艺从 RLDM 中去除 NH3-N,然后进行建模和优化。采用基于响应面方法学(RSM)的中心复合设计(CCD)方法,优化了真空热剥离过程的关键操作参数,包括温度(50-70 °C)、pH 值(9-11)、真空压力(35-55 kPa)和处理时间(60-90 分钟)。当指定参数设置为温度 69.9 °C、pH 值 10.5、真空压力 53.5 kPa 和处理时间 64.2 分钟时,NH3-N 的去除率为 98.58 ± 1.05%,与模型预测值接近。此外,回收的硫酸铵((NH4)2SO4)与商用硫酸铵((NH4)2SO4)非常接近,证实了 VTS-AA 工艺从 RLDM 中回收 NH3-N 的有效性。所采用技术的明显优势在于通过引入真空系统同时实现了能源需求的减少。这些研究结果为实际应用 VTS-AA 工艺处理未处理的奶牛粪便,尤其是在大规模运营环境下处理未处理的奶牛粪便提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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