Using image texture to monitor the growth and settling of flocs

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Qidong Ma, Yan Liu, Zhangwei He, Haiguang Wang, Ruolan Wang, Yueping Kong, Zhihua Li
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引用次数: 1

Abstract

Abstract Currently, a reliable and easy-to-use method to monitor flocculation in the water treatment process is highly demanded, especially for small water purification stations. For this problem, in situ images were used to analyze the flocculation process under different conditions via jar tests. A texture feature of the gray level co-occurrence matrix was found to be helpful for monitoring the floc status, such as growth rate and settling velocity. To further verify this finding, we established the correlation between the texture time sequence curve (TTSC) and its corresponding floc status. The slope of the TTSC during the growth phase and during the settling phase can describe the growth rate and the settling velocity, respectively, i.e., the higher the slope, the higher the growth rate and settling velocity. In addition, significant differences between the TTSCs in various abnormal conditions and the normal condition of coagulation can be identified. By using the TTSC for detecting abnormal conditions, we again verified that the texture feature can reliably reflect the flocculation process. Our study helps to develop a low-cost, stable, and simple method for monitoring flocculation and detecting abnormal conditions, which can effectively be used in the operation and management of water treatment plants.
利用图像纹理法监测絮凝体的生长和沉降
目前,对水处理过程中的絮凝监测,特别是小型净水站,迫切需要一种可靠、易用的监测方法。针对这一问题,采用现场图像分析了不同条件下的絮凝过程。发现灰度共生矩阵的纹理特征有助于监测絮体的生长速率和沉降速度等状态。为了进一步验证这一发现,我们建立了纹理时间序列曲线(TTSC)与其对应的絮体状态之间的相关性。TTSC在生长阶段和沉降阶段的斜率可以分别描述生长速率和沉降速度,即斜率越大,生长速率和沉降速度越快。此外,各种异常状态下的TTSCs与凝血正常状态之间存在显著差异。利用TTSC检测异常情况,再次验证了纹理特征能够可靠地反映絮凝过程。本研究有助于开发一种低成本、稳定、简单的絮凝监测和异常检测方法,可有效地用于水处理厂的运行和管理。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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