Bacterial decontamination of process liquids and paints in E-coating lines by pulsed electric field treatment

IF 2.3 4区 材料科学 Q2 CHEMISTRY, APPLIED Journal of Coatings Technology and Research Pub Date : 2024-03-19 DOI:10.1007/s11998-023-00901-4
Christian Gusbeth, Peter Krolla, Julia Bruchmann, Thomas Schwartz, Georg Müller, Wolfgang Frey
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Abstract

Cultivation-based and DNA-based methods for determining the bacterial load and the composition of the bacterial spectrum have been successfully established for media in electrodip painting, and used for the detailed analysis of the contamination situation in an E-coating system of an automobile plant in Germany. Dominating representatives of the genus Microbacterium spp., the orders Burkholderiales and Pseudomonadales, the family Cytophagaceae and the genera Corynebacterium spp., Sphingomonas spp., and Stenotrophomonas spp. were used for inactivation experiments. Different pulsed electric field (PEF) parameters were studied for an effective and target-directed inactivation of defined bacterial suspensions containing mixtures of Gram-positive as well as Gram-negative bacteria, but also single species suspensions in adequate liquids. PEF treatment with pulse durations longer than 1.0 µs effectively killed bacteria even in low conductivity media, regardless of whether the pulses were unipolar or bipolar, indicating that the choice of pulse shape does not limit the design of the PEF system. Model calculations showed that for efficient treatment in bypass mode, a high treatment flow rate is required rather than a high inactivation efficiency of the PEF treatment. By using specific treatment parameters, such as bipolar pulses of 50 k Vcm−1 and a treatment energy of 40 J mL−1, a significant reduction in both Gram-negative and Gram-positive bacteria (> 2 log10 reduction) can be achieved while minimizing electrode corrosion and coating degradation. PEF treatment proves to be an effective alternative to the use of biocides in an E-coating system and can help maintain a bacteriostatic environment in the system by operating at different points, in transfer flow or bypass mode, ensuring biocide-free operation.

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通过脉冲电场处理对电子涂层生产线中的工艺液体和涂料进行细菌净化
针对电泳涂装中的培养基,成功建立了基于培养和 DNA 的细菌负荷和细菌谱组成测定方法,并用于详细分析德国一家汽车厂电泳涂装系统的污染情况。灭活实验使用了微杆菌属、伯克霍尔德氏目和假单胞菌目、噬胞菌科以及棒状杆菌属、鞘氨单胞菌属和臭单胞菌属的主要代表菌。研究了不同的脉冲电场(PEF)参数,以有效地针对特定细菌悬浮液(包含革兰氏阳性和革兰氏阴性菌的混合物)以及适当液体中的单一菌种悬浮液进行灭活。脉冲持续时间超过 1.0 µs 的 PEF 处理即使在低电导率介质中也能有效杀死细菌,无论脉冲是单极还是双极,这表明脉冲形状的选择并不限制 PEF 系统的设计。模型计算显示,要在旁路模式下进行高效处理,需要的是高处理流量,而不是 PEF 处理的高灭活效率。通过使用特定的处理参数,如 50 k Vcm-1 的双极脉冲和 40 J mL-1 的处理能量,可以显著减少革兰氏阴性菌和革兰氏阳性菌(减少 2 log10),同时最大限度地减少电极腐蚀和涂层降解。事实证明,PEF 处理是在电子涂层系统中使用杀菌剂的有效替代方法,它可以通过在不同点以转移流或旁路模式运行,确保无杀菌剂运行,从而帮助维持系统中的无菌环境。
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来源期刊
Journal of Coatings Technology and Research
Journal of Coatings Technology and Research 工程技术-材料科学:膜
CiteScore
4.30
自引率
8.70%
发文量
130
审稿时长
2.5 months
期刊介绍: Journal of Coatings Technology and Research (JCTR) is a forum for the exchange of research, experience, knowledge and ideas among those with a professional interest in the science, technology and manufacture of functional, protective and decorative coatings including paints, inks and related coatings and their raw materials, and similar topics.
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