Analytical Case Study on a Dedicated Pigment in Recycling Processes of Polyethylene

K. Miermans, E. Dijkman, P. Krystek
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Abstract

The ability to track & trace materials is a key feature in the entire chain, and it ensures circularity principles. Examples from plastic recycling show the enormous added value that analytical technology can have for the circular economy. During polymer production and recycling processes, pigments can be added for different purposes; e.g. as colouring agent of the polymeric product but also as tracer for tracking process development and control in the final recycle products versus possible by-products. An analytical method for tracking the pigment Solvent Blue 15 in input materials, in intermediates as well as in recyclates was developed by tracing and quantifying an indicator metal which is copper (Cu). Therefore, suitable digestion procedures and a quantification method by high resolution inductively coupled plasma mass spectrometry (HR-ICP-MS) were developed and used for measuring the polymeric digests. The method was tested on relevant samples from chemical recycling processes. The background concentrations in base/raw material are in the range of 0.05 - 0.1 mg∙kg−1 Cu. The processing concentrations are in the range of 4.2 to 28 mg∙kg−1 Cu, while the pigment starting material (polyethylene, PE) has a concentration of around 50 mg∙kg−1 Cu.
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聚乙烯专用颜料回收工艺分析案例研究
跟踪和追溯材料的能力是整个链条的关键特征,它确保了循环原则。塑料回收的例子表明,分析技术可以为循环经济带来巨大的附加值。在聚合物生产和回收过程中,可以添加不同用途的颜料;例如,作为聚合物产品的着色剂,也作为跟踪过程开发和控制最终回收产品与可能的副产品的示踪剂。通过对指示金属铜(Cu)的跟踪和定量,开发了一种用于跟踪输入材料、中间体和回收物中颜料溶剂蓝15的分析方法。因此,我们开发了合适的消化程序和高分辨率电感耦合等离子体质谱(HR-ICP-MS)定量方法,并将其用于聚合物消化的测定。该方法在化工回收过程的相关样品上进行了试验。基料/原料的本底浓度范围为0.05 - 0.1 mg∙kg−1 Cu。加工浓度为4.2 ~ 28 mg∙kg−1 Cu,而颜料原料(聚乙烯,PE)的浓度约为50 mg∙kg−1 Cu。
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