Exergy Assessment of Plastic Car Parts

IEEE Intelligent Vehicles Symposium. IEEE Intelligent Vehicles Symposium Pub Date : 2023-09-21 DOI:10.3390/vehicles5030067

Abel Ortego, Sofia Russo, Marta Iglesias-Émbil, Alicia Valero, Ricardo Magdalena

{"title":"Exergy Assessment of Plastic Car Parts","authors":"Abel Ortego, Sofia Russo, Marta Iglesias-Émbil, Alicia Valero, Ricardo Magdalena","doi":"10.3390/vehicles5030067","DOIUrl":null,"url":null,"abstract":"Light-duty vehicles are increasingly incorporating plastic materials to reduce production costs and achieve lightweight designs. On average, a conventional car utilizes over 200 kg of plastic, comprising more than 23 different types, which often present challenges for recycling due to their incompatibility. Consequently, the focus on plastic recycling in end-of-life vehicles has intensified. This study aims to analyze critical car parts based on the plastics used, employing a novel thermodynamic approach that examines the embodied exergy (EE) of different plastics. Six vehicles from various segments, years, and equipment levels were assessed to understand their plastic compositions. The findings reveal that, on average, a vehicle contains 222 kg of plastic, accounting for 17.7% of its total weight. Among these plastics, 47.5% (105 kg) are utilized in car parts weighing over 1 kg, with plastics comprising over 80% of the part’s weight. The identified critical car parts include the front door trim panel, front and rear covers, fuel tank, floor covering, front lighting, dashboard, rear door trim panel, plastic front end, backrest pad, door trim panel pocket, plastic foam rear seat, rear lighting, window guide, molded headliner, bulkhead sound insulation, foam seat part, and wheel trim. Regarding their contribution to EE, the plastics with the highest shares are polypropylene—PP (24.5%), polypropylene and ethylene blends—E/P (20.3%), and polyurethane- PU (15.3%). Understanding the criticality of these car parts and their associated plastics enables targeted efforts in design, material selection, and end-of-life management to enhance recycling and promote circularity within the automotive industry.","PeriodicalId":73282,"journal":{"name":"IEEE Intelligent Vehicles Symposium. IEEE Intelligent Vehicles Symposium","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2023-09-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"IEEE Intelligent Vehicles Symposium. IEEE Intelligent Vehicles Symposium","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.3390/vehicles5030067","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 1

Abstract

Light-duty vehicles are increasingly incorporating plastic materials to reduce production costs and achieve lightweight designs. On average, a conventional car utilizes over 200 kg of plastic, comprising more than 23 different types, which often present challenges for recycling due to their incompatibility. Consequently, the focus on plastic recycling in end-of-life vehicles has intensified. This study aims to analyze critical car parts based on the plastics used, employing a novel thermodynamic approach that examines the embodied exergy (EE) of different plastics. Six vehicles from various segments, years, and equipment levels were assessed to understand their plastic compositions. The findings reveal that, on average, a vehicle contains 222 kg of plastic, accounting for 17.7% of its total weight. Among these plastics, 47.5% (105 kg) are utilized in car parts weighing over 1 kg, with plastics comprising over 80% of the part’s weight. The identified critical car parts include the front door trim panel, front and rear covers, fuel tank, floor covering, front lighting, dashboard, rear door trim panel, plastic front end, backrest pad, door trim panel pocket, plastic foam rear seat, rear lighting, window guide, molded headliner, bulkhead sound insulation, foam seat part, and wheel trim. Regarding their contribution to EE, the plastics with the highest shares are polypropylene—PP (24.5%), polypropylene and ethylene blends—E/P (20.3%), and polyurethane- PU (15.3%). Understanding the criticality of these car parts and their associated plastics enables targeted efforts in design, material selection, and end-of-life management to enhance recycling and promote circularity within the automotive industry.

查看原文本刊更多论文

汽车塑料零部件的火用性评价

轻型汽车越来越多地采用塑料材料，以降低生产成本，实现轻量化设计。平均而言，一辆传统汽车使用超过200公斤的塑料，包括超过23种不同类型的塑料，由于它们的不兼容性，这些塑料通常给回收带来挑战。因此，对报废车辆塑料回收的关注已经加强。本研究的目的是分析关键的汽车零部件基于所使用的塑料，采用一种新的热力学方法，检查不同塑料的具体火用(EE)。研究人员对六辆不同车型、不同年份和不同装备水平的汽车进行了评估，以了解它们的塑料成分。调查结果显示，一辆汽车平均含有222公斤塑料，占其总重量的17.7%。在这些塑料中，47.5%(105公斤)用于重量超过1公斤的汽车零件，塑料占零件重量的80%以上。确定的关键汽车部件包括前门饰板、前后盖、油箱、地板覆盖物、前照明灯、仪表板、后门饰板、塑料前端、靠背垫、门饰板口袋、塑料泡沫后座、后照明灯、车窗导板、成型头罩、隔舱隔音、泡沫座椅部件和车轮饰板。就其对EE的贡献而言，份额最高的塑料是聚丙烯- pp(24.5%)，聚丙烯和乙烯共混物- e /P(20.3%)和聚氨酯- PU(15.3%)。了解这些汽车零部件及其相关塑料的重要性，可以在设计、材料选择和报废管理方面做出有针对性的努力，从而加强回收利用，促进汽车行业的循环利用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

IEEE Intelligent Vehicles Symposium. IEEE Intelligent Vehicles Symposium

自引率

0.00%

发文量