Analysis of repairability index to improve disassemblability and serviceability in cooker hoods

Abstract

Product design plays a key role in supporting the principles of circular economy and sustainability by improving the repair and disassembly capabilities of products. The EN4555X standard series provides a framework and a set of indicators to evaluate these aspects for energy-related products. This paper focuses on applying the RSS (Repair Scoring System) introduced by the EN45554 standard to kitchen ventilation systems (T-shape cooker hood models). The study investigates the reliability of the repairability index by examining the impact of assumptions made during its assessment, particularly focusing on the data and parameters used for calculations. The methodology involves four key steps: identification of index parameters, experimental analysis, sensitivity analysis (SA) through data variation, and result interpretation. The experimental analysis involves computing the RSS index for the chosen range hoods, encompassing a SA developed by varying index’s parameters. Results illustrate that introducing consistent parameter variations across models leads to changes in the Disassemblability Index. However, these alterations remain consistent across all cases, preserving the overall product ranking. Nonetheless, the study also indicates that altering parameter weights may lead to changes in product rankings within the repairability score. This highlights the importance of employing uniform weights within the same product category. In conclusion, this study underscores the importance of employing consistent methodologies and weights to uphold the reliability of repairability indexes when assessing product repairability.