Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCC

The concept of life cycle sustainability assessment provides an interdisciplinary space to discuss the main challenges in addressing sustainability from a long-term perspective. However, uncertainty related to cost parameters constitutes one of the main challenges in LCC. This uncertainty prevents m...

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Main Authors: Orlando Durán, Paulo Sergio Afonso, Paulo Andrés Durán
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Sustainability
Subjects:
Online Access:https://www.mdpi.com/2071-1050/11/7/1835
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spelling doaj-2658d64630034ee986ef14eb95d7295d2020-11-24T21:52:16ZengMDPI AGSustainability2071-10502019-03-01117183510.3390/su11071835su11071835Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCCOrlando Durán0Paulo Sergio Afonso1Paulo Andrés Durán2Escuela de Ingeniería Mecánica, Pontificia Universidad Católica de Valparaíso, 2430000 Valparaíso, ChileDepartamento de Produção e Sistemas, Universidade do Minho, 4704-553 Braga, PortugalArea Mecánica, Universidad Tecnológica de Chile INACAP, 2430000 Valparaíso, ChileThe concept of life cycle sustainability assessment provides an interdisciplinary space to discuss the main challenges in addressing sustainability from a long-term perspective. However, uncertainty related to cost parameters constitutes one of the main challenges in LCC. This uncertainty prevents managers from precisely anticipating the exact values of important variables. These variables include the costs of spare parts inventories, which in some cases can constitute high percentages of the total cost of a product or service. We propose an activity-based costing model that handles uncertainty using triangular numbers, along with a matrix representation, and Weibull functions to incorporate the projected equipment reliability into the model. A case study based on a spare parts distribution center, which serves the mining industry in Northern Chile, is presented. The results obtained are compared with a traditional costing method. The advantage of using the proposed approach over the traditional one is evident. Future research is directed towards the implementation of a larger number of inventory policies, along with experimentation with other types of fuzzy numbers.https://www.mdpi.com/2071-1050/11/7/1835activity-based costingspare partsfuzzyuncertaintyeconomic sustainability
collection DOAJ
language English
format Article
sources DOAJ
author Orlando Durán
Paulo Sergio Afonso
Paulo Andrés Durán
spellingShingle Orlando Durán
Paulo Sergio Afonso
Paulo Andrés Durán
Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCC
Sustainability
activity-based costing
spare parts
fuzzy
uncertainty
economic sustainability
author_facet Orlando Durán
Paulo Sergio Afonso
Paulo Andrés Durán
author_sort Orlando Durán
title Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCC
title_short Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCC
title_full Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCC
title_fullStr Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCC
title_full_unstemmed Spare Parts Cost Management for Long-Term Economic Sustainability: Using Fuzzy Activity Based LCC
title_sort spare parts cost management for long-term economic sustainability: using fuzzy activity based lcc
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2019-03-01
description The concept of life cycle sustainability assessment provides an interdisciplinary space to discuss the main challenges in addressing sustainability from a long-term perspective. However, uncertainty related to cost parameters constitutes one of the main challenges in LCC. This uncertainty prevents managers from precisely anticipating the exact values of important variables. These variables include the costs of spare parts inventories, which in some cases can constitute high percentages of the total cost of a product or service. We propose an activity-based costing model that handles uncertainty using triangular numbers, along with a matrix representation, and Weibull functions to incorporate the projected equipment reliability into the model. A case study based on a spare parts distribution center, which serves the mining industry in Northern Chile, is presented. The results obtained are compared with a traditional costing method. The advantage of using the proposed approach over the traditional one is evident. Future research is directed towards the implementation of a larger number of inventory policies, along with experimentation with other types of fuzzy numbers.
topic activity-based costing
spare parts
fuzzy
uncertainty
economic sustainability
url https://www.mdpi.com/2071-1050/11/7/1835
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