Optimisation of a sustainable manufacturing system design using the multi-objective approach

A sustainable manufacturing system design can be defined as a process aimed at minimising the negative aspect of both economic and ecological costs. This may be partially achieved through the implementation of lean manufacturing methods in order to reduce production wastes, increase efficiency of ma...

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Bibliographic Details
Published in:International journal of advanced manufacturing technology 2018-05, Vol.96 (5-8), p.2539-2558
Main Authors: Nujoom, Reda, Wang, Qian, Mohammed, Ahmed
Format: Article
Language:English
Subjects:
Air conditioners
Air conditioning
Air conditioning equipment
CAE) and Design
Carbon dioxide
Computer-Aided Engineering (CAD
Design engineering
Design optimization
Ecology
Economic models
Energy conservation
Energy consumption
Engineering
Industrial and Production Engineering
Lean manufacturing
Mathematical models
Mechanical Engineering
Media Management
Multiple objective analysis
Operating costs
Original Article
Production methods
Production planning
Sustainable development
Systems design
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Summary:A sustainable manufacturing system design can be defined as a process aimed at minimising the negative aspect of both economic and ecological costs. This may be partially achieved through the implementation of lean manufacturing methods in order to reduce production wastes, increase efficiency of manufacturing systems and minimise operational costs. Nevertheless, the concept of lean methods does not include environmental considerations in terms of such as energy consumption and CO 2 (carbon dioxide) emissions, which are also important factors today for developing a sustainable manufacturing system. This paper addresses these issues involved in modelling a sustainable manufacturing system allowing an evaluation in energy consumption and CO 2 emissions against the total cost using the multi-objective approach. In this work, a multi-objective mathematical model was developed based on a manufacturing system incorporating its economic and ecological parameters towards a minimisation of the total cost, the total energy consumption and CO 2 emissions associated with relevant machines, air-conditioning units and lighting bulbs involved in each manufacturing process and material flow. The model was coded using LINGO 11 to help gain optimal solutions using the ε -constraint approach and the LP-metrics approach, respectively. The best solution among obtained optimal results was revealed using the max-min approach. Applicability of the proposed method was also examined using collected data from a real case study. The study concluded that the multi-objective mathematical model was useful as an aid for optimizing the manufacturing system design under the economic and ecological constraints.
ISSN:0268-3768
1433-3015
DOI:10.1007/s00170-018-1649-y