Marco Marconi

Promoting and Managing End-of-Life Closed-Loop Scenarios of Products Using a Design for Disassembly Evaluation Tool

In recent years, environmentally conscious design has become a fundamental approach for industries which have to consider the variable environment during the design process. Waste management is one of the most important aspects to be handled, to reduce the disposal in landfills and to encourage the sustainable 3R approach: Reuse, Recycling and Remanufacturing. Product disassembly is an essential phase of the product lifecycle, necessary to evaluate the End-of-Life (EoL) strategies and to reduce environmental impact. In order to minimize the impact on production and costs it is very important to consider EoL scenarios during the embodiment design phase, when designer’s decisions influence product structure. Design for Disassembly (DFD) is a powerful method to reduce disassembly time and costs. However, there are no useful tools which provide guidelines to improve the product disassemblability or promote specific EoL scenarios.For these reasons this paper describes an innovative Design for Disassembly approach and related tool to support designers in product disassemblability evaluation. The tool has the scope to manage EoL scenarios for industrial waste in the early design phases and to share metadata with the traditional design tools. Disassembly costs is one of the most important parameters during the evaluation of EoL scenarios. Six indices are presented to evaluate the economic and environmental feasibility of the EoL strategies. The calculation of the six indices permits alternative EoL scenarios to be compared and encourage the recyclability, reusability or re-manufacturability of a product. These evaluations can be used to foster a particular EoL scenario, as early on as in the design process. The preliminary analysis on mechatronic products underline the utility of the software tool and indices. Product re-design, realized using this approach, shows a relevant decrease in environmental impacts and disassembly costs. As a consequence, the new product has a relevant percentage of components with a closed-loop lifecycle.Copyright

A design for EoL approach and metrics to favour closed-loop scenarios for products

Abstract Recently, environmentally conscious design and extended producer responsibility have become key aspects for companies that need to develop products that are sustainable along their whole life cycle. Design for End of Life (EoL) is a strategy that aims to reduce landfill waste through the implementation of closed-loop product life cycles. It is important to consider disassembly and EoL scenario management as early as the design phase. For these reasons, this paper presents an approach to help designers in the evaluation and subsequent improvement in product EoL performance. The method is based on four innovative EoL indices that compare different EoL scenarios for each product component. In this way, the designer can modify the product structure or the liaisons to maximise the reuse and remanufacture of components as well as material recycling. The presented case studies confirm the validity of the approach in helping designers during the redesign phase of goods and products to reduce the quantity of materials and industrial wastes sent to landfill.

Traceability as a means to investigate supply chain sustainability: the real case of a leather shoe supply chain

In recent years, the growing attention to environmental challenges has shown that these issues are becoming of more and more interest to both research and industry. Companies are expected to ensure their products are fully traceable and more sustainable, which requires the involvement of all of the actors in the production network. According to this aim, this study proposes a structured approach that uses the traditional traceability concept as a means to identify the main information needed to assess environmental impacts along the whole supply chain (SC). The proposed approach is composed of four main steps: (i) SC modelling to identify all stakeholders and their inter-relations, (ii) data sharing to collect all relevant data, (iii) data elaboration to calculate performance at different levels of detail and (iv) result interpretation to optimise the SC. The distributed implementation of the approach at different SC steps represents a useful means to practically realise a sustainable SC management. A case study involving a leather shoe SC is used to demonstrate the effectiveness of the approach in identifying criticalities, supporting the selection of the most appropriate suppliers and correctly setting a management strategy towards the optimisation of internal and external traceability and environmental sustainability performances.

Integrated Software Platform for Green Engineering Design and Product Sustainability

Nowadays, industrial products, particularly household appliances, are strongly related to environmental issues. Due to high levels of uncertainty regarding design embodiments at the early design phase, new methods and tools are essential to provide designers a basis to determine the degree of sustainability of a given product. The paper aims to integrate ecodesign activities within the traditional flow of the product design process through the development of an integrated software platform which supports the decision-making task for product sustainability in the early phase of product design.

A Methodology and a Software Platform to Implement an Eco-Design Strategy in a Manufacturing Company

During past years several eco-design methodologies have been previously defined but none can be easily integrated in the traditional design process of manufacturing companies. This paper wants to overcome this lack and aims to define a methodology, called G.EN.ESI, to help also those designers without a specific know-how on eco-design, during the development of sustainable products. The methodology has been also contextualized in the traditional product design process, re-engineering this one with new input/output data, actors and specific tools, to demonstrate the applicability in real contexts.The re-engineered process is supported by a new set of integrated software tools, called G.EN.ESI platform. It is made of four tools for the definition of the product life cycle model, two tools for the evaluation of the environmental impact and Life Cycle Cost and a tool to guide the decision-making process during the re-design phase of a product. Furthermore, a web module to retrieve the necessary data from the supply chain subjects has been defined. Finally, the link with the CAD and PLM systems is proposed to increase the usability.© 2013 ASME

LeanDfd: A Design for Disassembly Approach to Evaluate the Feasibility of Different End-of-Life Scenarios for Industrial Products

Product disassembly is an important phase of the product lifecycle. It occurs to minimize the maintenance time and evaluate the End-of-Life (EoL) strategies, for example component reuse/recycling. These scenarios should be considered during the design process when decisions influence product architecture/structure. In this context, the present work describes an approach to support the designer’s evaluation of disassemblability by using the 3D CAD model structure and suitable key indices related to product features. A software system allows the product model to be analyzed and evaluates the disassemblability degree. An experimental case study facilitates the approach demonstration and highlights product performance.

Tool for Life Cycle Costing of Electric Motors during the Early Design Phases

In order to obtain even more competitive and efficient electric motors, it is necessary to take into, during the account design phase, not only the electromagnetic performances, but also the environmental impact and Life Cycle Cost (LCC). The paper presents a methodology and a software tool for the evaluation of the LCC of electric motors (particular attention is reserved to the manufacturing and use costs), yet during the early design phases. The integration of the proposed tool in a larger platform, to consider also the environmental impacts and motor performances, is also presented. The cost estimation tool has been tested for small sized asynchronous single-phase electric motors for household appliances.

EROD: New collaborative design platform for developing energy efficient electric motors

In recent years International and Communitarian directives have focused their attention on the problem of energy consumption. In this context electric motors play a key role and designers must improve products considering this direction. This paper presents an innovative platform, called EROD (Energy Reduction Oriented Design), which consists of multiple software modules with different functionalities to support the whole design process of electric motors. The goal of EROD platform is to achieve energy efficient and sustainable electric motors and related devices. The platform facilitates knowledge and data sharing among design team members, it arranges the workflow activities and finally it promotes collaborative design sessions. All functionalities are implemented within the same web-based platform. This guarantees interoperability among different tools and leads up to significant reduction of development time due to the elimination of errors and iterations. The platform was tested to design five innovative electric motors for industrial and household applications. Results show that the new developed motors improve current solutions in terms of energy efficiency and environmental impact during use.

Implementation of a software platform to support an eco-design methodology within a manufacturing firm

Abstract The paper aims to explore the implementation of an eco-design methodology and the related software platform (G.EN.ESI – Green ENgineering dESIgn) within technical departments of a manufacturing firm. The G.EN.ESI eco-design methodology is based on the life cycle thinking concept and the software platform is conceived as a set of inter-operable software tools able to efficiently exchange data among them and with the traditional design systems (i.e. CAD, PDM and PLM). A multinational company, designing and producing household appliances, adopted the proposed methodology and related software platform for redesigning two cooker hood models with the aim to improve their environmental performances. Design and engineering departments evaluated the methodology and platform impact on the product development process, as well as the platform inter-operability with traditional design tools. The results indicate that methodology and software platform satisfy the requirements of the enterprise in terms of: (i) degree of expertise and training requirement on this subject, (ii) low impact in a consolidated design process and, (ii) good level of inter-operability among heterogeneous tools. However, the testing results highlight the necessity of a further platform optimisations in terms of software integration (single workbench made by integrated software tools with the same graphical user interface).

CAD feature recognition as a means to prevent ergonomics issues during manual assembly tasks

Feature-based modeling and feature recognition algorithm are state of the art technologies, mainly used to favor the integration and exchange of data between design and manufacturing phases. This p...