Showing total 2 results

1. A life-cycle integrated model for product eco-design in the conceptual design phase.

Author

Kong, Lin, Wang, Liming, Li, Fangyi, Tian, Guangdong, Li, Jianfeng, Cai, Zekang, Zhou, Jiaxuan, and Fu, Yan

Subjects

*CONCEPTUAL design, *ENVIRONMENTAL impact analysis, *HEURISTIC, *EMISSIONS (Air pollution), *POWER resources, *SUSTAINABLE design, *ENERGY consumption

Abstract

Eco-design that addresses the consumption of resources and energy, as well as pollution emissions from a product life-cycle perspective, is an effective way to solve environmental problems. However, the optimal eco-design solution is hardly generated in the conceptual design stage due to the complex association of the life cycle design information. To this end, this paper proposes a new eco-design model based on a life cycle integrated framework to effectively manage life cycle information in the conceptual design phase. In this work, (1) The life cycle-oriented model is proposed to integrate the product design information in terms of a systematic association mechanism between function, structure, material and process to construct the design space. (2) A life cycle design scenario-based similarity matching method is developed to support the environmental impact assessment of design options in the design space. (3) A hope tree-based heuristic search algorithm with the principle of minimizing environmental impact is proposed to efficiently obtain the eco-design solution. An application for eco-design of the lift equipment is given to demonstrate the capability of the proposed method. The results show that the environmental impact of the generated eco-design solution is improved by 19.48%, and the material and use stage has the highest environmental impact which accounts for 39.59% and 47.74% respectively. This work provides a targeted method for guiding designers to implement eco-design in the conceptual design phase through the life cycle. [Display omitted] • An integrated life cycle model is proposed to express the design information of function, structure, material and process. • A scenario-based similarity matching method is proposed to acquire the LCI for the design options. • Hope tree-based algorithm is used to efficiently obtain the optimal eco-design solution. [ABSTRACT FROM AUTHOR]

Published

2022

2. Sustainable design and life cycle assessment of an innovative multi-functional haymaking agricultural machinery.

Author

Bortolini, Marco, Cascini, Alessandro, Gamberi, Mauro, Mora, Cristina, and Regattieri, Alberto

Subjects

*SUSTAINABILITY, *LIFE cycles (Biology), *AGRICULTURAL equipment, *RAW materials, *ENERGY consumption, *ENVIRONMENTAL impact analysis, *COMPARATIVE studies

Abstract

The reduction in the use of raw materials and the spread of energy efficient processes and components are necessary from both the economic and the environmental viewpoints. This paper presents the design of an innovative multi-functional agricultural machinery able to integrate three separate traditional implements used for hay raking, hay baling and bale wrapping, i.e. hay rake, round baler and bale wrapper machines, with the aim of speeding up the harvesting operations and reducing both the energy consumption and the global environmental impact. A comparative analysis about the adoption of the traditional implements and the new multi-functional machinery is reported. Particularly, the reduction in both the fuel consumption (−32%), the human labor (−66.7%) is discussed together with a differential environmental analysis of the proposed system and the traditional implements. To meet such a last purpose, the study adopts the life cycle assessment methodology carefully quantifying the impact indicators for three different categories, i.e. human health, ecosystem quality and resource depletion. The results highlight a global environmental impact reduction of about 35%. The proposed system represents an effective and competitive improvement to ease and speed the haymaking process and to reduce the environmental impact of such a key farmer activity. [ABSTRACT FROM AUTHOR]

Published

2014