A rationalization guideline for the utilization of energy and resources considering total manufacturing processes
TLDR
In this paper, an analysis and comparison of exergy were conducted in case when heater tube used in the molten aluminum was made of steel and ceramics, and a guideline for rationalization of casting process for efficient use of resource and energy.Abstract:
In order to increase manufacture efficiency and lower environmental impact, it is necessary to know the processes of consumption and emission of resource and energy, as the processes span out widely after originating from one process. In this paper, analysis and comparison of exergy were conducted in case when heater tube used in the molten aluminum was made of steel and ceramics. Exergy analysis was done for complete operation of aluminum casting. We then created a guideline for rationalization of casting process for efficient use of resource and energy.read more
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Proceedings ArticleDOI
Energy consumption modeling and analyses in automotive manufacturing final assembly process
TL;DR: In this article, the problem of energy consumption during the automotive vehicle final assembly (FA) process is discussed, and an energy classification in the final assembly department is generated to give more transparent understanding of the energy consumption in each category.
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Analysis of synthetic approaches described in papers of the journal Synthesiology
TL;DR: In this article, the authors discuss the use of synthetic biology in the field of biomedical sciences and propose an approach to synthesize synthetic data from the human body, which they call "synthesiology".
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Environmental Impact Evaluation and Rationalization of Ceramics Process on the Basis of Exergy Analysis
TL;DR: In this article, exergy analysis was conducted in case when the heater tube used in the molten aluminum was made of steel and ceramics, and it was revealed that ceramic has effectiveness in the reduction of environmental burden through the lifecycle process, while steel consumes much higher exergy than the steel one in production stage.
References
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Journal ArticleDOI
Exergy Consumption Through the Life Cycle of Ceramic Parts
TL;DR: In this article, exergy analysis was conducted on a ceramic tube and a steel heater protection tube used in aluminum casting, and the amount of exergies consumed through their life cycle were calculated.