Learning from the Nature: Enabling the Transition Towards Circular Economy Through Biomimicry

2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM) Pub Date : 2019-12-01 DOI:10.1109/IEEM44572.2019.8978540

Markus Thomas Bockholt, J. Kristensen, B. V. Wæhrens, S. Evans

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引用次数: 6

Abstract

The natural biosphere operates according to a system of nutrients and metabolisms, in which there is no such thing as waste. Forming an eternal cycle, which iteratively recycles its major nutrients. This objective is what many industrial organizations aim for by closing industrial material and product loops in the Technosphere. In doing so industrial organisations aim to drive sustainability, ensure supply resilience and explore new financial revenue streams. Unlike the biosphere, the technosphere is immature, often failing to prove financial vitality and hence scalability. This paper utilizes biomimicry to cross fertilize natural intelligence, which evolved over millions of years. Biological organism ensures vitality (surplus of calories) by foraging for food, a process, which contains continuous search and digestion processes, optimized to environmental conditions through evolution. This paper explores how biological search and digestion strategies can be exploited in industrial product takeback systems to make informed decisions for maximizing industrial vitality (surplus of financial income).

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向自然学习:通过仿生学实现向循环经济的过渡

自然生物圈是根据营养和代谢系统运作的，在这个系统里没有废物。形成一个永恒的循环，反复循环它的主要营养物质。这一目标是许多工业组织通过关闭技术圈中的工业材料和产品循环来达到的目标。在这样做的过程中，工业组织的目标是推动可持续性，确保供应弹性，并探索新的财务收入来源。与生物圈不同，技术圈不成熟，往往无法证明其财务活力和可扩展性。这篇论文利用仿生学来交叉施肥自然智能，这已经进化了数百万年。生物有机体通过寻找食物来确保活力(热量过剩)，这一过程包含了不断的寻找和消化过程，并通过进化优化了环境条件。本文探讨了如何在工业产品回收系统中利用生物搜索和消化策略来做出明智的决策，以最大限度地提高工业活力(财政收入盈余)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM)

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