Artículos (Ingeniería del Diseño)

URI permanente para esta colecciónhttps://hdl.handle.net/11441/11347

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Biomimicry: Engineering Inspired by Nature
(Common Ground Research Networks, 2025-02-24) Aguilar-Planet, Teresa; Picardo, A; Fernández Rodríguez, Juan Francisco; Martín-Mariscal, Amanda; Peralta-Álvarez, María Estela; Universidad de Sevilla. Departamento de Ingeniería del Diseño; Universidad de Sevilla. TEP992: Diseño e Ingeniería
Humans are intrinsically linked to an extensive natural ecosystem, which is made up of a set of living organisms that interact with each other and with their physical environment, and developing projects in the field of engineering that recognize this connection in a technical way is a key strategy to mitigate or eliminate potential environmental impacts. Considering this concept, biomimicry is a methodology that uses nature as a source of inspiration and knowledge to create innovative, sustainable solutions that also ensure a regenerative and restorative impact on the environment through the responsible and sustainable application of technology. In this context, this work explores how biomimicry, as a discipline, can be effectively utilized within engineering projects, and analyzes the existing strategies and methodological tools that facilitate the effective and goal-oriented application of biomimicry in any field or branch of knowledge, particularly evaluating its potential in engineering solutions. The results identify the main methodologies, tools, and applications of biomimicry, highlighting its potential to improve efficiency, sustainability, and adaptability to different types of engineering projects and identifying how political structures can influence its applications. Integrating biomimicry into a project offers the opportunity to achieve innovative and environmentally friendly design alternatives, as reflected in those provided in the context of application in the marine environment developed in this article, allowing to contribute to certain Sustainable Development Goals.
Innovation Inspired by Nature: Applications of Biomimicry in Engineering Design
(MDPI, 2024-08-30) Aguilar-Planet, Teresa; Peralta-Álvarez, María Estela; Universidad de Sevilla. Departamento de Ingeniería del Diseño; Universidad de Sevilla. TEP992: Diseño e Ingeniería
Sustainable development is increasingly driving the trend toward the application of biomimicry as a strategy to generate environmentally friendly solutions in the design of industrial products. Nature-inspired design can contribute to the achievement of the Sustainable Development Goals by improving efficiency and minimizing the environmental impact of each design. This research conducted an analysis of available biomimetic knowledge, highlighting the most applied tools and methodologies in each industrial sector. The primary objective was to identify sectors that have experienced greater adoption of biomimicry and those where its application is still in its early stages. Additionally, by applying the available procedures and tools to a selected case study (technologies in marine environments), the advantages and challenges of the methodologies and procedures were determined, along with potential gaps and future research directions necessary for widespread implementation of biomimetics in the industry. These results provide a comprehensive approach to biomimicry applied to more sustainable practices in product design and development.
Innovation Inspired by Nature: Applications of Biomimicry in Engineering Design
(MDPI, 2024-08-30) Aguilar-Planet, Teresa; Peralta-Álvarez, María Estela; Universidad de Sevilla. Departamento de Ingeniería del Diseño; Universidad de Sevilla. TEP992: Diseño e Ingeniería
Sustainable development is increasingly driving the trend toward the application of biomimicry as a strategy to generate environmentally friendly solutions in the design of industrial products. Nature-inspired design can contribute to the achievement of the Sustainable Development Goals by improving efficiency and minimizing the environmental impact of each design. This research conducted an analysis of available biomimetic knowledge, highlighting the most applied tools and methodologies in each industrial sector. The primary objective was to identify sectors that have experienced greater adoption of biomimicry and those where its application is still in its early stages. Additionally, by applying the available procedures and tools to a selected case study (technologies in marine environments), the advantages and challenges of the methodologies and procedures were determined, along with potential gaps and future research directions necessary for widespread implementation of biomimetics in the industry. These results provide a comprehensive approach to biomimicry applied to more sustainable practices in product design and development.
Innovation Inspired by Nature: Applications of Biomimicry in Engineering Design
(MDPI, 2024-08-30) Aguilar-Planet, Teresa; Peralta-Álvarez, María Estela; Universidad de Sevilla. Departamento de Ingeniería del Diseño; Universidad de Sevilla. TEP992: Diseño e Ingeniería
Sustainable development is increasingly driving the trend toward the application of biomimicry as a strategy to generate environmentally friendly solutions in the design of industrial products. Nature-inspired design can contribute to the achievement of the Sustainable Development Goals by improving efficiency and minimizing the environmental impact of each design. This research conducted an analysis of available biomimetic knowledge, highlighting the most applied tools and methodologies in each industrial sector. The primary objective was to identify sectors that have experienced greater adoption of biomimicry and those where its application is still in its early stages. Additionally, by applying the available procedures and tools to a selected case study (technologies in marine environments), the advantages and challenges of the methodologies and procedures were determined, along with potential gaps and future research directions necessary for widespread implementation of biomimetics in the industry. These results provide a comprehensive approach to biomimicry applied to more sustainable practices in product design and development.

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Examinando Artículos (Ingeniería del Diseño) por Autor "Aguilar-Planet, Teresa"