Sustainable engineering education in research and practice

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschungbegutachtet

Standard

Sustainable engineering education in research and practice. / Block, Brit-Maren; Guerne, Marie Gillian.
SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings. Hrsg. / Hannu-Matti Jarvinen; Santiago Silvestre; Ariadna Llorens; Balazs Vince Nagy. Universitat Politecnica de Catalunya, 2022. S. 122-130 (SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings).

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschungbegutachtet

Harvard

Block, B-M & Guerne, MG 2022, Sustainable engineering education in research and practice. in H-M Jarvinen, S Silvestre, A Llorens & BV Nagy (Hrsg.), SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings. SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings, Universitat Politecnica de Catalunya, S. 122-130, SEFI 50th Annual Conference, Barcelona, Spanien, 19.09.22. https://doi.org/10.5821/conference-9788412322262.1441

APA

Block, B.-M., & Guerne, M. G. (2022). Sustainable engineering education in research and practice. In H.-M. Jarvinen, S. Silvestre, A. Llorens, & B. V. Nagy (Hrsg.), SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings (S. 122-130). (SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings). Universitat Politecnica de Catalunya. https://doi.org/10.5821/conference-9788412322262.1441

Vancouver

Block BM, Guerne MG. Sustainable engineering education in research and practice. in Jarvinen HM, Silvestre S, Llorens A, Nagy BV, Hrsg., SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings. Universitat Politecnica de Catalunya. 2022. S. 122-130. (SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings). doi: 10.5821/conference-9788412322262.1441

Bibtex

@inbook{9ca1be65df0c4ba9a5884f9831b73f25,
title = "Sustainable engineering education in research and practice",
abstract = "Sustainability and responsible use of the resources at our disposal are among the most important goals of our time. Employees are looking for next-generation employees with ever more skills. To ideally foster these in engineering and prepare them for future challenges, the integration of education for sustainable development (ESD) with a linkage of technical and sustainability-oriented issues in the curriculum is essential. This paper takes up two points: Firstly, an analysis of the research landscape in Engineering Education Research (EER) on the topic of {"}sustainability{"} is undertaken. For this purpose, more than 3500 conference papers of EDUCON and FIE of the years 2014 to 2018 as well as 2021 (EDUCON only) are evaluated. The methodology of the analysis as well as the set of main and sub categories (among them {"}sustainability{"}) will be presented at SEFI 2022. The results of the analysis of the research landscape show that the topic of sustainability has so far played a negligible role in the conference contributions. Secondly, the focus is on the implementation process and the linking of technical and sustainability-oriented issues. The study programme concept of the Leuphana University offers two options for sustainable technical education by combining major and minor study programmes. The interdisciplinary combinations are presented and explained using module examples. In total, this paper provides a research-based contribution to sustainable engineering education in research and practice. Engineering students{\textquoteright} courses of action have been videorecorded in design projects and in electronics labs at two universities. It can bee seen that students{\textquoteright} use a wealth of bodily-material resources that are an integral and seamless part of students{\textquoteright} interactions. They use bodily resources, concrete materials, “low-tech” inscriptions as well as “high-tech” (“digital”) inscription devices. Our results challenge that by hand – by computer and analogue tools – digital tools should be seen as dichotomies. Our empirical evidence suggests that students should be trained to not only be trained to work with “digital” tools but with a multitude of tools and resources. We, thus, advocate that a postdigital perspective should be taken in education where the digital makes up part of an integrated totality.",
keywords = "Interdisciplinary engineering education, practice-based learning concepts, theory-based engineering course, Engineering",
author = "Brit-Maren Block and Guerne, {Marie Gillian}",
note = "Publisher Copyright: {\textcopyright} 2022 SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings. All rights reserved.; SEFI 50th Annual Conference, SEFI 2022 ; Conference date: 19-09-2022 Through 22-09-2022",
year = "2022",
month = sep,
day = "1",
doi = "10.5821/conference-9788412322262.1441",
language = "English",
series = "SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings",
publisher = "Universitat Politecnica de Catalunya",
pages = "122--130",
editor = "Hannu-Matti Jarvinen and Santiago Silvestre and Ariadna Llorens and Nagy, {Balazs Vince}",
booktitle = "SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings",
address = "Spain",
url = "https://sefi2022.eu",

}

RIS

TY - CHAP

T1 - Sustainable engineering education in research and practice

AU - Block, Brit-Maren

AU - Guerne, Marie Gillian

N1 - Conference code: 50

PY - 2022/9/1

Y1 - 2022/9/1

N2 - Sustainability and responsible use of the resources at our disposal are among the most important goals of our time. Employees are looking for next-generation employees with ever more skills. To ideally foster these in engineering and prepare them for future challenges, the integration of education for sustainable development (ESD) with a linkage of technical and sustainability-oriented issues in the curriculum is essential. This paper takes up two points: Firstly, an analysis of the research landscape in Engineering Education Research (EER) on the topic of "sustainability" is undertaken. For this purpose, more than 3500 conference papers of EDUCON and FIE of the years 2014 to 2018 as well as 2021 (EDUCON only) are evaluated. The methodology of the analysis as well as the set of main and sub categories (among them "sustainability") will be presented at SEFI 2022. The results of the analysis of the research landscape show that the topic of sustainability has so far played a negligible role in the conference contributions. Secondly, the focus is on the implementation process and the linking of technical and sustainability-oriented issues. The study programme concept of the Leuphana University offers two options for sustainable technical education by combining major and minor study programmes. The interdisciplinary combinations are presented and explained using module examples. In total, this paper provides a research-based contribution to sustainable engineering education in research and practice. Engineering students’ courses of action have been videorecorded in design projects and in electronics labs at two universities. It can bee seen that students’ use a wealth of bodily-material resources that are an integral and seamless part of students’ interactions. They use bodily resources, concrete materials, “low-tech” inscriptions as well as “high-tech” (“digital”) inscription devices. Our results challenge that by hand – by computer and analogue tools – digital tools should be seen as dichotomies. Our empirical evidence suggests that students should be trained to not only be trained to work with “digital” tools but with a multitude of tools and resources. We, thus, advocate that a postdigital perspective should be taken in education where the digital makes up part of an integrated totality.

AB - Sustainability and responsible use of the resources at our disposal are among the most important goals of our time. Employees are looking for next-generation employees with ever more skills. To ideally foster these in engineering and prepare them for future challenges, the integration of education for sustainable development (ESD) with a linkage of technical and sustainability-oriented issues in the curriculum is essential. This paper takes up two points: Firstly, an analysis of the research landscape in Engineering Education Research (EER) on the topic of "sustainability" is undertaken. For this purpose, more than 3500 conference papers of EDUCON and FIE of the years 2014 to 2018 as well as 2021 (EDUCON only) are evaluated. The methodology of the analysis as well as the set of main and sub categories (among them "sustainability") will be presented at SEFI 2022. The results of the analysis of the research landscape show that the topic of sustainability has so far played a negligible role in the conference contributions. Secondly, the focus is on the implementation process and the linking of technical and sustainability-oriented issues. The study programme concept of the Leuphana University offers two options for sustainable technical education by combining major and minor study programmes. The interdisciplinary combinations are presented and explained using module examples. In total, this paper provides a research-based contribution to sustainable engineering education in research and practice. Engineering students’ courses of action have been videorecorded in design projects and in electronics labs at two universities. It can bee seen that students’ use a wealth of bodily-material resources that are an integral and seamless part of students’ interactions. They use bodily resources, concrete materials, “low-tech” inscriptions as well as “high-tech” (“digital”) inscription devices. Our results challenge that by hand – by computer and analogue tools – digital tools should be seen as dichotomies. Our empirical evidence suggests that students should be trained to not only be trained to work with “digital” tools but with a multitude of tools and resources. We, thus, advocate that a postdigital perspective should be taken in education where the digital makes up part of an integrated totality.

KW - Interdisciplinary engineering education

KW - practice-based learning concepts

KW - theory-based engineering course

KW - Engineering

UR - http://www.scopus.com/inward/record.url?scp=85147500982&partnerID=8YFLogxK

U2 - 10.5821/conference-9788412322262.1441

DO - 10.5821/conference-9788412322262.1441

M3 - Article in conference proceedings

AN - SCOPUS:85147500982

T3 - SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings

SP - 122

EP - 130

BT - SEFI 2022 - 50th Annual Conference of the European Society for Engineering Education, Proceedings

A2 - Jarvinen, Hannu-Matti

A2 - Silvestre, Santiago

A2 - Llorens, Ariadna

A2 - Nagy, Balazs Vince

PB - Universitat Politecnica de Catalunya

T2 - SEFI 50th Annual Conference

Y2 - 19 September 2022 through 22 September 2022

ER -

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