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Presents topics intended to aid the practicing engineer in reflecting on the nature and purpose of their practice within the engineering profession and how that is related to and implicated in social, economic and political issues. This volume includes external relations between engineering, economic systems and social and political practices, as well as power structures and working conditions within an organisation.
Engineers, Technology and Society presents topics intended to aid the practicing engineer in reflecting upon the nature and purpose of their own practice within the engineering profession and how that is related to and implicated in social, economic and political issues. The series will include external relations between engineering, economic systems and social and political practices, as well as power structures and working conditions within the organisation. In an increasingly competitive and hostile environment in which practicing engineers are forced to spend their lives fighting for higher profit margins, many engineers become despondent and often leave the profession just a few years after graduation. They do not feel they are engineering for those in need in the world but for a small minority who can pay. There are an increasing number of engineers in the workplace who feel dissatisfied with these issues but do not know where to begin to address them. It is hoped that these books will start a conversation in many parts of the world where diverse engineers are working. This introductory book of the series presents an overview of the key issues at stake. I consider how, as engineers, we might decide what is the right thing to do by exploring rights and notions of freedom and what these might mean in a world where we are, according to some, ‘training for compliance’. I consider engineering in the past and how it has been used to contribute to social contexts in the Western world as well as in developing countries. I look at our responsibility as engineers to learn from the past to enhance our understanding and take appropriate action related to contemporary industrial development and globalization. Finally, I present a case study of my own engineering for others to critique. Practicing what you preach is never easy and living as a just engineer presents many challenges. As Ursula Franklin states clearly in her Massey lectures which I discuss in chapter 1, engineers have choices; it is up to us to ensure that we are aware of the way in which our engineering practice contributes to global social, economic and political issues so that we are able to make response – able choices.
Over the last two decades, globalization has had a profound impact on how we view the world and its sustainability. One group of professionals that lies at the heart of sustainability is the engineers. Engineers are trained problem solvers, required to implement technical solutions and are at the forefront of the development of new technologies. Although engineers play a critical role in sustainability, traditional engineering programs typically only focus on the technocentric and ecocentric dimensions of sustainability, providing little training on the sociocentric dimension. With more and more interest in sustainability, it is becoming increasingly important to also provide engineers with an awareness of sociocentric issues and the necessary skills to address them. The aim of this book is to provide engineering educators with a real-life case study that can be brought into existing courses to help bridge the gap between engineering and the global world. The case study focuses on how our engineering study of different natural plant fibers for soil erosion control led us to small villages in Kerala, India, where marginalized women workers often stand waste deep in water several hours a day, clean and beat coconuts by hand, and separate and spin coconut (coir) fibers into yarn by hand, for very low wages. The case study provides insight into the three dimensions of sustainability (technocentric, ecocentric, and sociocentric) and how they come together in a typical engineering problem. Table of Contents: Reinforcing the Classroom / Natural Plant Fibers for Engineering Applications: Technocentric and Ecocentric Dimensions of Sustainability / The Coir Fiber Industry in Kerala, India: Sociocentric Dimension of Sustainability / Case Study / Conclusion / Bibliography
The Global Engineers: Building a Safe and Equitable World Together, is inspired by the opportunities for engineers to contribute to global prosperity. This book presents a vision for Global Engineering, and identifies that engineers should be concerned with the unequal and unjust distribution of access to basic services, such as water, sanitation, energy, food, transportation, and shelter. As engineers, we should place an emphasis on identifying the drivers, determinants, and solutions to increasing equitable access to reliable services. Global Engineering envisions a world where everyone has safe water, sanitation, energy, food, shelter, and infrastructure, and can live in health, dignity, and prosperity. This book seeks to examine the role and ultimately the impact of engineers in global development. Engineers are solutions-oriented people. We enjoy the opportunity to identify a product or need, and design appropriate technical solutions. However, the structural and historical barriers to global prosperity requires that Engineers focus more broadly on improving the tools and practice of poverty reduction and that we include health, economics, policy, and governance as relevant expertise with which we are conversant. Engineers must become activists and advocates, rejecting ahistorical technocratic approaches that suggest poverty can be solved without justice or equity. Engineers must leverage our professional skills and capacity to generate evidence and positive impact toward rectifying inequalities and improving lives. Half of this book is dedicated to profiles of engineers and other technical professionals who have dedicated their careers to searching for solutions to global development challenges. These stories introduce the reader to the diverse opportunities and challenges in Global Engineering.
Global engineering offers the seductive image of engineers figuring out how to optimize work through collaboration and mobility. Its biggest challenge to engineers, however, is more fundamental and difficult: to better understand what they know and value qua engineers and why. This volume reports an experimental effort to help sixteen engineering educators produce ""personal geographies"" describing what led them to make risky career commitments to international and global engineering education. The contents of their diverse trajectories stand out in extending far beyond the narrower image of producing globally-competent engineers. Their personal geographies repeatedly highlight experiences of incongruence beyond home countries that provoked them to see themselves and understand their knowledge differently. The experiences were sufficiently profound to motivate them to design educational experiences that could challenge engineering students in similar ways. For nine engineers, gaining new international knowledge challenged assumptions that engineering work and life are limited to purely technical practices, compelling explicit attention to broader value commitments. For five non-engineers and two hybrids, gaining new international knowledge fueled ambitions to help engineering students better recognize and critically examine the broader value commitments in their work. A background chapter examines the historical emergence of international engineering education in the United States, and an epilogue explores what it might take to integrate practices of critical self-analysis more systematically in the education and training of engineers. Two appendices and two online supplements describe the unique research process that generated these personal geographies, especially the workshop at the U.S. National Academy of Engineering in which authors were prohibited from participating in discussions of their manuscripts. Table of Contents: The Border Crossers: Personal Geographies of International and Global Engineering Educators (Gary Lee Downey) / From Diplomacy and Development to Competitiveness and Globalization: Historical Perspectives on the Internationalization of Engineering Education (Brent Jesiek and Kacey Beddoes) / Crossing Borders: My Journey at WPI (Rick Vaz) / Education of Global Engineers and Global Citizens (E. Dan Hirleman) / In Search of Something More: My Path Towards International Service-Learning in Engineering Education (Margaret F. Pinnell) / International Engineering Education: The Transition from Engineering Faculty Member to True Believer (D. Joseph Mook) / Finding and Educating Self and Others Across Multiple Domains: Crossing Cultures, Disciplines, Research Modalities, and Scales (Anu Ramaswami) / If You Don't Go, You Don't Know (Linda D. Phillips) / A Lifetime of Touches of an Elusive ""Virtual Elephant"": Global Engineering Education (Lester A. Gerhardt) / Developing Global Awareness in a College of Engineering (Alan Parkinson) / The Right Thing to Do: Graduate Education and Research in a Global and Human Context (James R. Mihelcic) / Author Biographies
This book, Engineering and Sustainable Community Development, presents an overview of engineering as it relates to humanitarian engineering, service learning engineering, or engineering for community development, often called sustainable community development (SCD). The topics covered include a history of engineers and development, the problems of using industry-based practices when designing for communities, how engineers can prepare to work with communities, and listening in community development. It also includes two case studies -- one of engineers developing a windmill for a community in India, and a second of an engineer "mapping communities" in Honduras to empower people to use water effectively -- and student perspectives and experiences on one curricular model dealing with community development. Table of Contents: Introduction / Engineers and Development: From Empires to Sustainable Development / Why Design for Industry Will Not Work as Design for Community / Engineering with Community / Listening to Community / ESCD Case Study 1: Sika Dhari's Windmill / ESCD Case Study 2: Building Organizations and Mapping Communities in Honduras / Students' Perspectives on ESCD: A Course Model / Beyond Engineers and Community: A Path Forward
Part II: Engineering Decisions in the 21st Century Engineers work in an increasingly complex entanglement of ideas, people, cultures, technology, systems and environments. Today, decisions made by engineers often have serious implications for not only their clients but for society as a whole and the natural world. Such decisions may potentially influence cultures, ways of living, as well as alter ecosystems which are in delicate balance. In order to make appropriate decisions and to co-create ideas and innovations within and among the complex networks of communities which currently exist and are shaped by our decisions, we need to regain our place as professionals, to realise the significance of our work and to take responsibility in a much deeper sense. Engineers must develop the 'ability to respond' to emerging needs of all people, across all cultures. To do this requires insights and knowledge which are at present largely within the domain of the social and political sciences but which need to be shared with our students in ways which are meaningful and relevant to engineering. This book attempts to do just that. In Part 1 Baillie introduces ideas associated with the ways in which engineers relate to the communities in which they work. Drawing on scholarship from science and technology studies, globalisation and development studies, as well as work in science communication and dialogue, this introductory text sets the scene for an engineering community which engages with the public. In Part 2 Catalano frames the thinking processes necessary to create ethical and just decisions in engineering, to understand the implications of our current decision making processes and think about ways in which we might adapt these to become more socially just in the future. In Part 3 Baillie and Catalano have provided case studies of everyday issues such as water, garbage and alarm clocks, to help us consider how we might see through the lenses of our new knowledge from Parts 1 and 2 and apply this to our everyday existence as engineers. Table of Contents: Making Decisions in the 21st Century / Ethics / Landmines and the War in Iraq / Hurricane Katrina and the Flooding of New Orleans / Disappearing Bumble Bees / Engineering and Traditional Approaches / Engineering and Freedom / Engineering and Chaos / Engineering and a Morally Deep World / Engineering and Globalism / Engineering and Love / Case Study Application / Final Thoughts
This inclusive cross-cultural study rethinks the nexus between engineering education and context. In so doing the book offers a reflection on contextual boundaries with an overall boundary crossing ambition and juxtaposes important cases of critical participation within engineering education with sophisticated scholarly reflection on both opportunities and discontents. Whether and in what way engineering education is or ought to be contextualized or de-contextualized is an object of heated debate among engineering educators. The uniqueness of this study is that this debate is given comprehensive coverage – presenting both instrumentally inclined as well as radical positions on transforming engineering education. In contextualizing engineering education, this book offers diverse commentary from a range of disciplinary, meta- and interdisciplinary perspectives on how cultural, professional, institutional and educational systems contexts shape histories, structural dynamics, ideologies and challenges as well as new pathways in engineering education. Topics addressed include examining engineering education in countries ranging from India to America, to racial and gender equity in engineering education and incorporating social awareness into the area. Using context as “bridge” this book confronts engineering education head on. Contending engineering ideologies and corresponding views on context are juxtaposed with contending discourses of reform. The uniqueness of the book is that it brings together scholars from the humanities, the social sciences and engineering from Europe – both East and West – with the United States, China, Brazil, India and Australia.
Hoping to help transform engineering into a more socially just field of practice, this book offers various perspectives and strategies while highlighting key concepts and themes that help readers understand the complex relationship between engineering education and social justice. This volume tackles topics and scopes ranging from the role of Buddhism in socially just engineering to the blinding effects of ideologies in engineering to case studies on the implications of engineered systems for social justice. This book aims to serve as a framework for interventions or strategies to make social justice more visible in engineering education and enhance scholarship in the emerging field of Engineering and Social Justice (ESJ). This creates a ‘toolbox’ for engineering educators and students to make social justice a central theme in engineering education. ​