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"Although thermal comfort is the main topic of this book, the sense of comfort is so integral to our general sense of well-being and how we experience buildings that research in this field has expanded to address that larger picture. As such, experts from different fields have contributed in their own respective ways to the overall understanding of the subject. This is the first time that these diverse views have been brought together and additionally, an attempt is made to define the field for the future"--
Architecture --- Human comfort. --- Technology and engineering
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This book offers new engineers and engineering students appropriate and effective strategies to find data, statistics, and research to support decision making. The authors describe the utility of solid reputable sources and help readers go beyond reliance on the quick Internet search, a habit which is often both inadequate to complex tasks and a source of criticism from employers. Some sources are free; others are available through libraries, or by purchase or subscription. This title can be used as a guide in concert with the advice of professors and colleagues, and potentially as a textbook. The examples are primarily from chemical and agricultural engineering, but the strategies could be adapted to other disciplines. An array of sources are shown, ranging from scholarly or professional societies, data sources, and books, to handbooks and journal sources, and less commonly used credible government documents and Web resources, including information from the USDA, the EPA and the DOE. Two case studies show research processes and the application of the underlying strategies and some of the tools.
Engineering. --- Biophysics. --- Chemistry. --- Technology and Engineering.
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How do the perspectives of an interested citizen, an engineer, and a cyberneticist differ on a robot? This introduction to the world of cybernetics provides the basics and discusses the most important thought leaders, models as well as theories. Practical examples from a variety of fields (biology, ecology, engineering, society, and politics) are used to illustrate the basics. Readers are prompted to reflect by questions at the end of the chapters, and the author does not owe the answers. A central theme in all cybernetic considerations and guiding theme of the book are information exchange and communication. The target group Students from technical, scientific, and interdisciplinary courses of study Lecturers with courses on cybernetics/System Dynamics Readers interested in the facets of cybernetics The Author Dr.-Ing. E. W. Udo Küppers studied engineering in Düsseldorf and Berlin. After scientific activities in research institutions and participation in international R&D projects, he has been leading the independent research group Küppers-Systemdenken since 2001. The translation was done with the help of artificial intelligence. A subsequent human revision was done primarily in terms of content.
Engineering. --- Physical geography. --- Technology and Engineering. --- Earth System Sciences. --- Cybernetics.
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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.
Engineering. --- Social sciences. --- Education. --- Religion. --- History. --- Technology and Engineering. --- Society.
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This book presents a cultural perspective on scientific and technological development. As opposed to the "story-lines" of economic innovation and social construction that tend to dominate both the popular and scholarly literature on science, technology and society (or STS), the authors offer an alternative approach, devoting special attention to the role played by social and cultural movements in the making of science and technology. They show how social and cultural movements, from the Renaissance of the late 15th century to the environmental and global justice movements of our time, have provided contexts, or sites, for mixing scientific knowledge and technical skills from different fields and social domains into new combinations, thus fostering what the authors term a "hybrid imagination." Such a hybrid imagination is especially important today, as a way to counter the competitive and commercial "hubris" that is so much taken for granted in contemporary science and engineering discourses and practices with a sense of cooperation and social responsibility. The book portrays the history of science and technology as an underlying tension between hubris -- literally the ambition to "play god" on the part of many a scientist and engineer and neglect the consequences - and a hybrid imagination, connecting scientific "facts" and technological "artifacts" with cultural understanding. The book concludes with chapters on the recent transformations in the modes of scientific and technological production since the Second World War and the contending approaches to "greening" science and technology in relation to the global quest for sustainable development. The book is based on a series of lectures that were given by Andrew Jamison at the Technical University of Denmark in 2010 and draws on the authors' many years of experience in teaching non-technical, or contextual knowledge, to science and engineering students. The book has been written as part of the Program of Research on Opportunities and Challenges in Engineering Education in Denmark (PROCEED) supported by the Danish Strategic Research Council from 2010 to 2013. Table of Contents: Introduction / Perceptions of Science and Technology / Where Did Science and Technology Come From? / Science, Technology and Industrialization / Science, Technology and Modernization / Science, Technology and Globalization / The Greening of Science and Technology.
Engineering. --- Social sciences. --- Education. --- Religion. --- History. --- Technology and Engineering. --- Society.
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In A Philosophy of Technology: From Technical Artefacts to Sociotechnical Systems, technology is analysed from a series of different perspectives. The analysis starts by focussing on the most tangible products of technology, called technical artefacts, and then builds step-wise towards considering those artefacts within their context of use, and ultimately as embedded in encompassing sociotechnical systems that also include humans as operators and social rules like legislation. Philosophical characterisations are given of technical artefacts, their context of use and of sociotechnical systems. Analyses are presented of how technical artefacts are designed in engineering and what types of technological knowledge is involved in engineering. And the issue is considered how engineers and others can or cannot influence the development of technology. These characterisations are complemented by ethical analyses of the moral status of technical artefacts and the possibilities and impossibilities for engineers to influence this status when designing artefacts and the sociotechnical systems in which artefacts are embedded. The running example in the book is aviation, where aeroplanes are examples of technical artefacts and the world aviation system is an example of a sociotechnical system. Issues related to the design of quiet aeroplane engines and the causes of aviation accidents are analysed for illustrating the moral status of designing, and the role of engineers therein. Table of Contents: Technical Artefacts / Technical Designing / Ethics and Designing / Technological Knowledge / Sociotechnical Systems / The Role of Social Factors in Technological Development / Ethics and Unintended Consequences of Technology.
Engineering. --- Social sciences. --- Education. --- Religion. --- History. --- Technology and Engineering. --- Society.
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A response of the engineering profession to the challenges of security, poverty and underdevelopment, environmental sustainability, and native cultures is described. Ethical codes, which govern the behavior of engineers, are examined from a historical perspective linking the prevailing codes to models of the natural world. A new ethical code based on a recently introduced model of Nature as an integral community is provided and discussed. Applications of the new code are described using a case study approach. With the ethical code based on an integral community in place, new design algorithms are developed and also explored using case studies. Implications of the proposed changes in ethics and design on engineering education are considered. Table of Contents: Preface / Acknowledgments / Introduction / Engineering Ethics / Models of the Earth / Engineering in a Morally Deep World / Engineering Design in a Morally Deep World / Implications for Engineering Education / Final Thoughts / References / Author's Biography.
Engineering. --- Social sciences. --- Education. --- Religion. --- History. --- Technology and Engineering. --- Society.
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The profession of engineering in the United States has historically served the status quo, feeding an ever-expanding materialistic and militaristic culture, remaining relatively unresponsive to public concerns, and without significant pressure for change from within. This book calls upon engineers to cultivate a passion for social justice and peace and to develop the skill and knowledge set needed to take practical action for change within the profession. Because many engineers do not receive education and training that support the kinds of critical thinking, reflective decision-making, and effective action necessary to achieve social change, engineers concerned with social justice can feel powerless and isolated as they remain complicit. Utilizing techniques from radical pedagogies of liberation and other movements for social justice, this book presents a roadmap for engineers to become empowered and engage one another in a process of learning and action for social justice and peace. Table of contents: What Do we Mean by Social Justice? / Mindsets in Engineering / Engineering and Social Injustice / Toward a More Socially Just Engineering / Turning Knowledge into Action: Strategies for Change / Parting Lessons for the Continuing Struggle.
Engineering. --- Social sciences. --- Education. --- Religion. --- History. --- Technology and Engineering. --- Society.
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Mining has been entangled with the development of communities in all continents since the beginning of large-scale resource extraction. It has brought great wealth and prosperity, as well as great misery and environmental destruction. Today, there is a greater awareness of the urgent need for engineers to meet the challenge of extracting declining mineral resources more efficiently, with positive and equitable social impact and minimal environmental impact. Many engineering disciplines—from software to civil engineering—play a role in the life of a mine, from its inception and planning to its operation and final closure. The companies that employ these engineers are expected to uphold human rights, address community needs, and be socially responsible. While many believe it is possible for mines to make a profit and achieve these goals simultaneously, others believe that these are contradictory aims. This book narrates the social experience of mining in two very different settings—Papua New Guinea and Western Australia—to illustrate how political, economic, and cultural contexts can complicate the simple idea of "community engagement." Table of Contents: Preface / Mining in History / The Ok Tedi Mine in Papua New Guinea / Mining and Society in Western Australia / Acting on Knowledge / References / Author Biographies.
Engineering. --- Social sciences. --- Education. --- Religion. --- History. --- Technology and Engineering. --- Society.
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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: Introduction / Throwing Away Rubbish / Turning on the Tap / Awakened by an Alarm Clock / Driving the SUV / Travelling to Waikiki Beach.
Engineering. --- Social sciences. --- Education. --- Religion. --- History. --- Technology and Engineering. --- Society.
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