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The book introduces water as a building material to build unique, responsive-able structures and define a new paradigm for architecture and sustainable design.
Architecture is based upon the misconception that strong is stable, both in sense of energy and structure, as an unchanged state of microclimate would require more material or insulation. Trans-structures are the opposite: building elements with the response-ability to change according to external conditions in order to maintain stability in terms of structure and/or energy. In this type of building, any effect (structural or thermal load) would generate an immediate affect (a response of the structure). Energy and weight would be counteracted and on a total scale, change would not occur. Such buildings are always in transition from one state to another, unlike conventional structures.
Liquid Architecture challenges the idea of architecture as a fixed, inert container and reconceptualises it as a body whose boundaries are rather blurred and ever-changing. This book moves away from form as the primary driver of spatial protocols and explores what the built environment might look like when viewed through the lenses of a ‘wet ontology’ that is attentive to fluidity, flows and territorial dynamism. A reconfiguration of architectural materials and authorship is thus considered, leading, in turn, to an exploration of the ethical dimensions of co-designing with natural systems (of various viscosities) through liquid paradigms. The book examines a set of principles for practice-led discoveries that incorporate hybrid, mixed media with the author’s intersubjective relationship with liquid matter. Drawing from qualitative-based analytical investigation models, the text allows comprehension of the liquid phenomena via material contextualisation of an ever-becoming research setting. Through a practical and theoretical engagement with the ontology of liquids, the reader is exposed to a range of design-led experiments and creative propositions, visualisation systems, construction, and testing of physical models that collectively translate into a series of novel insights for architectural agendas. This book will be of interest to architecture and design research students and academics because it advocates the need for a more symbiotic and resilient approach to natural systems, which could benefit from the integration of regenerating material flows into our buildings and urban settlements.
With contributions from a diverse team of global authors, this cutting-edge Handbook documents the impact of the study of gender and sexuality upon the foundational practices and precepts of anthropology. Providing a survey of the state-of-the-art in the field, it is essential reading for academic researchers and students of anthropology.
This volume emphasizes the fundamentals and mechanisms giving rise to flow-induced vibration of use to researchers, designers, and operators. Fluid Structure Interactions provides useful problem-solving tools, and conveys the ideas in a physically comprehensible manner. The book includes a complete bibliography of important work in the field. . The Non-linear behaviour of Fluid-Structure interactions . The possible existence of chaotic oscillations . The use of this area as a model to demonstrate new mathematical techniques This book will prove invaluable to researchers, practitioners, and students in fluid-structure interactions, flow-induced vibrations, and dynamics and vibrations.
Structures in contact with fluid flow, whether natural or man-made, are inevitably subject to flow-induced forces and flow-induced vibration: from plant leaves to traffic signs and to more substantial structures, such as bridge decks and heat exchanger tubes. Under certain conditions the vibration may be self-excited, and it is usually referred to as an instability. These instabilities and, more specifically, the conditions under which they arise are of great importance to designers and operators of the systems concerned because of the significant potential to cause damage in the short term. Such flow-induced instabilities are the subject of this book. In particular, the flow-induced instabilities treated in this book are associated with cross-flow, that is, flow normal to the long axis of the structure. The book treats a specific set of problems that are fundamentally and technologically important: galloping, vortex-shedding oscillations under lock-in conditions, and rain-and-wind-induced vibrations, among others. The emphasis throughout is on providing a physical description of the phenomena that is as clear and up-to-date as possible.
Selected peer-reviewed full text papers from the 2023 8th International Conference on Civil Engineering and Materials Science (ICCEMS 2023) and 2023 9th International Conference on Architecture, Materials and Construction (ICAMC 2023)
Introduction, concepts, definitions and methods, Pipes conveying fuid.
This timely book introduces the subject of Fluid-Structure Interactions (FSI) to students and professionals. It discusses the major ideas in FSI with the goal of providing the fundamental understanding to the readers who possess limited or no understanding of the subject. The author presents the physics of the problem, rather than focusing on the methods, and discusses the essential methods of analysis. The principle goal of Introduction to Fluid-Structure Interactions is impart to students and practitioner a physical understanding of major topics in fluid-structure interactions: axial flow problems (when the direction of the flow is parallel to the long axis of the structure) and crossflow problems (when the direction of the flow is normal to the long axis of the structure). Facilitating readers’ understanding of both categories, starting with simple 1 DOF systems and continuing to more complicated continuous flexible structures, Introduction to Fluid-Structure Interactions, is ideal for graduate students and practitioners interested in this critical field. Stands as a unique introductory volume to study Fluid-Structure Interactions (FSI); Covers aspects of FSI relevant to Fluid Mechanics, Wind Energy, Ocean Engineering, and Biomedical research; Integrates most recent findings from research on FSI; Emphasizes the physics behind the phenomena in detail; Maximizes readers understanding by beginning with fundamental concepts and developing focus to more complex systems.