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The study of ancient metals in their social and cultural contexts has been a topic of considerable interest in archaeology and ancient history for decades, partly due to the modern dependence on technology and man-made materials. The formal study of Archaeometallurgy began in the 1970s-1980s, and has seen a recent growth in techniques, data, and theoretical movements. This comprehensive sourcebook on Archaeometallurgy provides an overview of earlier research as well as a review of modern techniques, written in an approachable way. Covering an extensive range of archaeological time-periods and regions, this volume will be a valuable resource for those studying archaeology worldwide. It provides a clear, straightforward look at the available methodologies, including: • Smelting processes • Slag analysis • Technical Ceramics • Archaeology of Mining and Field Survey • Ethnoarchaeology • Chemical Analysis and Provenance Studies • Conservation Studies With chapters focused on most geographic regions of Archaeometallurgical inquiry, researchers will find practical applications for metallurgical techniques in any area of their study. Ben Roberts is a specialist in the early metallurgy and later prehistoric archaeology of Europe. He was the Curator of the European Copper and Bronze Age collections at the British Museum between 2007 and 2012 and is now a Lecturer in Prehistoric Europe in the Departm ent of Archaeology at the Durham University, UK. Chris Thornton is a specialist in the ancient metallurgy of the Middle East, combining anthropological theory with archaeometrical analysis to understand the development and diffusion of metallurgical technologies throughout Eurasia. He is currently a Consulting Scholar of the University of Pennsylvania Museum, where he received his PhD in 2009, and the Lead Program Officer of research grants at the National Geographic Society.
Business-as-usual in terms of industrial and technological development – even if based on a growing fear of pollution and shortages of natural resources – will never deliver sustainable development. However, the growing interest in recent years in the new science of industrial ecology (IE), and the idea that industrial systems should mimic the quasi-cyclical functions of natural ecosystems in an 'industrial food chain', holds promise in addressing not only short-term environmental problems but also the long-term holistic evolution of industrial systems. This possibility requires a number of key conditions to be met, not least the restructuring of our manufacturing and consumer society to reduce the effects of material and energy flows at the very point in history when globalisation is rapidly increasing them. This book sets out to address the theoretical considerations that should be made implicit in future research as well as practical implementation options for industry. The systematic recovery of industrial wastes, the minimisation of losses caused by dispersion, the dematerialisation of the economy, the requirement to decrease our reliance on fuels derived from hydrocarbons and the need for management systems that help foster inter-industry collaboration and networks are among the topics covered. The book is split into four sections. First, the various definitions of IE are outlined. Here, important distinctions are made between industrial metabolism and IE. Second, a number of different industrial sectors, including glass, petroleum and electric power, are assessed with regard to the operationalisation of industrial ecology. Eco-industrial Parks and Networks are also analysed. Third, the options for overcoming obstacles that stand in the way of the closing of cycles such as the separation and screening of materials are considered and, finally, a number of implications for the future are assessed. The contributions to Perspectives on Industrial Ecology come from the leading thinkers working in this field at the crossroads between a number of different disciplines: engineering, ecology, bio-economics, geography, the social sciences and law.
A study which provides valuable insights into the nature of metal production and the development of technology and political economy in ancient Mesoamerica, offering a contribution to general anthropological theories of the emergence of social complexity.
Presenting the latest in archaeometallurgical research in a Mesoamerican context, Archaeometallurgy in Mesoamerica brings together up-to-date research from the most notable scholars in the field. These contributors analyze data from a variety of sites, examining current approaches to the study of archaeometallurgy in the region as well as new perspectives on the significance metallurgy and metal objects had in the lives of its ancient peoples. The chapters are organized following the cyclical nature of metals--beginning with extracting and mining ore, moving to smelting and casting of finished objects, and ending with recycling and deterioration back to the original state once the object is no longer in use. Data obtained from archaeological investigations, ethnohistoric sources, ethnographic studies, along with materials science analyses, are brought to bear on questions related to the integration of metallurgy into local and regional economies, the sacred connotations of copper objects, metallurgy as specialized crafting, and the nature of mining, alloy technology, and metal fabrication.
Theory and Methods of Metallurgical Process Integration analyzes the basic elements and characteristics of steel manufacturing processes and operation, also proposing a theory of precise dynamic design and integration of steel plants. Following several case studies, a new generation steel manufacturing process is proposed. Through deep description and analysis of the dynamic operation of the steel manufacturing process, this book can help readers understand that the study of dynamic integration for the "mass-energy-time-space-information" during the steel manufacturing process has to be highly emphasized in order to further promote optimization of the steel manufacturing process and plant. - Extends the research methodology and future direction of the metallurgical process - Concentrates on the study of the physical essence and the running rules of the dynamic operation of the steel manufacturing process - Summarizes six rules for the dynamic operation of the steel manufacturing process for newly-built or existing steel plants, which provides useful guidance for engineering design, production technology, and production and technology management
China is emerging as one of the economic giants of the world, and is gaining international influence and global leadership that commensurate with its rise. China's performance will have far-reaching consequences on whether the economic awakening of the country, which began more than three decades ago, can become a good model to be emulated by other developing economies.This book is a collection of policy papers and data-sets for the 34 Greater China economies. With a comprehensive approach to competitiveness, the research by Asia Competitiveness Institute (ACI) at Lee Kuan Yew School of Public Policy, National University of Singapore, takes into account different factors that collectively shape the ability of a nation to achieve substantial and inclusive economic development over a sustained period of time.ACI's methodology goes beyond rankings as it conducts policy simulations on how each economy can improve its competitiveness. These policy simulations are a compelling value-added proposition as they enable policymakers, industry leaders and administrators to identify relative challenges and opportunities, and to prioritise areas in crafting public policies and development strategies.
The Extraction and Refining of Metals provides a novel approach to the science and technology of both ferrous and non-ferrous metal production. Rather than the traditional treatment in which one metal at a time is considered, this new approach, which examines several metals at a time, reveals more clearly the versatility and limitations of each of the main types of process. The restrictions imposed on the selection of the process routes by thermodynamic and kinetic factors and by economic and environmental constraints are examined in detail. The conservation of energy and materials is emphasized and illustrated by the description of new and improved extraction methods. The types of mathematical models that are being developed for computer control of production operations are indicated, and worked examples demonstrate relevant thermodynamic and mass balance calculations.