Still the Iron Age Iron and Steel in the Modern World Vaclav Smil Table of Contents Cover image Title page Copyright Preface and Acknowledgments Previous Works by The Author Chapter 1. Iron and Steel Before the Eighteenth Century: Slow Adoption, Artisanal Production, and Scaling-Up Abstract Bloomery Iron Blast Furnaces Charcoal Premodern Steel Chapter 2. Rise of Modern Ferrous Metallurgy, 1700–1850: Coke, Blast Furnaces, and Expensive Steel Abstract European and British Ironmaking before 1750 British Transition to Coke Larger Furnaces and Hot Blast Wrought Iron Chapter 3. Iron and Steel Before WW I, 1850–1914: The Age of Affordable Steel Abstract Blast Furnaces Inexpensive Steel: Bessemer Converters and Open Hearths New Markets for Steel Steel in Transportation and Construction Chapter 4. A Century of Advances, 1914–2014: Changing Leadership in Iron and Steel Industry Abstract From WW I to the End of WW II America’s Postwar Retreat Japan in the Lead Chinese Dominance Chapter 5. Modern Ironmaking and Steelmaking: Furnaces, Processes, and Casting Abstract New Blast Furnaces Direct Reduced Iron Basic Oxygen Furnaces Electric Arc Furnaces Continuous Casting Diffusion and Improvements Chapter 6. Materials in Modern Iron and Steel Production: Ores, Coke, Fluxes, Scrap, and Other Inputs Abstract Materials for BFS and BOFS Material Balances of Integrated Steelmaking Steel Scrap Material Balances of EAFs Chapter 7. Energy Costs and Environmental Impacts of Iron and Steel Production: Fuels, Electricity, Atmospheric Emissions, and Waste Streams Abstract Energy Accounting Energy Cost of Steelmaking Air and Water Pollution and Solid Wastes Life Cycle Assessments Chapter 8. Ubiquitous Uses of Steel: Sectoral Consumption and the Quest for Quality Abstract Infrastructures and Buildings Fuels and Electricity Transportation Industrial Equipment and Consumer Products Chapter 9. Looking Back: Advances, Flows and Stocks Abstract A Century and a Half of Modern Steel Industry’s State Flows and Consumption Rates Steel Stocks Chapter 10. Looking Ahead: The Future of Iron and Steel Abstract Substitutions Dematerialization New Processes Future Requirements Appendix A. Units and Their Multiples and Submultiples Basic SI Units Other Units Used in the Text Multiples Used in the SI Submultiples Used in the SI Appendix B. Some Basic Terms Appendix C. Global and National Production of Pig Iron and Steel, 1800–2015 Appendix D. Production of Crude Steel, 1900–2014 (All figures in Mt/year) References Index Copyright Butterworth-Heinemann is an imprint of Elsevier The Boulevard, Langford Lane, Kidlington, Oxford OX5 1GB, UK 50 Hampshire Street, 5th Floor, Cambridge, MA 02139, USA Copyright © 2016 Elsevier Inc. All rights reserved. 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For Information on all Butterworth-Heinemann publications visit our website at http://store.elsevier.com/ Preface and Acknowledgments My books are expressions of my preference for writing about fundamental realities, be they natural or anthropogenic, and their complex interactions. That is why I have written extensively on the Earth’s biosphere and its transformations by humans, on production of foods and changing diets, on energy resources and on material foundations of our civilization. Besides dealing with these matters in systematic, universal and generalized manner (the best example would be General Energetics, Global Ecology, Feeding the World, Energy in Nature and Society, Harvesting the Biosphere and Making the Modern World) I have taken some closer looks, writing books focusing on specific fundamentals of modern civilization: on wood and other biofuels (Biomass Energies), oil (Oil: A Beginner’s Guide), natural gas (Natural Gas: Fuel for the 21st Century), ammonia (Enriching the Earth), Diesel engines and gas turbines (Prime Movers of Globalization), and meat (Should We Eat Meat?). This book is simply a continuation of my efforts to deal with such fundamental realities and it has been on my list of to do items since the early 1990s when I began to study the long history and remarkable accomplishments of iron smelting and steel making. Those who appreciate the physical foundations of modern societies do not need any convincing about the topic’s importance. Those who think that mobile phones and Facebook and Twitter accounts are the fundamentals as well as the pinnacles of modern civilization might find the book about iron and steel inexplicably antiquated: their realities appear to be purely silicon-based. But that, of course, demonstrates deep lack of understanding of how the world works. Modern civilization could exist quite well without mobile phones and “social media”; indeed, in the first instance it did so until the 1990s (beginning of large-scale adoption of cellphones) and in the second instance until the late 2000s (when the Facebook membership took off). In contrast, none of its great accomplishments—its surfeit of energy, its abundance of food, its high quality of life, its unprecedented longevity and mobility and, indeed, its electronic infatuations—would be possible without massive smelting of iron and production (and increasingly also recycling) of steel. In the 1830s Danish archeologist Christian Jürgensen Thomsen (1788–1865) distinguished three great civilization eras based on their dominant hard materials, with the Bronze Age following the Stone Age and preceding the Iron Age (Thomsen, 1836). Transition from stone to bronze began about 3300 BCE in the Near East and just a bit later in Europe, the onset of Iron Age was around 1200 BCE but it took another 700–1000 years before the metal became dominant throughout Asia and Europe. When Thomsen made his division, the Iron Age was mostly 2000–2500 years old, but the time of the greatest dependence on the metal was still to come, and at the beginning of the twenty-first century no other material has emerged to end that dominance. Ours is—still and more than ever— the Iron Age although most of the metal is now deployed as many varieties of steel, alloys of iron and carbon (typically less than 2% C) and often of other metals that impart many desirable qualities absent in pure elemental iron. The great nineteenth-century surge in iron smelting and steel production continued during the twentieth century as the long-lasting US technical leadership shifted to Japan after 1960. Four decades later the rapid expansion of China’s economy brought the iron and steel output to unprecedented levels during the first decade of the twenty-first century. By 2015 iron ore extraction was more than 2 billion tonnes (Gt), the mass surpassed only by the annual output of fossil fuels and bulk construction materials; pig (cast) iron production (smelting of iron ores in blast furnaces) rose to more than 1 Gt; and the global steel output (from pig iron or from recycled metal) reached about 1.7 Gt. That output was about 60 times higher than in 1900, and roughly 20 times larger than the aggregate smelting of aluminum, copper, zinc, lead and tin. And in per capita terms worldwide steel output rose by an order of magnitude, from 20 kg/year in 1900 to about 230 kg/year by 2010. Perhaps the best way to stress the importance of steel in modern society is to note that so many components, parts, machines and assemblies are made of steel and that just about everything around us is made or moved with it. Although naked steel is not uncommon—ranging from such small items as needles, pins, nails, construction, laboratory and medical tools to slender broadcasting towers, wires, cables, rails and bridge spans and girders—most of the metal incorporated in modern products is hidden (inside structures as reinforcing bars in concrete, skeletons of large buildings, inside machines as engines and turbines or underground in piles, pipelines, tunnels and mine props) or covered by layers of paint (welded ship hulls, construction machinery, cars, appliances, storage tanks). The list of items and services whose reliability and affordability have been