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200 13$aAn introduction to modeling and simulation of particulate flows /$fT.I. Zohdi
210   $aPhiladelphia, Pa. $cSociety for Industrial and Applied Mathematics (SIAM, 3600 Market Street, Floor 6, Philadelphia, PA 19104)$d2007
215   $a1 electronic text (xvii, 176 p. : ill. (some col.)) $cdigital file
225 1 $aComputational science & engineering ;$v4
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a1-61344-320-X 
311   $a0-89871-627-6 
320   $aIncludes bibliographical references (p. 159-174) and index.
327   $aFundamentals -- Modeling of particulate flows -- Iterative solution schemes -- Representative numerical simulations -- Inverse problems/parameter identification -- Extensions to "swarm-like" systems -- Advanced particulate flow models -- Coupled particle/fluid interaction -- Simple optical scattering methods for particulate media -- Closing remarks -- Basic (continuum) fluid mechanics -- Scattering.
330 3 $aThe relatively recent increase in computational power available for mathematical modeling and simulation raises the possibility that modern numerical methods can play a significant role in the analysis of complex particulate flows. An Introduction to Modeling and Simulation of Particulate Flows focuses on basic models and physically based computational solution strategies for the direct and rapid simulation of flowing particulate media. Its emphasis is primarily on fluidized dry particulate flows in which there is no significant interstitial fluid, although fully coupled fluid-particle systems are discussed as well. An introduction to basic computational methods for ascertaining optical responses of particulate systems also is included. The successful analysis of a wide range of applications requires the simulation of flowing particulate media that simultaneously involves near-field interaction and contact between particles in a thermally sensitive environment. These systems naturally occur in astrophysics and geophysics; powder processing pharmaceutical industries; bio-, micro- and nanotechnologies; and applications arising from the study of spray processes involving aerosols, sputtering, and epitaxy. Audience: written for computational scientists, numerical analysts, and applied mathematicians, it will be of interest to civil and mechanical engineers and materials scientists. It is also suitable for first-year graduate students in the applied sciences, engineering, and applied mathematics who have an interest in the computational analysis of complex particulate flows.
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200 00$aGunpowder, explosives and the state $ea technological history /$fedited by Brenda J. Buchanan
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300   $aFirst published 2006 by Ashgate.
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327   $apt. 1. Modern perceptions and ancient knowledge -- pt. 2. The production of saltpetre and gunpowder in Europe -- pt. 3. The overseas transfer of technology from Europe -- pt. 4. Military technicalities -- pt. 5. Modern developments.
330   $aGunpowder studies are still in their infancy despite the long-standing civil and military importance of this explosive since its discovery in China in the mid-ninth century AD. In this second volume by contributors who meet regularly at symposia of the International Committee for the History of Technology (ICOHTEC), the research is again rooted in the investigation of the technology of explosives manufacture, but the fact that the chapters range in scope from the Old World to the New, from sources of raw materials in south-east Asia to the complications of manufacture in the West, shows that the story is more than the simple one of how an intriguing product was made. This volume is the first to develop the implications of the subject, not just in the sense of relating it to changing military technologies, but in that of seeing the securing of gunpowder supplies as fundamental to the power of the state and imperial pretensions.The search for saltpetre, for example, an essential ingredient of gunpowder, became a powerful engine of sea-going European trade from the early seventeenth century. Smaller states like Venice were unable to form these distant connections, and so to sustain a gunpowder army. Stronger states like France and Britain were able to do so, and became even more powerful as the demand for improved explosives fostered national strengths - leading to a development of the sciences, especially chemistry, in the former case, and of manufacturing techniques in the latter.
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