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Lightweight Structural Concrete Incorporating Volcanic Materials for Sustainable ConstructionBy Khandaker M. Anwar Hossain
This paper presents the development of lightweight concrete (LWC) incorporating pumice aggregate and volcanic ash (VA) based ASTM Type I blended cement (PVAC). Fresh and mechanical properties of LWC m
Jan 1, 2010
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Lighweight Materials for the Automotive: Environmental Impact Analysis of the Use of CompositesBy Karel Van Acker
The automotive is a sector where energy consumption during the use phase prevails over the production and the end-of-life phase. Therefore, a lot of research and innovations at replacing classical ste
Jan 1, 2010
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Lignite and North Dakota A Cautious Response to Accelerated Mining DemandsBy John D. Wiebmer
Lignite Development in North Dakota is a "shotgun wedding" according to former state senator Robert L. Stroup-the unwilling groom (North Dakota) is being led to the altar by the nation's demand f
Jan 8, 1977
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Lignite and SustainabilityBy K. Häge
"Die Nachhaltigkeit der Braunkohlengewinnung in der öffentlichen Wahrnehmung wird nur weiter erfolgreich kommuniziert werden können, wenn durch konkretes Handeln glaubhaft gezeigt wird, dass die offen
Jan 1, 2005
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Lignite In Greece - IntroductionBy Albert L. Toenges
EARLY in 1949, the Economic Cooperation Administration requested the Bureau of Mines to assign a coal-mining engineer to study milling conditions in Greek lignite mines; to make recommendations for th
Jan 1, 1951
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Lignite In The NorthwestAn extended investigation by the chief engineer of the Bureau of Mines shows that North Dakota has immense beds of lignite. War conditions have stimulated the use of North Dakota lignite until it is n
Jan 8, 1919
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Lignite MiningBy A. S. Kane
According to the 1966 Bureau of Mines Mineral Year Book only three states reported production of lignite in that year. These state: were North Dakota, Montana, and South Dakota; although it is known t
Jan 1, 1968
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Lignite Mining at German Democratic Republic with Special Consideration of Overburden Conveyor Bridges (OCB) and Direct Dumping Combinations (XPS)The GDR has extensive lignite deposits at its disposal, which formed the basis for the development of an independent energy source after 1945 and which will retain their significance well beyond th
Jan 1, 1989
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Lignite Open Pit Mining 1985 - Can Dewatering Defeat The Economics? ? IntroductionBy Rudolf Voigt
Lignite reserves occur all over the world in different climatic regions. This means, that the impact of the hydrologic regime upon mining activities and, vice versa, of the mining activities upon grou
Jan 1, 1985
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Lignite Quality Estimation Using Artificial Neural Networks (ANN) And Adaptive Neuro-Fuzzy Inference Systems (ANFIS).By Konstantinos Theodoridis, Michael Galetakis, Olga Kouridou
Recent advances in Artificial Neural Networks (ANN) and Adaptive Neuro-Fuzzy Inference Systems (ANFIS) have provided a new approach to the estimation of related quality characteristics, such as heatin
Jan 1, 2002
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Lignite/Coal Injection System Installed at the Arbed Esch-Belval Works in LuxembourgBy Bernard G, Limpach R, Ulveling L
A major aspect in competitive ironmaking is to replace metallurgical coke by injecting alternative cheap fuels. Whereas in the past, heavy oil injection as well as on a lower scale natural gas inj
Jan 1, 1981
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Lihir Gold Five Years On ù Maximising Throughput and Capital UtilisationDuring the first five years of operation, the Lihir gold mine has steadily increased plant throughput rate to over 4 Mtpa, well above the original design capacity of 2.8 Mtpa. Understanding how future
Jan 1, 2003
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Lihir Gold Limited - A Large Step Forward for the Lihir Gold OperationBy D Akis, A Clark
The Lihir gold operation, located in the New Ireland Province of Papua New Guinea (PNG), approximately 900 km north of Port Moresby, was commissioned in 1997 under the management of the Lihir Manageme
Jan 1, 2009
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Like Liquid Gold ù Towards a Resource Industry Position on WaterLaunching the Queensland Water Plan 2005 - 2010 in August 2005, Premier Peter Beattie compared the stateÆs water resources with liquid gold. QueenslandÆs peak industry body for the minerals and energy
Jan 1, 2006
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Likely Directions In Deep Ocean Mining To 2010By David Heydon
The big money is backing both manganese nodules and manganese crusts as the most likely deep ocean mining development by 2010, but seafloor massive sulphides of copper/gold/zinc offer an alternative b
Jan 1, 2004
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LimeBy Kenneth A. Gutschick, Robert S. Boynton
Lime has become a general and loosely used term to denote almost any kind of calcareous material or finely divided form of limestone or dolomite, as well as burned forms of lime. However, according to
Jan 1, 1975
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Lime (33660b7b-4e2d-4133-8f2c-3c5b7f0afd2f)By Kenneth A. Gutschick, Robert S. Boynton
Lime has become a very general loosely used term that includes virtually all finely divided types of limestone as well as burned forms of lime. However, actually (and according to Webster) lime is onl
Jan 1, 1960
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Lime (4be0a373-3093-45dd-99da-38e2a300e547)By Nathan C. Rockwood
LIME is a very general term applied to products of limestone, in popular treatises often incorrectly, including ground or pulverized limestone used in agriculture. When used without qualifying adjecti
Jan 1, 1949
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Lime (a20d3a64-d0fb-4f5d-96ac-5a4197a3dcf3)By Jeffrey L. Thompson, Kenneth A. Gutschick, Robert C. Freas, Robert S. Boynton
Lime, the "versatile chemical," is, generally speaking, a calcined or burned form of limestone commonly known as quicklime, calcium oxide or calcia, or, when water is added, calcium hydroxide or slake
Jan 1, 1983
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Lime (ce60b535-cddc-41fa-94d3-cb55e37d438e)By Robert C. Freas
Lime, the versatile chemical is, generally speaking, a calcined or burned form of limestone commonly known as quicklime, calcium oxide or, when water is added, calcium hydroxide or slaked lime. Almost
Jan 1, 1994