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200 14$aThe psychophysical ear$b[electronic resource] $emusical experiments, experimental sounds, 1840-1910 /$fAlexandra Hui
210   $aCambridge, Mass. $cMIT Press$dc2013
215   $a1 online resource (257 p.)
225 1 $aTransformations : studies in the history of science and technology
300   $aDescription based upon print version of record.
311   $a0-262-01838-1 
320   $aIncludes bibliographical references and index.
327   $aTransformations: Studies in the History of Science and Technology; Contents; Acknowledgments; Introduction; 1 Gustav Fechner, the Day View, and the Origins of Psychophysics; 2 From Sonically Moving Forms to Inaudible Undertones: The New Musical Aesthetics of A. B. Marx, Eduard Hanslick,and Hugo Riemann; 3 Sound Materialized and Music Reconciled: Hermann Helmholtz; 4 The Aesthetics of Attention: Ernst Mach's Accommodation Experiments, His Psychophysical Musical Aesthetics, and His Friendship with Eduard Kulke
327   $a5 The Bias of Musikbewusstsein When Listening in the Laboratory, on the City Streets, and in the FieldCoda; Appendix; Notes; References; Index
330   $aAn examination of how the scientific study of sound sensation became increasingly intertwined with musical aesthetics in nineteenth-century Germany and Austria.
410  0$aTransformations (M.I.T. Press)
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606   $aPsychoacoustics$xHistory$y20th century
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200 10$aOil refineries in the 21st century$b[electronic resource] $eenergy efficient, cost effective, environmentally benign /$fOzren Ocic
210   $aWeinheim $cWiley-VCH$dc2005
215   $a1 online resource (168 p.)
300   $aDescription based upon print version of record.
311   $a3-527-31194-7 
320   $aIncludes bibliographical references and index.
327   $aOil Refineries in the 21st Century; Table of Contents; Preface; 1 Introduction; 2 Technological and Energy Characteristics of the Chemical Process Industry; 2.1 Possibilities for Process-Efficiency Management Based on Existing Economic and Financial Instruments and Product Specifications in Coupled Manufacturing; 2.2 Importance of Energy for Crude-Oil Processing in Oil Refineries; 3 Techno-economic Aspects of Efficiency and Effectiveness of an Oil Refinery; 3.1 Techno-economic Aspects of Energy Efficiency and Effectiveness in an Oil Refinery
327   $a3.2 Techno-economic Aspects of Process Efficiency and Effectiveness in an Oil Refinery4 Instruments for Determining Energy and Processing Efficiency of an Oil Refinery; 4.1 Instruments for Determining Energy and Processing Efficiency of Crude Distillation Unit; 4.1.1 Technological Characteristics of the Process; 4.1.2 Energy Characteristics of the Process; 4.1.3 Determining the Steam Cost Price; 4.1.4 Energy Efficiency of the Process; 4.1.5 Refinery Product Cost Pricing; 4.2 Instruments for Determining Energy and Processing Efficiency of Vacuum-distillation Unit
327   $a4.2.1 Technological Characteristics of the Process4.2.2 Energy Characteristics of the Process; 4.2.3 Determining the Steam Cost Price; 4.2.4 Energy Efficiency of the Process; 4.2.5 Determining the Refinery Product Cost Prices; 4.3 Instruments for Determining Energy and Processing Efficiency of Vacuum-residue Visbreaking Unit; 4.3.1 Technological Characteristics of the Process; 4.3.2 Energy Characteristics of the Process; 4.3.3 Determining the Steam Cost Price; 4.3.4 Energy Efficiency of the Process; 4.3.5 Determining the Refinery Product Cost Prices
327   $a4.4 Instruments for Determining Energy and Processing Efficiency of Bitumen Blowing Unit4.4.1 Technological Characteristics of the Process; 4.4.2 Energy Characteristics of the Process; 4.4.3 Determining the Steam Cost Price; 4.4.4 Energy Efficiency of the Process; 4.4.5 Determining Refinery Product Cost Prices; 4.5 Instruments for Determining Energy and Processing Efficiency of Catalytic Reforming Unit; 4.5.1 Technological Characteristics of the Process; 4.5.2 Energy Characteristics of the Process; 4.5.3 Determining the Steam Cost Price; 4.5.4 Energy Efficiency of the Process
327   $a4.5.5 Determining the Refinery Product Cost Prices4.6 Instruments for Determining Energy and Processing Efficiency of Catalytic Cracking Unit; 4.6.1 Technological Characteristics of the Process; 4.6.2 Energy Characteristics of the Process; 4.6.3 Determining the Steam Cost Price; 4.6.4 Energy Efficiency of the Process; 4.6.5 Determining the Refinery Cost Prices; 4.7 Instruments for Determining Energy and Processing Efficiency of Gas Concentration Unit; 4.7.1 Technological Characteristics of the Process; 4.7.2 Determining the Refinery Product Cost Prices
327   $a4.8 Instruments for Determining Energy and Processing Efficiency of Jet-fuel Hydrodesulfurization Unit
330   $aA very detailed, workable approach to improving energy efficiency and cost effectiveness in petroleum processing, dealing with the role of management and refinery operators in achieving the best technological parameters, the most rational utilization of energy, as well as the greatest possible economic success. The author provides a detailed and well-founded approach to the methodology, information and criteria necessary for analyzing energy use, economics and the environmental impact, as well as solutions for fulfilling the requirements of the Kyoto agreement. In addition, he describes in suf
606   $aPetroleum refineries$xEconomic aspects
606   $aPetroleum industry and trade$xEconomic aspects
606   $aPetroleum refineries$xEnergy conservation
606   $aPetroleum industry and trade$xEnergy conservation
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615  0$aPetroleum industry and trade$xEconomic aspects.
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