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200 10$aRadical business model transformation $egaining the competitive edge in a disruptive world /$fCarsten Linz, Gu?nter Mu?ller-Stewens, Alexander Zimmermann
210  1$aLondon, England :$cKogan Page,$d2017.
210  4$dİ2017
215   $a1 online resource (280 pages)
300   $aIncludes index.
311   $a0-7494-8045-9 
311   $a0-7494-8046-7 
327   $aPreface -- Why business models need to radically shift -- Taking consequences from digitization and servitization -- Assessing your current business model -- Moving from small tweaks to radical shifts -- How to lead a radical shift of your business model -- Shifting the level of inclusiveness -- Shifting the level of customization -- Sequencing multiple radical shifts -- Learning from successful transformational organizations -- Case studies of companies radically shifting the level of inclusiveness -- Case studies of companies radically shifting the level of customization -- Case studies of companies that sequence multiple radical shifts -- How to move forward -- Mastering the transformational leadership challenge -- Navigating with the business model transformation manual -- Index.
606   $aOrganizational change
606   $aManagement$xTechnological innovations
606   $aBusiness planning
615  0$aOrganizational change.
615  0$aManagement$xTechnological innovations.
615  0$aBusiness planning.
676   $a658.4/06
700   $aLinz$b Carsten$01249514
702   $aMu?ller-Stewens$b Gu?nter
702   $aZimmermann$b Alexander$f1964-
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200 10$aElectricity generation using wind power$b[electronic resource] /$fWilliam Shepherd, Li Zhang
210   $aHackensack, N.J. $cWorld Scientific$d2010
215   $a1 online resource (257 p.)
300   $aDescription based upon print version of record.
311   $a981-4304-13-1 
320   $aIncludes bibliographical references and index.
327   $aForeword and Acknowledgement; Contents; CHAPTER 1 The Development of Wind Converters; 1.1 Nature and Origin of the Wind; 1.2 Development of Wind Converters; References; CHAPTER 2 Theory of Wind Converters; 2.1 Power and Energy Basis of Wind Converters; 2.1.1 Origin and properties of the wind; 2.1.2 Power and energy; 2.2 Theoretical Power Available in the Wind; 2.3 Theoretical Maximum Power Extractable from the Wind; 2.4 Practical Power Extractable from the Wind; 2.4.1 Power coefficient; 2.4.2 Torque versus rotational speed; 2.4.3 Shaft power versus rotational speed
327   $a2.4.4 Tip-speed ratio (TSR)2.5 Mechanical Features of Wind Machines; 2.5.1 Axial thrust (Pressure); 2.5.2 The ""Yaw"" effect; 2.5.3 Gyroscopic forces and vibrations; 2.5.4 Centrifugal forces; 2.5.5 Solidity factor; 2.5.6 Two rotor blades or three rotor blades?; 2.5.7 Shaft torque and power; 2.6 Fixed Rotational Speed or Variable Rotational Speed?; 2.6.1 Constant speed operation; 2.6.2 Variable speed operation; 2.7 Efficiency Considerations of Wind-Powered Electricity Generation; 2.8 Worked Numerical Examples on Wind-Turbine Operation; 2.9 Problems and Review Questions; References
327   $aCHAPTER 3 Past and Present Wind-Energy Turbines3.1 Nineteenth-Century Windmills; 3.2 Early Twentieth-Century Wind-Energy Turbines; 3.3 Later Twentieth-Century Wind-Energy Turbines; 3.4 Modern Large Wind Power Installations; 3.5 Worked Numerical Example; 3.6 Vertical Axis Wind Machines; 3.6.1 The Savonius design; 3.6.2 The Darrieus design; 3.6.3 Other forms of vertical axis machine; References; CHAPTER 4 The Location and Siting of Wind Turbines; 4.1 The Availability of Wind Supply; 4.1.1 Global survey; 4.1.2 Energy content of the wind; 4.1.3 Wind-energy supply in Europe
327   $a4.1.4 Wind-energy supply in the USA4.2 Statistical Representation of Wind Speed; 4.3 Choice of Wind Turbine Sites; 4.3.1 Identification of suitable areas; 4.3.2 Selection of possible sites within the chosen area; 4.4 Effects of the Site Terrain; 4.5 Spacing Effects of Wind Farm Arrays; 4.6 Problems and Review Questions; References; CHAPTER 5 Power Flow in Electrical Transmission and Distribution Systems; 5.1 Basic Forms of Power Transmission Networks; 5.2 Current and Voltage Relationships; 5.3 Power Relationships in Sinusoidal Circuits; 5.3.1 Instantaneous power
327   $a5.3.2 Average power and apparent power5.3.3 Power factor; 5.3.4 Reactive power; 5.4 Complex Power; 5.5 Real Power Flow and Reactive Power Flow in Electrical Power Systems; 5.5.1 General summary; 5.5.2 Summary from the perspective of the consumer; References; CHAPTER 6 Electrical Generator Machines in Wind-Energy Systems; 6.1 DC Generators; 6.2 AC Generators; 6.3 Synchronous Machine Generators; 6.4 Three-Phase Induction Machine; 6.4.1 Three-phase induction motor; 6.4.2 Three-phase induction generator; 6.4.3 Different generation systems
327   $a6.5 Analysis of Induction Generator in Terms of Complex Vector Representation
330   $aThe use of the wind as an energy source is increasing and growing worldwide. Wind energy is an important non-fossil option to supplement fossil (coal, natural gas and oil) and nuclear fuels for the generation of electricity. Many parts of the world, particularly the coastlines of Western Europe, North Africa, North and South America, India, Eastern Russia, China, the Philippines, Australia and New Zealand, experience a high annual incidence of wind energy. The United Kingdom of Great Britain and Northern Ireland, together with the Republic of Ireland form a particularly windy location, being f
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606   $aElectric power production
615  0$aWind power.
615  0$aElectric power production.
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200 10$aNetworks of power $eelectrification in Western society, 1880-1930 /$fThomas P. Hughes
205   $aSoftshell Books ed.
210   $aBaltimore $cJohns Hopkins University Press$d1983
215   $a1 online resource (xi, 474 p. )$cill., facsims., maps, ports. ;
300   $aBibliographic Level Mode of Issuance: Monograph
320   $aIncludes bibliographical references and index.
410  0$aACLS Humanities E-Book.
531   $aNETWORKS OF POWER
606   $aElectric power systems$zUnited States$xHistory
606   $aElectric power systems$zGreat Britain$xHistory
606   $aElectric power systems$zGermany$xHistory
606   $aElectric power systems$xHistory$zUnited States
606   $aElectric power systems$xHistory$zGreat Britain
606   $aElectric power systems$xHistory$zGermany
615  0$aElectric power systems$xHistory.
615  0$aElectric power systems$xHistory.
615  0$aElectric power systems$xHistory.
615  0$aElectric power systems$xHistory
615  0$aElectric power systems$xHistory
615  0$aElectric power systems$xHistory
676   $a363.6/2
700   $aHughes$b Thomas Parke$0146051
712 02$aAmerican Council of Learned Societies.
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