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Guitar Theory For Dummies with Online Practice


Guitar Theory For Dummies with Online Practice


2. Aufl.

von: Desi Serna

17,99 €

Verlag: Wiley
Format: PDF
Veröffentl.: 29.09.2021
ISBN/EAN: 9781119843344
Sprache: englisch
Anzahl Seiten: 368

DRM-geschütztes eBook, Sie benötigen z.B. Adobe Digital Editions und eine Adobe ID zum Lesen.

Beschreibungen

<p><b>Make your guitar sing with insight on music theory brings your instrument to life </b></p> <p>There’s a universe of incredible music living in your guitar. You just need to discover how to let it out. In <i>Guitar Theory For Dummies,</i> expert guitarist and instructor Desi Serna walks you through the music theory concepts you need to understand to expand your musical horizons. From deciphering the mysteries of the fretboard to adapting chord progressions to a song’s key, you’ll master techniques that will help you move past simple, three-chord songs to more complex and creative pieces. </p> <p>Build on your existing knowledge of open and barre chords and simple progressions with practical instruction that demystifies scales and chord voicings and shows you how to bring them together to create impressive music. You can also jump over to dummies.com to hear audio samples of the examples featured in the book.  </p> <p>You’ll also learn:  </p> <ul> <li>How chords, keys, and scales are built and how they interact with one another </li> <li>Powerful concepts, like intervals, chord extensions, modes and modal scales, that grant access to a world of musical possibilities </li> <li>How popular songs apply elements of guitar theory and how you can apply the same techniques </li> </ul> <p>Free yourself from the confines of tab sheets and simple chords and start enjoying all the musical potential of your guitar. <i>Guitar Theory For Dummies</i> is for anyone who wants to unlock the next stage of their musical journey. </p>
<p>Preface xiii</p> <p><b>1 Introduction to Energy Storage Systems 1<br /></b><i>Rajender Kumar Beniwal, Sandeep Dhundhara and Amarjit Kalra</i></p> <p>1.1 Introduction 2</p> <p>1.1.1 Basic Components of Energy Storage Systems 5</p> <p>1.2 Types of Energy Storage Systems 5</p> <p>1.2.1 Chemical Energy Storage System 6</p> <p>1.2.2 Mechanical Energy Storage System 8</p> <p>1.2.3 Electromagnetic Energy Storage System 11</p> <p>1.2.4 Electrostatic Energy Storage System 12</p> <p>1.2.5 Electrochemical Energy Storage System 14</p> <p>1.2.6 Thermal Energy Storage System 18</p> <p>1.3 Terminology Used in ESS 19</p> <p>1.4 Applications of ESS 21</p> <p>1.5 Comparative Analysis of Cost and Technical Parameters of ESSs 23</p> <p>1.6 Analysis of Energy Storage Techniques 23</p> <p>1.7 Conclusion 28</p> <p>References 28</p> <p><b>2 Storage Technology Perspective in Modern Power System 33<br /></b><i>Reinaldo Padilha França</i><i>, Ana Carolina Borges Monteiro, Rangel Arthur and Yuzo Iano</i></p> <p>2.1 Introduction 34</p> <p>2.2 Significance of Storage Technologies in Renewable Integration 35</p> <p>2.3 Overview of Current Developments in Electrical Energy Storage Technologies 38</p> <p>2.4 Commercial Aspects of Energy Storage Technologies 40</p> <p>2.5 Reducing the Costs of Storage Systems 41</p> <p>2.6 Energy Storage Economics – A View Through Current Scenario 42</p> <p>2.7 Implications for Researchers, Practitioners, and Policymakers 43</p> <p>2.8 Regulatory Considerations – A Need for Reform 44</p> <p>2.9 Discussion 46</p> <p>2.10 Conclusions 47</p> <p>2.11 Trends and Technological Modernizations – A Look Into What the Future Might Bring 49</p> <p>References 50</p> <p><b>3 Virtual Inertia Provision Through Energy Storage Technologies 59<br /></b><i>Shreya Mahajan and Yajvender Pal Verma</i></p> <p>3.1 Introduction 59</p> <p>3.2 Virtual Inertia-Based Frequency Control 61</p> <p>3.2.1 Concept of Virtual Inertia 61</p> <p>3.2.2 Virtual Inertia Emulation 62</p> <p>3.3 Impact of Low System Inertia on Power System Voltage and Operation & Control Due to Large Share of Renewables 63</p> <p>3.4 Control Methods for Inertia Emulation in RES-Based Power Systems 65</p> <p>3.4.1 Control Methods Without ESS for Frequency Control 66</p> <p>3.4.2 Control Methods with ESS for Frequency Control 67</p> <p>3.4.2.1 Battery Energy Storage Systems (BESS) 69</p> <p>3.4.2.2 Super Capacitors and Ultra-Capacitors 70</p> <p>3.4.2.3 Flywheel Energy Storage System (FESS) 70</p> <p>3.4.2.4 Hybrid Energy Storage System (HESS) 71</p> <p>3.5 Challenges 73</p> <p>References 73</p> <p><b>4 Energy Storage Systems for Electric Vehicles 79<br /></b><i>M. Nandhini Gayathri</i></p> <p>4.1 Introduction 79</p> <p>4.2 Energy Storage Systems for Electric Vehicle 82</p> <p>4.3 Types of Electric Vehicles 82</p> <p>4.3.1 Battery Electric Vehicle (BEV) 85</p> <p>4.3.2 Hybrid Electric Vehicle (HEV) 86</p> <p>4.3.3 Plug-In Hybrid Electric Vehicles (PHEV) 87</p> <p>4.4 Review of Energy Storage Systems for Electric Vehicle Applications 88</p> <p>4.4.1 Key Attributes of Battery Technologies 88</p> <p>4.4.2 Widely Used Battery Technologies 88</p> <p>4.4.3 Alternate Energy Storage Solutions 92</p> <p>4.5 Electric Vehicle Charging Schemes 93</p> <p>4.6 Issues and Challenges of ESSs in EV Applications 94</p> <p>4.7 Recent Advancements in the Storage Technologies of EVs 94</p> <p>4.8 Factors, Challenges and Problems in Sustainable Electric Vehicle 96</p> <p>4.9 Conclusions and Recommendations 97</p> <p>References 97</p> <p><b>5 Fast-Acting Electrical Energy Storage Systems for Frequency Regulation 10<br /></b><i>Mandeep Sharma, Sandeep Dhundhara, Yogendra Arya and Maninder Kaur</i></p> <p>5.1 Introduction 106</p> <p>5.1.1 Significance of Fast-Acting Electrical Energy Storage (EES) System in Frequency Regulation 106</p> <p>5.1.2 Capacitive Energy Storage (CES) 107</p> <p>5.1.2.1 Basic Configuration of CES 109</p> <p>5.1.2.2 CES Control Logic 112</p> <p>5.1.3 Superconducting Magnetic Energy Storage (SMES) 113</p> <p>5.1.3.1 Constructional and Working Details of SMES 113</p> <p>5.1.3.2 Basic Configuration of SMES 114</p> <p>5.1.3.3 SMES Block Diagram Presentation 115</p> <p>5.1.3.4 Benefits Over Other Energy Storage Methods 116</p> <p>5.1.4 Advantages of CES Over SMES 117</p> <p>5.2 Case Study to Investigate the Impact of CES and SMES in Modern Power System 118</p> <p>5.2.1 Literature Review 118</p> <p>5.2.2 Modeling of the System Under Study 121</p> <p>5.2.3 Control Approach 121</p> <p>5.3 Impact of Fast-Acting EES Systems on the Frequency Regulation Services of Modern Power Systems 124</p> <p>5.3.1 System Model-1 124</p> <p>5.3.2 System Model-2 128</p> <p>5.4 Conclusion 137</p> <p>Appendix A 137</p> <p>References 138</p> <p><b>6 Solid-Oxide Fuel Cell and Its Control 143<br /></b><i>Preeti Gupta, Vivek Pahwa and Yajvender Pal Verma</i></p> <p>Abbreviations 144</p> <p>Symbols and Molecular Formulae 144</p> <p>Nomenclature 145</p> <p>6.1 Introduction 145</p> <p>6.2 Fuel Cells 147</p> <p>6.2.1 Different Types of Fuel Cells 148</p> <p>6.2.2 Advantages and Disadvantages 148</p> <p>6.2.3 Applications in Modern Power System 150</p> <p>6.3 Solid-Oxide Fuel Cell 150</p> <p>6.3.1 Mathematical Modeling 152</p> <p>6.3.2 Linearization 153</p> <p>6.3.3 Control Schemes for Solid-Oxide Fuel Cell Based Power System 155</p> <p>6.3.3.1 Constant Voltage Control 156</p> <p>6.3.3.2 Constant Fuel Utilization Control 156</p> <p>6.4 Illustration of a Case Study on Control of Grid-Connected SOFC 160</p> <p>6.5 Recent Trend in Fuel Cell Technologies 165</p> <p>6.5.1 Techno-Economic Comparison 166</p> <p>6.5.2 Market and Policy Barriers 168</p> <p>6.6 Summary and Future Scope 169</p> <p>Acknowledgement 170</p> <p>References 170</p> <p><b>7 Lithium-Ion vs. Redox Flow Batteries – A Techno-Economic Comparative Analysis for Isolated Microgrid System 177<br /></b><i>Maninder Kaur, Sandeep Dhundhara, Sanchita Chauhan and Mandeep Sharma</i></p> <p>7.1 Introduction to Battery Energy Storage System 178</p> <p>7.1.1 Lithium-Ion Battery 178</p> <p>7.1.2 Redox Flow Batteries 182</p> <p>7.2 Role of Battery Energy Storage System in Microgrids 186</p> <p>7.3 Case Study to Investigate the Impact of Li-Ion and VRFB Energy Storage System in Microgrid System 188</p> <p>7.3.1 System Modelling 188</p> <p>7.3.2 Evaluation Criteria for a Microgrid System 191</p> <p>7.3.3 Load and Resource Assessment 191</p> <p>7.4 Results and Discussion 192</p> <p>7.5 Conclusion 194</p> <p>References 195</p> <p><b>8 Role of Energy Storage Systems in the Micro-Grid Operation in Presence of Intermittent Renewable Energy Sources and Load Growth 199<br /></b><i>V V S N Murty, Ashwani Kumar and M. Nageswara Rao</i></p> <p>8.1 Introduction 200</p> <p>8.1.1 Techniques and Classification of Energy Storage Technologies Used in Hybrid AC/DC Micro-Grids 201</p> <p>8.1.2 Applications and Benefits of Energy Storage Systems in the Microgrid System 202</p> <p>8.1.2.1 Applications and Benefits of BESS in Micro-Grid 203</p> <p>8.1.3 Importance of Appropriate Configuration of Energy Storage System in Micro-Grid 205</p> <p>8.1.3.1 Decentralized Control 206</p> <p>8.1.3.2 Centralized Control 206</p> <p>8.1.3.3 Coordinated Control 207</p> <p>8.1.3.4 Topology of BESS and PCS 208</p> <p>8.1.3.5 Battery Management System 208</p> <p>8.2 Concept of Micro-Grid Energy Management 209</p> <p>8.2.1 Concept of Micro-Grid 210</p> <p>8.2.2 Benefits of Micro-Grids 212</p> <p>8.2.3 Overview of MGEM 213</p> <p>8.3 Modelling of Renewable Energy Sources and Battery Storage System 214</p> <p>8.4 Uncertainty of Load Demand and Renewable Energy Sources 220</p> <p>8.5 Demand Response Programs in Micro-Grid System 221</p> <p>8.5.1 Modelling of Price Elasticity of Demand 221</p> <p>8.5.2 Load Control in Time-Based Rate DR Program 223</p> <p>8.5.3 Load Control in Incentive-Based DR Program 223</p> <p>8.6 Economic Analysis of Micro-Grid System 223</p> <p>8.7 Results and Discussions 224</p> <p>8.7.1 Dispatch Schedule Without Demand Response 224</p> <p>8.7.2 Dispatch Schedule with Demand Response 225</p> <p>8.7.3 Micro-Grid Resiliency 229</p> <p>8.7.4 BESS for Emergency DG Replacement 235</p> <p>8.8 Conclusions 237</p> <p>List of Symbols and Indices 238</p> <p>References 240</p> <p><b>9 Role of Energy Storage System in Integration of Renewable Energy Technologies in Active<br /></b><b>Distribution Network 243<br /></b><i>Vijay Babu Pamshetti and Shiv Pujan Singh</i></p> <p>Nomenclature 244</p> <p>9.1 Introduction 246</p> <p>9.1.1 Background 246</p> <p>9.1.2 Motivation and Aim 248</p> <p>9.1.3 Related Work 249</p> <p>9.1.4 Main Contributions 253</p> <p>9.2 Active Distribution Network 253</p> <p>9.3 Uncertainties Modelling of Renewable Energy Sources and Load 254</p> <p>9.3.1 Uncertainty of Photovoltaic (PV) Power Generation 254</p> <p>9.3.2 Uncertainty of Wind Power Generation 255</p> <p>9.3.3 Voltage Dependent Load Modelling (VDLM) 256</p> <p>9.3.4 Proposed Stochastic Variable Module for Uncertainties Modelling 256</p> <p>9.3.5 Modelling of Energy Storage System 258</p> <p>9.3.6 Basic Concept of Conservation Voltage Reduction 259</p> <p>9.3.7 Framework of Proposed Two-Stage Coordinated Optimization Model 259</p> <p>9.3.8 Proposed Problem Formulation 260</p> <p>9.3.8.1 Investments Constraints 262</p> <p>9.3.8.2 Operational Constraints 262</p> <p>9.3.9 Proposed Solution Methodology 263</p> <p>9.3.10 Simulation Results and Discussions 265</p> <p>9.3.10.1 Simulation Platform 265</p> <p>9.3.10.2 Data and Assumptions 265</p> <p>9.3.10.3 Numerical Results and Discussions 266</p> <p>9.3.10.4 Effect of Voltage Profile 268</p> <p>9.3.10.5 Effect of Energy Losses and Consumption 268</p> <p>9.3.10.6 Effect of Energy Not Served and Carbon Emissions 272</p> <p>9.3.10.7 Performance of Proposed Hybrid Optimization Solver 272</p> <p>9.3.11 Conclusion 274</p> <p>References 275</p> <p><b>10 Inclusion of Energy Storage System with Renewable Energy Resources in Distribution Networks 281<br /></b><i>Rayees Ahmad Thokar, Vipin Chandra Pandey, Nikhil Gupta, K. R. Niazi, Anil Swarnkar, Pradeep Singh and N. K. Meena</i></p> <p>10.1 Introduction 282</p> <p>10.2 Optimal Allocation of ESSs in Modern Distribution Networks 284</p> <p>10.2.1 ESS Allocation (Siting and Sizing) 285</p> <p>10.2.2 ESS Allocation Methods 286</p> <p>10.3 Applications of ESS in Modern Distribution Networks 290</p> <p>10.3.1 ESS Applications at the Generation and Distribution Side 293</p> <p>10.3.2 ESS Applications at the End-Consumer Side 293</p> <p>10.4 Different Types of ESS Technologies Employed for Sustainable Operation of Power Networks 294</p> <p>10.5 Case Study 301</p> <p>10.5.1 Proposed Two-Layer Optimization Framework and Problem Formulation 302</p> <p>10.5.1.1 Upper-Layer Optimization 303</p> <p>10.5.1.2 Internal-Layer Optimization 304</p> <p>10.5.1.3 Problem Constraints 305</p> <p>10.5.1.4 Proposed Management Strategies for BESS Deployment 307</p> <p>10.5.2 Results and Discussions 308</p> <p>10.5.3 Conclusions 316</p> <p>10.6 Future Research and Recommendations 317</p> <p>Appendix A 318</p> <p>Acknowledgement 319</p> <p>References 319</p> <p>Index 329</p>
<p><b>Desi Serna</b> is a music instructor, author, and podcaster hailed as a “music theory expert” by <i>Rolling Stone</i> magazine. He is the author of several guitar instructional videos and books, including <i>Guitar Rhythm & Technique For Dummies.</i> Known for his hands-on approach to music theory and his emphasis on popular music, Desi offers video instruction for beginner through advanced players at his GuitarMusicTheory.com website.</p>
<p><B>Learn the theories that make your guitar sing</b></p> <p>A universe of music is living in your guitar. The key to exploring it is in guitar theory. This book helps you bring out that music, including navigating the fretboard, applying scales, and combining chords. You then extend the musical possibilities with intervals, harmony, chord extensions, modes, and more. With this useful guide, you’ll apply techniques that move you past simple three-chord progressions to next-level playing that shows off your expanding guitar skills. <p><b>Inside...</b> <ul><li>Navigate the fretboard</li> <li> Get to know chord construction</li> <li> Understand scale formulas</li> <li> Identify tonics, keys, and modes</li> <li> Break down the theory to popular songs</li> <li> Examine the styles of famous players</li> <li> Create your own music</li></ul>

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