Digital Grid

Rikiya Abe (Ph.D.) is the CEO of DG Capital Group Corporation. The company, along with its subsidiaries, produces grid-forming inverters (DGR) using digital grid technology and operates AC main grid with grid forming that supplies synchronizing force and inertia.  DGR also provides primarily renewable energy sources with a duplicated DC sub-grid redundant to the AC grid. They also design small wind turbines and DC generators. These were established to incorporate renewable energy sources into power systems with many constraints. Dr. Abe also serves as the representative director of the non-profit Digital Grid Consortium, which promotes digital grids through educational activities and consulting. With years of experience as an electrical engineer at J-POWER, a Japanese wholesale electricity company, Dr. Abe dedicated his research and development efforts to the concept of digital grids as a specially appointed professor under the direct control of the president of the Universityof Tokyo since 2008. In 2012, he founded WASSHA, which provides renewable energy in un-electrified areas. Furthermore, he established the Digital Grid Company in 2017, constructing a private market for energy and environmental values in Japan, facilitating transactions between many power generators and consumers.

lt;p>Part 1    Dissecting the Power System      

Chapter 1   The curse of the power system           

1.1  Proposing the "Truck Model"             

1.2  Frequency Corresponds to Tire Rotation Speed          

1.3  Maintaining a Constant Speed Uphill and Downhill   

1.4   Simultaneous and Equal Quantities

1.5 New Entrants Must Strictly Adhere to Consistent Speeds        

1.6   The Power System is a Truck with No Brakes               

1.7   Hundreds and Thousands of Trucks in a Synchronized March              

1.9   The Curse of Power Systems             

Chapter 2   The Mechanism of Synchronous Power Systems         

2.1   The Mechanism of Synchronous Generators              

2.2   Rotating Magnetic Field Generates Current 

2.3   Initiating Synchronous Operation of Generators       

2.4   Synchronizing the Generator with the Grid  

2.5   Increasing the Output of the Generator        

2.6   Synchronous Generator Power Output and Parallel Operation            

2.7   Giant Inertia of Generators and Instantaneous Voltage Sags

2.8   Detecting Electricity Demand            

2.9   Power Flow Control between Power Company Territories     

2.10   The Speed of Light in Transmitting Electrical Energy              

Chapter 3   The Inevitability of Power Company Gigantism             

3.1   The War of DC versus AC    

3.2   Frequency Constraints Lead to Monopolization of Regional Demand

3.3 Absorbing Smaller Power Companies and Becoming Massive

3.4   Easier Frequency and Voltage Control in Larger Power Systems          

3.5   The Inevitability of Regional Monopolies     

3.6 Delays in Technological Innovation due to Total Cost-Based Pricing     

Chapter 4   The Power System's Struggle with Renewable Energy

4.1   Grid-Connection Mechanism for Renewable Energy Sources

4.2   Downward Reserve Insufficiency Problem   

4.3   Preventing Standalone Operation and Simultaneous Tripping Issue  

4.4   The Surge of Renewable Energy and

4.5   European Initiatives and Germany's Renewable Energy Act  

4.6   Germany's Energy Transformation  

4.7  Spain's Struggles as a Leader in Forecasting Technology          

4.8   Emergence of Solar Power Connection Review Suspension Issue in Japan      

4.9   Conditional Bidding for Mandatory Shutdown of Wind Power Plants

4.10 Manifestation of Contradictions due to Increased Renewable Energy              

Part 2   Digital Grid          

Chapter 5   Escaping the Curse of Power Systems

5.1   Challenges of Mass Renewable Energy Adoption      

5.2   Is Grid Reinforcement the Answer?

5.3   Energy (kWh) and Power (kW)         

5.4   Maintaining Grid Stability   

5.5   Is Distributed Control the Solution?

5.6   The Enormous Utility of Asynchronous Interconnection        

5.7   Escaping the Curse of Power Systems            

Chapter 6   The Birth of the Digital Grid  

6.1   Inverter Technology for Asynchronous Interconnection         

6.2   Automatic Transmissions in Cars: Similar to Asynchronous Interconnection in Power System 

6.3   The Invention of the Digital Grid Router       

6.4   DGR connects to the internet            

6.5   The Birth of the Digital Grid

6.6   Cell Grids Lively Begin Operations   

6.7  First, Fulfill Local Demand within the Cell      

6.8  Share Surplus with Other Cells and the Existing Grid 

6.9  Cell Grid System Eliminating Cascading Power Outages           

6.10  The Digital Grid as an Evolving Power System           

Chapter 7  Cell Mechanism Favorable for Renewables      

7.1   Mechanism for the Increase in Renewables

7.3   Cell Composition   

7.4   Imagining the Size of a Cell 

7.5   Shopping Malls as Energy Production Centers            

7.6   The Second Wave of Power Generation Brought by Gas Liberalization             

7.7   Advantageous Cell Mechanism for Renewable Energy            

7.8   Renewable Energy Investment Recovery Mechanism              

7.9   Renewable Energy Becoming Social Infrastructure

Chapter 8   The Rise of Small-Scale Autonomous Distributed Power Systems          

8.1   Liberation from Institutional Constraints      

8.2   Similarities and Differences in the Changes in the Information and Communications Industry

8.3   Recommendations for the Electricity Liberalization Process 

8.4   Liberalization of Distribution Networks is the Key     

8.5   Promoting Private Power Sharing Business  

8.6  The Weight of Wheeling Charge        

8.7   Distorted Structure of Wheeling Charge       

8.8   Transitioning to Coexistence with Distributed Generation Cells           

8.9   Emergence of Local Governments as Players              

8.10 The Key to Regional Revitalization Lies in Energy      

Chapter 9   Energy Sources and Timing Pulses from the Universe

9.2   Power System for RE Utilization       

9.3   Synchronized Operation of Cell-Internal Inverter Groups       

9.4   Synchronizing Signals from GPS Satellite

9.5   A Major Revolution in Power System Engineering     

9.6   Automation of Renewable Output Suppression        

9.7   Realization of 100% Renewable Energy Cell 

9.8   Connecting Time-Synchronized Power Grids and Conventional Grids

9.9   All Blessings Come from the Universe           

Part 3   Power Internet  

Chapter 10   The World of Ubiquitous Inverters  

10.1   What is an inverter?           

10.2   Inverters are Everywhere 

10.3   Keeping Transaction Records (Logs)             

10.4   Capturing Electricity from Generation to Consumption       

10.5   Transition from Hardware-Centric to Software-Centric         

10.6   Proton Development         

10.7   Inverter Price Disruption  

Chapter 11   Power Packets and Commercialization           

11.1   IP Address Enabled Digital Grid Routers     

11.3   Power Packets with Diverse Properties       

11.4   Sending Electricity through Routers like Email          

11.5   CO2 Value also Packetized

11.6   Weather Forecast Insurance Productized  

Chapter 12   The Power Internet

12.1   LAN, WAN Configuration and Digital Grid   

12.2   The Emergence of Service Providers            

12.3   A Trading Market That Transforms Every 30 Minutes            

12.4   Creating Private Lines as a New Route Formation  

12.5   Battery as a Buffer               

12.6   Essential Differences between the Information Internet and the Digital Grid               

12.7  Similarities with Money Transfers at ATMs 

12.8   P2P Power Network           

12.9   Best Effort Power System 

Part 4   Energy-Centric Economy

Chapter 13   Power Shift from Producers to Consumers  

13.1   Full Course Menu and A la Carte   

13.2   Consumer Choices Transform Power Supply Composition  

13.3  Shift from Planned Economy to Free Market Begins

13.4   The Rise of Self-Generation             

13.5   The Emergence of Prosumers        

13.6   Zero Marginal Cost Energy Sources              

13.7   The Impact of Zero Marginal Cost 

13.8   Sharing Economy

Chapter 14   Decentralization from Urban Concentration to Affluent Regions         

14.1   Where is the Market?        

14.2   Wealth Drained from the Regions 

14.3   A Treasure Trove of Renewable Energy       

14.4   Let's Buy Hometown Electricity      

14.5 Leverage Your Investment 

14.6   Rural Enterprise Model     

14.7   The Pivotal Role of Regional Banks

14.8   Utilizing the PFI Scheme   

14.9   Regional Prosperity Enriches the Nation    

14.10   Power Company Business Model

Chapter 15   The Expanding Renewable Energy Economy

15.1 Identifiability and Homogeneity of Electricity             

15.2   Similarities with Money    

15.3   The Essence of Money      

15.4   The FinTech Revolution Reaches the Energy Sector

15.5   The Emergence of Blockchain         

15.6   Applying to the Digital Grid             

Part 5   Paradigm Shift in Energy Systems              

Chapter 16   The Enormity of the Untapped Market          

16.1   Let's Look at the World     

16.2   Approach to Off-Grid Areas             

16.3   Approach to Weak Grids   

16.4   The Paris Agreement and Climate Change Mitigation           

Chapter 17   Digital Grid Proposals           

17.1   The Nature of the Digital Grid         

17.2   80 Percent Reduction in Greenhouse Gas Emissions             

17.3   Pilot Test Launch  

17.4   Expanding Market               

17.5   Surging Power Demand on a Different Scale             

17.7 Recommendations for Policymakers               

17.8   The Role Japan Must Play

Part 6: The World Seven Years Later         

Chapter 18: What Changed and Started over Seven Years               

18.1  Slowing Down of Renewable Energy             

18.2  Great Incentives and Pressures for Local Governments

18.3  Technical Constraints for Large-scale Renewable Energy Introduction            

18.4  Grid Forming Inverters to Solve Constraints for Large-scale Renewable Energy Introduction 

18.5  Establishing AC and DC Double Distribution Technology       

18.6  Dual Power Supply Business Model               

Chapter 19: The New Power Platform Begins       

19.1  The Birth of the Digital Grid World

19.2  Private FIT

19.3  Innovation Platform            

19.4  From a Giant Power Industry to a Decentralized Power Industry

Epilogue