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2022 | OriginalPaper | Chapter

3. Virtual Power Plant System

Author : Chuzo Ninagawa

Published in: Virtual Power Plant System Integration Technology

Publisher: Springer Singapore

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Abstract

As described in the proceeding chapters, in present power system, the demand and supply are controlled only by generation side, according to the fluctuation of the power consumption on the demand side. However, if the number of renewable power generation facilities such as solar power generation and wind power generation increases, the proportion of the amount of supply that can be controlled by governor control or LFC control described in the Chap. 2 decreases relatively and control according to the demand side becomes difficult.

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Literature
1.
go back to reference Technical report of the Inst. of Electrical Engineers of Japan, Standard Analysis Model for Power Supply and Demand/Frequency Simulation, No. 1386 (2016) Technical report of the Inst. of Electrical Engineers of Japan, Standard Analysis Model for Power Supply and Demand/Frequency Simulation, No. 1386 (2016)
2.
go back to reference C. Ninagawa, H. Asaka, M. Takahama, Asymmetric constant-rate transfer function model for FastADR feedback control of a cluster of building multi-type air-conditoners. IEEJ Trans. Power Energy 137(8), 566–572 (2017) (in Japanese) C. Ninagawa, H. Asaka, M. Takahama, Asymmetric constant-rate transfer function model for FastADR feedback control of a cluster of building multi-type air-conditoners. IEEJ Trans. Power Energy 137(8), 566–572 (2017) (in Japanese)
3.
go back to reference K. Suzuki, C. Ninagawa, J. Morikawa, Estimation on averaging effect of large-scale aggregation of DR transient responses of building multi-type air-conditioning facilities. IEEJ Trans. Power Energy 138(7), 582–590 (2018) (in Japanese) K. Suzuki, C. Ninagawa, J. Morikawa, Estimation on averaging effect of large-scale aggregation of DR transient responses of building multi-type air-conditioning facilities. IEEJ Trans. Power Energy 138(7), 582–590 (2018) (in Japanese)
5.
go back to reference M. Piette et al., Open Automated Demand Response Communications Specification (Version 1.0), LBNL Report 1779E (2009) M. Piette et al., Open Automated Demand Response Communications Specification (Version 1.0), LBNL Report 1779E (2009)
7.
go back to reference IEC standard, Reference Architecture for Electric Power Systems, IEC 61850 (2011) IEC standard, Reference Architecture for Electric Power Systems, IEC 61850 (2011)
8.
go back to reference IEEE standard for Ubiquitous Green Community Control Network Protocol, IEEE1888-2011 (2011) IEEE standard for Ubiquitous Green Community Control Network Protocol, IEEE1888-2011 (2011)
10.
go back to reference IEC Standard, Specific Communication Service Mapping (SCSM)—Mappings to MMS (ISO 9506-1 and ISO 9506-2) and to ISO/IEC 8802-3, IEC 61805-8-1 (2004) IEC Standard, Specific Communication Service Mapping (SCSM)—Mappings to MMS (ISO 9506-1 and ISO 9506-2) and to ISO/IEC 8802-3, IEC 61805-8-1 (2004)
11.
go back to reference ISO Standard, Industrial Automation Systems—Manufacturing Message Specification, ISO9506:2003 (2003) ISO Standard, Industrial Automation Systems—Manufacturing Message Specification, ISO9506:2003 (2003)
12.
go back to reference IEC standard, Communication Networks and Systems for Power Utility Automation-Part 6: Configuration Description Language for Communication in Electrical Substations Related to IEDs, IEC 61850-6 (2009) IEC standard, Communication Networks and Systems for Power Utility Automation-Part 6: Configuration Description Language for Communication in Electrical Substations Related to IEDs, IEC 61850-6 (2009)
13.
go back to reference IEEE standard, Ubiquitous Green Community Control Network Protocol, IEEE1888-2011 (2011) IEEE standard, Ubiquitous Green Community Control Network Protocol, IEEE1888-2011 (2011)
15.
go back to reference C. Ninagawa, H. Yoshida, S. Kondo, H. Otake, Data transmission of IEEE1888 communication for wide-area real-time smart grid applications, in International Renewal and Sustainable Energy Conference IRSEC’13, pp.1–6 (2013) C. Ninagawa, H. Yoshida, S. Kondo, H. Otake, Data transmission of IEEE1888 communication for wide-area real-time smart grid applications, in International Renewal and Sustainable Energy Conference IRSEC’13, pp.1–6 (2013)
16.
go back to reference C. Ninagawa, T. Iwahara, K. Suzuki, Enhancement of OpenADR Communication for Flexible FastADR Aggregation Using TRAP Mechanism of IEEE1888 Protocol, in IEEE International Conference on Industrial Technologies, ICIT 2015, Seville, Spain (2015) C. Ninagawa, T. Iwahara, K. Suzuki, Enhancement of OpenADR Communication for Flexible FastADR Aggregation Using TRAP Mechanism of IEEE1888 Protocol, in IEEE International Conference on Industrial Technologies, ICIT 2015, Seville, Spain (2015)
17.
go back to reference T. Iwahara, T. Yamada, C. Ninagawa, Smart grid OpenADR communication Realized by Using IEEE188TRAP Mechanism’s Flexible Server-Push Capability, in IEEJ Technical Meeting on Smart Facilities, SMF-15-014 (2015) (in Japanese) T. Iwahara, T. Yamada, C. Ninagawa, Smart grid OpenADR communication Realized by Using IEEE188TRAP Mechanism’s Flexible Server-Push Capability, in IEEJ Technical Meeting on Smart Facilities, SMF-15-014 (2015) (in Japanese)
Metadata
Title
Virtual Power Plant System
Author
Chuzo Ninagawa
Copyright Year
2022
Publisher
Springer Singapore
DOI
https://doi.org/10.1007/978-981-16-6148-8_3