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GB/T 33599-2017 English PDF (GBT33599-2017)
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GB/T 33599-2017: Specification of operation and control for photovoltaic power station
GB/T 33599-2017
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 27.160
F 12
Specification of Operation and
Control for Photovoltaic Power Station
ISSUED ON. MAY 12, 2017
IMPLEMENTED ON. DECEMBER 1, 2017
Issued by. General Administration of Quality Supervision, Inspection and
Quarantine of the People's Republic of China;
Standardization Administration of the People's Republic of
China.
3. No action is required - Full-copy of this standard will be automatically and
immediately delivered to your EMAIL address in 0~60 minutes.
Table of Contents
Foreword ... 3
1 Application Scope ... 4
2 Normative References ... 4
3 Terms and Definitions ... 5
4 Basic Requirements ... 6
5 Operation and Control of Photovoltaic Power Station ... 7
Foreword
This Standard was drafted in accordance with the rules given in GB/T 1.1-2009.
Attention is drawn to the possibility that some of the elements of this document may
be the subject of patent rights. The issuer of this document shall not be held
responsible for identifying any or all such patent rights.
This Standard was proposed by and shall be under the jurisdiction of China Electricity
Council.
The drafting organization of this Standard. China Electric Power Research Institute,
State Grid Dispatching Centre.
The main drafters of this Standard. Liu Chun, Dong Cun, Huang Yuehui, Wang Yuefeng,
Xu Xiaoyan, Fan Gaofeng, Li Xiaofei, Xu Yanping, Ma Shuo, Liu Dewei, Zhang Nan,
Gao Yunfeng, Tang Lin, Liang Changbo, Wang Jing, Pan Xiaofeng, Li Chi, He Guoqing.
Specification of Operation and Control
for Photovoltaic Power Station
1 Application Scope
This Standard specifies the basic specifications of operation and control for
photovoltaic power stations, as well as the requirements for operation management,
power forecasting, power generation plan, active power control, reactive power control,
relaying protection and automatic safety device operation, electric power
communication operation, dispatching automation, equipment overhaul and accident
recording and reporting.
This Standard applies to newly-built, rebuilt and extended photovoltaic power stations
which are connected to the grid through the voltage class of 35 kV and above, and
connected to the public grid through the voltage class of 10 kV.
2 Normative References
The following referenced documents are indispensable for the application of this
document. For dated references, only the edition dated applies to this document. For
undated references, the latest edition of the referenced documents (including all
amendments) applies to this Standard.
GB/T 14285, Technical Code for Relaying Protection and Security Automatic
Equipment
GB/T 19964, Technical Requirements for Connecting Photovoltaic Power Station to
Power System
GB/T 29321, Technical Specification for Reactive Power Compensation of PV
Power Station
GB/T 31365, Testing Code for Photovoltaic Power Station Connected to Power Grid
GB/T 31366, Technical Requirements for Monitoring and Control System of
Photovoltaic Power Station
GB/T 31464, The Grid Operation Code
GB 50794, Code for Construction of PV Power Station
GB/T 50796, Code for Acceptance of Photovoltaic Power Project
GB 50797, Code for Design of Photovoltaic Power Station
DL/T 516, Code for Operation and Administration of Power Dispatching Automation
System
DL/T 544, Operation Management Code for Power System Telecommunication
DL/T 559, Code for Setting of 220 kV ~ 500 kV Relaying Protection Equipment
DL/T 584, Code for Setting of 3 kV ~ 110 kV Relaying Protection Equipment
DL/T 623, Evaluation Rules of Protection Equipment and Power System Stability
Control Devices
DL 755, Guide on Security and Stability for Power System
NB/T 32011, Technical Requirement of Power Forecasting System for PV Power
Station
3 Terms and Definitions
For the purposes of this document, the following terms and definitions and those
defined in GB/T 19964 and GB/T 31464 apply.
3.1
photovoltaic (PV) power station
The electric power generation system and auxiliaries which directly transform solar
radiant energy into electric power through the photovoltaic effects of the photovoltaic
cells.
3.2
PV power forecasting
The forecast which is made on the active power of the photovoltaic power station
through the technology and means including meteorological conditions and statistical
regularity.
3.3
grid integration test for PV power station
The test to determine the grid integration performance in five aspects including the
power quality, active power/reactive power control ability, low-voltage ride through
ability, voltage/frequency adaptation ability and active power output characteristics of
the photovoltaic power station.
3.4
dispatching automation system; it shall transmit to the grid dispatcher in time,
accurately and reliably, the equipment operation information, meteorological
information and power forecasting information of the primary systems and secondary
systems of the photovoltaic power station.
5.1.7 The photovoltaic power station shall report to the grid dispatcher in time the
alterations of the primary system equipment and secondary system equipment of the
photovoltaic power station and their safety protection schemes.
5.1.8 When the photovoltaic power station quits operation in emergency or trouble, it
shall report to the grid dispatcher immediately and start the grid-connected operation
once again in accordance with the dispatching instructions only after obtaining the
consent of the grid dispatcher. The photovoltaic power station shall keep records of
accidents and report to the grid dispatcher in time.
5.2 PV power forecasting
5.2.1 The photovoltaic power station shall report the PV power forecasting curves for
0 h ~ 24 h of the next day at the times specified by the grid dispatcher every day, the
time resolution of the forecasting values 15 min.
5.2.2 The photovoltaic power station shall report the PV power forecasting curves for
15 min ~ 4 h in the future to the grid dispatcher every 15 min, the time resolution of the
forecasting values 15 min.
5.2.3 The monthly average absolute error of the short-term forecasting of the power
generation time (not including the output control time) of the photovoltaic power station
shall be less than 0.15 and the monthly acceptability shall be greater than 80%; the
monthly absolute error of the super short-time forecasting for the fourth hour shall be
less than 0.10 and the monthly acceptability shall be greater than 85%.
5.3 Power generation plan
5.3.1 The photovoltaic power station shall give suggestions of the yearly and monthly
power generation plans in time in accordance with the meteorological data and power
forecasting, and submit to the grid dispatcher at the times specified.
5.3.2 The photovoltaic power station shall declare power generation plans in
accordance with the results of PV power forecasting, submit the power generation plan
curves for the next day to the grid dispatcher at the declaration times specified every
day, and submit the super short-time power generation plan curves every 15 min to the
grid dispatcher.
5.3.3 The photovoltaic power station shall execute automatically the plan curves
(including the plan curves modified from time to time) and dispatching instructions
issued by the grid dispatcher.
5.3.4 The photovoltaic power station shall record and analyze th...
Get QUOTATION in 1-minute: Click GB/T 33599-2017
Historical versions: GB/T 33599-2017
Preview True-PDF (Reload/Scroll if blank)
GB/T 33599-2017: Specification of operation and control for photovoltaic power station
GB/T 33599-2017
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 27.160
F 12
Specification of Operation and
Control for Photovoltaic Power Station
ISSUED ON. MAY 12, 2017
IMPLEMENTED ON. DECEMBER 1, 2017
Issued by. General Administration of Quality Supervision, Inspection and
Quarantine of the People's Republic of China;
Standardization Administration of the People's Republic of
China.
3. No action is required - Full-copy of this standard will be automatically and
immediately delivered to your EMAIL address in 0~60 minutes.
Table of Contents
Foreword ... 3
1 Application Scope ... 4
2 Normative References ... 4
3 Terms and Definitions ... 5
4 Basic Requirements ... 6
5 Operation and Control of Photovoltaic Power Station ... 7
Foreword
This Standard was drafted in accordance with the rules given in GB/T 1.1-2009.
Attention is drawn to the possibility that some of the elements of this document may
be the subject of patent rights. The issuer of this document shall not be held
responsible for identifying any or all such patent rights.
This Standard was proposed by and shall be under the jurisdiction of China Electricity
Council.
The drafting organization of this Standard. China Electric Power Research Institute,
State Grid Dispatching Centre.
The main drafters of this Standard. Liu Chun, Dong Cun, Huang Yuehui, Wang Yuefeng,
Xu Xiaoyan, Fan Gaofeng, Li Xiaofei, Xu Yanping, Ma Shuo, Liu Dewei, Zhang Nan,
Gao Yunfeng, Tang Lin, Liang Changbo, Wang Jing, Pan Xiaofeng, Li Chi, He Guoqing.
Specification of Operation and Control
for Photovoltaic Power Station
1 Application Scope
This Standard specifies the basic specifications of operation and control for
photovoltaic power stations, as well as the requirements for operation management,
power forecasting, power generation plan, active power control, reactive power control,
relaying protection and automatic safety device operation, electric power
communication operation, dispatching automation, equipment overhaul and accident
recording and reporting.
This Standard applies to newly-built, rebuilt and extended photovoltaic power stations
which are connected to the grid through the voltage class of 35 kV and above, and
connected to the public grid through the voltage class of 10 kV.
2 Normative References
The following referenced documents are indispensable for the application of this
document. For dated references, only the edition dated applies to this document. For
undated references, the latest edition of the referenced documents (including all
amendments) applies to this Standard.
GB/T 14285, Technical Code for Relaying Protection and Security Automatic
Equipment
GB/T 19964, Technical Requirements for Connecting Photovoltaic Power Station to
Power System
GB/T 29321, Technical Specification for Reactive Power Compensation of PV
Power Station
GB/T 31365, Testing Code for Photovoltaic Power Station Connected to Power Grid
GB/T 31366, Technical Requirements for Monitoring and Control System of
Photovoltaic Power Station
GB/T 31464, The Grid Operation Code
GB 50794, Code for Construction of PV Power Station
GB/T 50796, Code for Acceptance of Photovoltaic Power Project
GB 50797, Code for Design of Photovoltaic Power Station
DL/T 516, Code for Operation and Administration of Power Dispatching Automation
System
DL/T 544, Operation Management Code for Power System Telecommunication
DL/T 559, Code for Setting of 220 kV ~ 500 kV Relaying Protection Equipment
DL/T 584, Code for Setting of 3 kV ~ 110 kV Relaying Protection Equipment
DL/T 623, Evaluation Rules of Protection Equipment and Power System Stability
Control Devices
DL 755, Guide on Security and Stability for Power System
NB/T 32011, Technical Requirement of Power Forecasting System for PV Power
Station
3 Terms and Definitions
For the purposes of this document, the following terms and definitions and those
defined in GB/T 19964 and GB/T 31464 apply.
3.1
photovoltaic (PV) power station
The electric power generation system and auxiliaries which directly transform solar
radiant energy into electric power through the photovoltaic effects of the photovoltaic
cells.
3.2
PV power forecasting
The forecast which is made on the active power of the photovoltaic power station
through the technology and means including meteorological conditions and statistical
regularity.
3.3
grid integration test for PV power station
The test to determine the grid integration performance in five aspects including the
power quality, active power/reactive power control ability, low-voltage ride through
ability, voltage/frequency adaptation ability and active power output characteristics of
the photovoltaic power station.
3.4
dispatching automation system; it shall transmit to the grid dispatcher in time,
accurately and reliably, the equipment operation information, meteorological
information and power forecasting information of the primary systems and secondary
systems of the photovoltaic power station.
5.1.7 The photovoltaic power station shall report to the grid dispatcher in time the
alterations of the primary system equipment and secondary system equipment of the
photovoltaic power station and their safety protection schemes.
5.1.8 When the photovoltaic power station quits operation in emergency or trouble, it
shall report to the grid dispatcher immediately and start the grid-connected operation
once again in accordance with the dispatching instructions only after obtaining the
consent of the grid dispatcher. The photovoltaic power station shall keep records of
accidents and report to the grid dispatcher in time.
5.2 PV power forecasting
5.2.1 The photovoltaic power station shall report the PV power forecasting curves for
0 h ~ 24 h of the next day at the times specified by the grid dispatcher every day, the
time resolution of the forecasting values 15 min.
5.2.2 The photovoltaic power station shall report the PV power forecasting curves for
15 min ~ 4 h in the future to the grid dispatcher every 15 min, the time resolution of the
forecasting values 15 min.
5.2.3 The monthly average absolute error of the short-term forecasting of the power
generation time (not including the output control time) of the photovoltaic power station
shall be less than 0.15 and the monthly acceptability shall be greater than 80%; the
monthly absolute error of the super short-time forecasting for the fourth hour shall be
less than 0.10 and the monthly acceptability shall be greater than 85%.
5.3 Power generation plan
5.3.1 The photovoltaic power station shall give suggestions of the yearly and monthly
power generation plans in time in accordance with the meteorological data and power
forecasting, and submit to the grid dispatcher at the times specified.
5.3.2 The photovoltaic power station shall declare power generation plans in
accordance with the results of PV power forecasting, submit the power generation plan
curves for the next day to the grid dispatcher at the declaration times specified every
day, and submit the super short-time power generation plan curves every 15 min to the
grid dispatcher.
5.3.3 The photovoltaic power station shall execute automatically the plan curves
(including the plan curves modified from time to time) and dispatching instructions
issued by the grid dispatcher.
5.3.4 The photovoltaic power station shall record and analyze th...
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