文档介绍:风电并网对系统运行的影响和对策| Reliable Power
Integration of Wind Power into
Reliable Markets
Power Systems and Market
Operations -Impact Solution
Reliable People
胡明 Ming Hu
运行规划( Operation Planning)
系统运行及可靠性(O&R)
阿尔伯塔省电力运行机构
aeso
(AESO)
ELECTRIC
PERATOR
阿尔伯塔省电力工业概况
aeso
Alberta's Electric Industr
ALBERTA
最大负荷( Peak load):9,775MW
年负荷系数( annual load factor):80%
装机容量( stalled Capacity):12,368MW
煤电coa
率率
=风电wnd
O Coal D Gas Hydro U wind Bother
214MW
BC
Alta
>280台发电机组( generating units
-200电力交易商( Wholesale market
Sask
participants)
>21,000km输电线( Transmission line)
2对外联络线( Interties):与BC省780MW;
>11,000MW风电
与Sask省150MW
项目意向(Wind
power Interest)
风电大规模并网对系统运行带来的挑战
The System Operation Challenge of Large-scale
aeso
ALDERTA
Wind Power Integration
如何应对风电出力变化和不确定性
How to handle the variability and uncertainty in System Operation
理解风电出力的变化规律(风电出力变化研究)
Understand the wind power variability(Wind power variability study)
理解风电出力的不确定性(风电出力预测试点项目)
Understand wind power uncertainty(Wind power forecast pilot project
理解和评估对系统运行的影响(系统影响分析,1)
Understand and assess the potential impact on system operation
(System Impact study, phase-1)
评估潜在的系统应对措施及手段(系统影响分析,2)
Assess potential mitigation solutions (System Impact study, phase-2
应对措施的实施(发展风电的市场及运行框架)
Solutions implementation(Market Operation Framework)
理解风电出力的不稳定性
aeso
Understand the wind power variability
ALBERTI
AESo和风电行业合作,完成了“阿尔伯塔风电出力变化研究
AESO work with wind industry, contracted GENIVAR(Phoenix Engineering)
to conduct "Alberta wind power variability study
研究结果提供了2004年风电出力全年每分钟的仿真结果/ Provided
simulated minute-to-minute wind power data for the whole year(2004)
基于2004年气候测量数据,未来风电发站方案及风电场模型/ Based on
measured meteorology data across southern Alberta of potential future wind
farms and wind power production simulation model
4个未来风电发站方案/For4 scenarIos(-250
900MW. -1500MW and
2000MW)
250MW为2004年已有规模,用于模型验证/The250 MW was the existing wind power
scenario, for the purpose of wind p